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1

File:EIA-Appalach7-TN-KY-LIQ.pdf | Open Energy Information  

Open Energy Info (EERE)

Appalach7-TN-KY-LIQ.pdf Appalach7-TN-KY-LIQ.pdf Jump to: navigation, search File File history File usage Appalachian Basin, Kentucky and Tennessee By 2001 Liquids Reserve Class Size of this preview: 463 × 599 pixels. Other resolution: 464 × 600 pixels. Full resolution ‎(5,100 × 6,600 pixels, file size: 19.31 MB, MIME type: application/pdf) Description Appalachian Basin, Kentucky and Tennessee By 2001 Liquids Reserve Class Sources Energy Information Administration Authors Samuel H. Limerick; Lucy Luo; Gary Long; David F. Morehouse; Jack Perrin; Robert F. King Related Technologies Oil, Natural Gas Creation Date 2005-09-01 Extent Regional Countries United States UN Region Northern America States Kentucky, Tennessee File history Click on a date/time to view the file as it appeared at that time.

2

?? / Kagaku / ?? /Ky?ri: Science  

E-Print Network (OSTI)

question when considering science and technology in Japanese?? /Kagaku / ?? /Ky?ri: Science Tsukahara T?go Translationto incorporate and develop science and technology from the

Tsukahara, T?go

2012-01-01T23:59:59.000Z

3

Category:Lexington, KY | Open Energy Information  

Open Energy Info (EERE)

Lexington, KY Lexington, KY Jump to: navigation, search Go Back to PV Economics By Location Media in category "Lexington, KY" The following 16 files are in this category, out of 16 total. SVFullServiceRestaurant Lexington KY Kentucky Utilities Co.png SVFullServiceRestauran... 65 KB SVHospital Lexington KY Kentucky Utilities Co.png SVHospital Lexington K... 61 KB SVLargeHotel Lexington KY Kentucky Utilities Co.png SVLargeHotel Lexington... 61 KB SVLargeOffice Lexington KY Kentucky Utilities Co.png SVLargeOffice Lexingto... 62 KB SVMediumOffice Lexington KY Kentucky Utilities Co.png SVMediumOffice Lexingt... 64 KB SVMidriseApartment Lexington KY Kentucky Utilities Co.png SVMidriseApartment Lex... 59 KB SVOutPatient Lexington KY Kentucky Utilities Co.png SVOutPatient Lexington...

4

NJ WY AK AL CA AR CO CT DE FL GA HI ID KS IL IN IA IA KY LA  

Gasoline and Diesel Fuel Update (EIA)

0.00-1.99 0.00-1.99 2.00-2.99 3.00-3.99 4.00-4.99 5.00-5.99 6.00-6.99 7.00+ NJ WY AK AL CA AR CO CT DE FL GA HI ID KS IL IN IA IA KY LA ME MI MA MD MN MS MT MO NE ND OH NV NM NY NH NC OK OR PA RI SC SD TN TX UT VT WA WV WI AZ VA DC 0.00-1.99 2.00-2.99 3.00-3.99 4.00-4.99 5.00-5.99 6.00-6.99 7.00+ 18. Average Price of Natural Gas Delivered to U.S. Onsystem Industrial Consumers, 1996 (Dollars per Thousand Cubic Feet) Figure 19. Average Price of Natural Gas Delivered to U.S. Electric Utilities, 1996 (Dollars per Thousand Cubic Feet) Figure Sources: Federal Energy Regulatory Commission (FERC), Form FERC-423, "Monthly Report of Cost and Quality of Fuels for Electric Plants," and Energy Information Administration (EIA), Form EIA-176, "Annual Report of Natural and Supplemental Gas Supply and Disposition." Note: In 1996, consumption of natural gas for agricultural use

5

Category:Elkins, WV | Open Energy Information  

Open Energy Info (EERE)

Elkins, WV Elkins, WV Jump to: navigation, search Go Back to PV Economics By Location Media in category "Elkins, WV" The following 16 files are in this category, out of 16 total. SVFullServiceRestaurant Elkins WV Harrison Rural Elec Assn Inc.png SVFullServiceRestauran... 59 KB SVQuickServiceRestaurant Elkins WV Harrison Rural Elec Assn Inc.png SVQuickServiceRestaura... 60 KB SVHospital Elkins WV Harrison Rural Elec Assn Inc.png SVHospital Elkins WV H... 57 KB SVLargeHotel Elkins WV Harrison Rural Elec Assn Inc.png SVLargeHotel Elkins WV... 57 KB SVLargeOffice Elkins WV Harrison Rural Elec Assn Inc.png SVLargeOffice Elkins W... 58 KB SVMediumOffice Elkins WV Harrison Rural Elec Assn Inc.png SVMediumOffice Elkins ... 59 KB SVMidriseApartment Elkins WV Harrison Rural Elec Assn Inc.png

6

Category:Charleston, WV | Open Energy Information  

Open Energy Info (EERE)

WV WV Jump to: navigation, search Go Back to PV Economics By Location Media in category "Charleston, WV" The following 16 files are in this category, out of 16 total. SVFullServiceRestaurant Charleston WV Harrison Rural Elec Assn Inc.png SVFullServiceRestauran... 59 KB SVQuickServiceRestaurant Charleston WV Harrison Rural Elec Assn Inc.png SVQuickServiceRestaura... 60 KB SVHospital Charleston WV Harrison Rural Elec Assn Inc.png SVHospital Charleston ... 57 KB SVLargeHotel Charleston WV Harrison Rural Elec Assn Inc.png SVLargeHotel Charlesto... 57 KB SVLargeOffice Charleston WV Harrison Rural Elec Assn Inc.png SVLargeOffice Charlest... 58 KB SVMediumOffice Charleston WV Harrison Rural Elec Assn Inc.png SVMediumOffice Charles... 60 KB SVMidriseApartment Charleston WV Harrison Rural Elec Assn Inc.png

7

LATA KY WEA-2012-01  

Energy.gov (U.S. Department of Energy (DOE))

The Office of Enforcement and Oversight provided the results of the investigation to LATA KY in a report dated November 21, 2011. An enforcement conference was held on January 18, 2012, with LATA KY representatives to discuss the report findings and associated corrective actions. A summary of the conference is enclosed.

8

West Virginia Smart Grid Implementation Plan (WV SGIP) Project  

NLE Websites -- All DOE Office Websites (Extended Search)

WV DoE-NRCCE-APERC DRAFT February 16, 2009 1 West Virginia Smart Grid Implementation Plan (WV SGIP) Project APERC Report on Customer Complaints to WV PSC about Electric Power...

9

File:EIA-Appalach7-TN-KY-BOE.pdf | Open Energy Information  

Open Energy Info (EERE)

Kentucky and Tennessee By 2001 BOE Reserve Class Kentucky and Tennessee By 2001 BOE Reserve Class Size of this preview: 463 × 599 pixels. Other resolution: 464 × 600 pixels. Full resolution ‎(5,100 × 6,600 pixels, file size: 18.57 MB, MIME type: application/pdf) Description Appalachian Basin, Kentucky and Tennessee By 2001 BOE Reserve Class Sources Energy Information Administration Authors Samuel H. Limerick; Lucy Luo; Gary Long; David F. Morehouse; Jack Perrin; Robert F. King Related Technologies Oil, Natural Gas Creation Date 2005-09-01 Extent Regional Countries United States UN Region Northern America States Kentucky, Tennessee File history Click on a date/time to view the file as it appeared at that time. Date/Time Thumbnail Dimensions User Comment current 17:43, 20 December 2010 Thumbnail for version as of 17:43, 20 December 2010 5,100 × 6,600 (18.57 MB) MapBot (Talk | contribs) Automated bot upload

10

File:EIA-Appalach7-TN-KY-GAS.pdf | Open Energy Information  

Open Energy Info (EERE)

Kentucky and Tennessee By 2001 Gas Reserve Class Kentucky and Tennessee By 2001 Gas Reserve Class Size of this preview: 463 × 599 pixels. Other resolution: 464 × 600 pixels. Full resolution ‎(5,100 × 6,600 pixels, file size: 18.6 MB, MIME type: application/pdf) Description Appalachian Basin, Kentucky and Tennessee By 2001 Gas Reserve Class Sources Energy Information Administration Authors Samuel H. Limerick; Lucy Luo; Gary Long; David F. Morehouse; Jack Perrin; Robert F. King Related Technologies Oil, Natural Gas Creation Date 2005-09-01 Extent Regional Countries United States UN Region Northern America States Kentucky, Tennessee File history Click on a date/time to view the file as it appeared at that time. Date/Time Thumbnail Dimensions User Comment current 17:44, 20 December 2010 Thumbnail for version as of 17:44, 20 December 2010 5,100 × 6,600 (18.6 MB) MapBot (Talk | contribs) Automated bot upload

11

DOE - Office of Legacy Management -- Reduction Pilot Plant - WV 01  

Office of Legacy Management (LM)

Reduction Pilot Plant - WV 01 Reduction Pilot Plant - WV 01 FUSRAP Considered Sites Site: REDUCTION PILOT PLANT (WV.01 ) Eliminated from further consideration under FUSRAP Designated Name: Not Designated Alternate Name: International Nickel Company WV.01-1 Location: Cole Street at Alterizer Ave. , Huntington , West Virginia WV.01-2 Evaluation Year: 1987 WV.01-1 Site Operations: Manufactured powdered Nickel for use at Paducah and Portsmouth gaseous diffusion plants and Nickel plated a small quantity of Uranium slugs. WV.01-2 WV.01-1 Site Disposition: Eliminated - Limited quantities of radioactive material used on the site. Potential for residual radioactive material from AEC operations conducted at the site considered remote - confirmed by radiological survey. WV.01-1 WV.01-3

12

US ESC TN Site Consumption  

Gasoline and Diesel Fuel Update (EIA)

60% 80% 100% US ESC TN OtherNone Propane Electricity Natural Gas MAIN HEATING FUEL USED COOLING EQUIPMENT USED DIVISION: East South Central (ESC) STATES INCLUDED: Alabama,...

13

US ESC TN Site Consumption  

U.S. Energy Information Administration (EIA) Indexed Site

ESC TN ESC TN Site Consumption million Btu $0 $500 $1,000 $1,500 $2,000 $2,500 US ESC TN Expenditures dollars ALL ENERGY average per household (excl. transportation) 0 4,000 8,000 12,000 16,000 US ESC TN Site Consumption kilowatthours $0 $400 $800 $1,200 $1,600 US ESC TN Expenditures dollars ELECTRICITY ONLY average per household * Tennessee households consume an average of 79 million Btu per year, about 12% less than the U.S. average. * Average electricity consumption for Tennessee households is 33% higher than the national average and among the highest in the nation, but spending for electricity is closer to average due to relatively low electricity prices. * Tennessee homes are typically newer, yet smaller in size, than homes in other parts of the country.

14

NETL: 2010 WV Science Bowl Information  

NLE Websites -- All DOE Office Websites (Extended Search)

2010 WV Science Bowl 2010 WV Science Bowl The U.S. Department of Energy's National Energy Technology Laboratory (DOE/NETL) invites you to participate in one of the premier scientific events for high school students, the West Virginia High School Science Bowl 2010 on February 6, 2010. This will be NETL's 19th year sponsoring the high school competition. There is a change this year in the registration process from past years, all teams who are registering to complete, must do so through the National Science Bowl website. For those who are not familiar with the West Virginia Science Bowl here are some highlights: The competition is open to high school students (school, scouts, home school) from West Virginia. Complete eligibility requirements are located at the National Science Bowl website.

15

West Virginia Smart Grid Implementation Plan (WV SGIP) Project  

NLE Websites -- All DOE Office Websites (Extended Search)

WV DoE-NRCCE-APERC DRAFT February 16, 2009 WV DoE-NRCCE-APERC DRAFT February 16, 2009 1 West Virginia Smart Grid Implementation Plan (WV SGIP) Project APERC Report on Customer Complaints to WV PSC about Electric Power Service Ali Feliachi, Muhammad Choudhry, John Saymansky and Ed Sneckenberger February 16, 2009 Introduction APERC has appreciated that one of the most important sources for data on the consumer perspective of the current electric power grid in West Virginia would be the WV Public Service Commission (WV PSC). Thus, an email request was sent on December 19, 2008 to Byron Harris at the WV PSC to request any advice or approaches to determine customer and regulatory perspectives of the current electric power grid in WV. Customer Complaint Data Bryon Harris was able to provide a spreadsheet of customer complaints in West Virginia for

16

Category:Memphis, TN | Open Energy Information  

Open Energy Info (EERE)

Memphis, TN Memphis, TN Jump to: navigation, search Go Back to PV Economics By Location Media in category "Memphis, TN" The following 16 files are in this category, out of 16 total. SVFullServiceRestaurant Memphis TN City of Memphis Tennessee (Utility Company).png SVFullServiceRestauran... 66 KB SVHospital Memphis TN City of Memphis Tennessee (Utility Company).png SVHospital Memphis TN ... 69 KB SVLargeHotel Memphis TN City of Memphis Tennessee (Utility Company).png SVLargeHotel Memphis T... 67 KB SVLargeOffice Memphis TN City of Memphis Tennessee (Utility Company).png SVLargeOffice Memphis ... 70 KB SVMediumOffice Memphis TN City of Memphis Tennessee (Utility Company).png SVMediumOffice Memphis... 65 KB SVMidriseApartment Memphis TN City of Memphis Tennessee (Utility Company).png

17

Category:Nashville, TN | Open Energy Information  

Open Energy Info (EERE)

Nashville, TN Nashville, TN Jump to: navigation, search Go Back to PV Economics By Location Media in category "Nashville, TN" The following 16 files are in this category, out of 16 total. SVFullServiceRestaurant Nashville TN City of Memphis Tennessee (Utility Company).png SVFullServiceRestauran... 67 KB SVHospital Nashville TN City of Memphis Tennessee (Utility Company).png SVHospital Nashville T... 71 KB SVLargeHotel Nashville TN City of Memphis Tennessee (Utility Company).png SVLargeHotel Nashville... 68 KB SVLargeOffice Nashville TN City of Memphis Tennessee (Utility Company).png SVLargeOffice Nashvill... 71 KB SVMediumOffice Nashville TN City of Memphis Tennessee (Utility Company).png SVMediumOffice Nashvil... 67 KB SVMidriseApartment Nashville TN City of Memphis Tennessee (Utility Company).png

18

Figure 23. Average price of natural gas delivered to U.S. commercial...  

Annual Energy Outlook 2012 (EIA)

Natural and Supplemental Gas Supply and Disposition," and Form EIA-910, "Monthly Natural Gas Marketer Survey." IN OH TN WV VA KY MD PA NY VT NH MA CT ME RI DE DC NC SC GA FL NJ AL...

19

Microsoft Word - figure_22.doc  

Gasoline and Diesel Fuel Update (EIA)

Natural and Supplemental Gas Supply and Disposition," and Form EIA-910, "Monthly Natural Gas Marketer Survey." IN OH TN WV VA KY MD PA NY VT NH MA CT ME RI DE DC NC SC GA FL NJ AL...

20

Microsoft Word - figure_21.doc  

Annual Energy Outlook 2012 (EIA)

of Natural and Supplemental Gas Supply and Disposition," and Form EIA-910, "Monthly Natural Gas Marketer Survey." IN OH TN WV VA KY MD PA NY VT NH MA CT ME RI DE DC NC SC GA...

Note: This page contains sample records for the topic "ky wv tn" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


21

Microsoft Word - figure_23.doc  

Annual Energy Outlook 2012 (EIA)

11.00+ Source: Energy Information Administration (EIA), Form EIA-176, "Annual Report of Natural and Supplemental Gas Supply and Disposition." IN OH TN WV VA KY MD PA NY VT NH MA...

22

Microsoft Word - figure_23.doc  

Gasoline and Diesel Fuel Update (EIA)

Source: Energy Information Administration (EIA), Form EIA-176, "Annual Report of Natural and Supplemental Gas Supply and Disposition." IN OH TN WV VA KY MD PA NY VT NH MA...

23

Microsoft PowerPoint - NETL Morgantown, WV to Washington, DC...  

NLE Websites -- All DOE Office Websites (Extended Search)

Morgantown, WV Site to Washington, DC Headquarters 1. Take I-68 EAST toward CUMBERLAND, MD. 2 M t I 70 EASTUS 40 EUS 522 S E it EXIT 82AB t d HAGERSTOWN 2. Merge onto I-70 EAST...

24

Microsoft Word - Parkersburg High School Claims 2013 WV Science...  

NLE Websites -- All DOE Office Websites (Extended Search)

Parkersburg High School Claims 2013 WV Science Bowl Regional Win Parkersburg High School demonstrated its academic prowess as it defeated 12 other teams to capture the 22 nd Annual...

25

Mexico FL GA SC AL MS LA TX AR TN TN  

NLE Websites -- All DOE Office Websites (Extended Search)

2005 Hurricanes on the Natural Gas Industry in the Gulf of Mexico Region Mexico FL GA SC AL MS LA TX AR TN TN Katrina - Cumulative wind > 39 mph Katrina - Cumulative wind > 73 mph...

26

Murdock Road Knoxville.TN  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

702 702 Murdock Road Knoxville.TN 37932 Tel: (609) 921-1456 Fax: (609) 92 1-8703 AA\W.nell-one.com March 25,2009 Office of the Assistant General Counsel for Technology Transfer and Intellectual Property U.S. Department of Energy 1000 Independence Avenue, SW Washington, DC 20585 Attn: Technology Transfer Questions Subject: Questions Concerning Technology Transfer Practices at DOE Laboratories (Federal RegisterNol. 73, No. 229/ November 26,2008 /Notices) Dear Mr. Gottlieb, Thank you for the opportunity to respond to the questions published in the Federal Register. As Chief Executive Officer of Nell One Therapeutics, a spin-out company which is in the process of licensing technology from Oak Ridge National Laboratory (ORNL), I found the questions to be highly relevant to our experiences. While many great technologies and capabilities reside in the National Laboratories

27

DOE - Office of Legacy Management -- The Carborundum Co Inc - WV 02  

Office of Legacy Management (LM)

The Carborundum Co Inc - WV 02 The Carborundum Co Inc - WV 02 FUSRAP Considered Sites Site: THE CARBORUNDUM CO., INC (WV.02 ) Eliminated from further consideration under FUSRAP Designated Name: Not Designated Alternate Name: AMAX Inc WV.02-1 Location: Wood County , West Virginia WV.02-1 Evaluation Year: 1982 WV.02-1 Site Operations: Produced high-grade Zirconium metal for use in construction of nuclear reactors for the Navy circa late-1950s and 1960s; Conducted small scale Zirconium and Uranium testing in the mid-1970s. WV.02-2 Site Disposition: Eliminated - AEC/NRC licensed site. No Authority for cleanup under FUSRAP WV.02-1 Radioactive Materials Handled: Yes Primary Radioactive Materials Handled: Thorium, Uranium WV.02-2 Radiological Survey(s): Yes WV.02-3 Site Status: Eliminated from further consideration under FUSRAP

28

Invenergy TN LLC | Open Energy Information  

Open Energy Info (EERE)

Tennessee Sector Wind energy Product Wholly-owned subsidiary of Invenergy Wind developing wind farms in Tenessee. References Invenergy TN LLC1 LinkedIn Connections CrunchBase...

29

AOCS Official Method Tn 2a-86  

Science Conference Proceedings (OSTI)

Flash Point of Fatty Quaternary Ammonium Chloride, Closed Cup Method (Modified Closed Cup Method, ASTM Designation D 93-80) AOCS Official Method Tn 2a-86 Methods Downloads Methods Downloads DEFINITION This method

30

AOCS Official Method Tn 1a-64  

Science Conference Proceedings (OSTI)

Flash and Fire Points, Cleveland Open Cup Method AOCS Official Method Tn 1a-64 Methods Downloads Methods Downloads DEFINITION This method determines the temperature at which the test sample will flash and burn....

31

West Virginia Smart Grid Implementation Plan (WV SGIP) Project  

NLE Websites -- All DOE Office Websites (Extended Search)

West Virginia Smart Grid Implementation Plan (WV SGIP) Project West Virginia Smart Grid Implementation Plan (WV SGIP) Project APERC Report on Assessment of As-Is Grid by Non-Utility Stakeholders Introduction One goal of this grid modernization project is to assess the current status of the electric power grid in West Virginia in order to define the potential to implement smart grid technologies. Thus, an initial task of this project was to define the current state or "As-Is" grid in West Virginia. Financial and time constraints prohibited the development and execution of formal surveys to solicit input from the various stakeholders. However attempts were made to obtain their input through informal questionnaires and meeting with focus groups. list of stakeholders which

32

DOE - Office of Legacy Management -- Knoxville Iron Co - TN 07  

Office of Legacy Management (LM)

Knoxville Iron Co - TN 07 Knoxville Iron Co - TN 07 FUSRAP Considered Sites Site: KNOXVILLE IRON CO. (TN.07 ) Eliminated from consideration under FUSRAP Designated Name: Not Designated Alternate Name: None Location: Knoxville , Tennessee TN.07-1 Evaluation Year: 1994 TN.07-2 TN.07-3 Site Operations: Melted uranium contaminated scrap metal in order to test industrial hygiene procedures in the mid-1950s. TN.07-1 Site Disposition: Eliminated - AEC license TN.07-2 Radioactive Materials Handled: Yes Primary Radioactive Materials Handled: Limited Quantities of Uranium Contained in Slag Material TN.07-4 Radiological Survey(s): Yes - health and safety monitoring during operations only TN.07-4 Site Status: Eliminated from consideration under FUSRAP Also see Documents Related to KNOXVILLE IRON CO.

33

The Sugar Creek zinc deposit, Jackson Co. TN -- Exploration history, geology and mineralization  

SciTech Connect

During the 60's and 70's zinc exploration of central TN and KY was active. The Sugar Creek Project was one of several investigated by Exxon. The discovery hole, Cu 15, was drilled in early 1973. The Sugar Creek Zinc Deposit was acquired by Independence Mining Co. in 1986 and I.M.C. has subsequently completed additional drilling, both stepout and confirmation holes. A total of 137 holes for 300,833 ft have been drilled. The Sugar Creek deposit is a typical Tennessee zinc deposit (Mississippi Valley Type) which occurs in solution collapse breccias in the Lower Ordovician, Knox Dolomite. The Knox consists of fine grained dolomite with interlayered limestones and crystalline dolomite. Only scattered residual limestone is found in the Sugar Creek area. Collapse breccias have formed which control zinc deposition and are similar to other TN Zn. deposits. At Sugar Creek the types of breccias include: a vertically exaggerated glory hole breakthrough breccia which extends to within 137 ft. of the Knox unconformity, has 500 ft. of zinc mineralization with 8 significant zinc intervals; holes with stacked zinc intervals interpreted to be sides of breakthrough breccia; and single zinc intervals in laterally positioned bedded mineral zones. A total of 99 holes were drilled in the more intense mineralized areas. The ratio of ore to non ore holes is nearly 1 to 1. The mineralization is typical M.V.T. with predominantly sphalerite and only minor occurrences of galena, fluorite, pyrite, etc.

Reinbold, G.; Moran, A.V.; Stevens, D.L. (Independence Mining Co. Inc., Reno, NV (United States))

1993-03-01T23:59:59.000Z

34

Proceedings, World Of Coal Ash, April 11-15, 2005, Lexington, KY, USA Pultrusion of Fabric Reinforced High Flyash  

E-Print Network (OSTI)

Proceedings, World Of Coal Ash, April 11-15, 2005, Lexington, KY, USA Pultrusion of Fabric Reinforced High Flyash Blended Cement Composites Barzin Mobasher(1) , Alva Peled (2) , and Jitendra of elasticity. #12;Proceedings, World Of Coal Ash, April 11-15, 2005, Lexington, KY, USA In addition to ease

Mobasher, Barzin

35

SLAC_TN04051_04.dvi  

NLE Websites -- All DOE Office Websites (Extended Search)

8 8 SLAC-TN-04-051 Sep. 2004 (Jan. 2005) Abstract This note documents a set of expressions used to explore the issue of whether or not it is reasonable to consider a conventional positron source for a Tesla formatted beam. The critical issue is that of energy deposition in the conversion target and the comparison of the induced stress with the ultimate tensile strength of the target material. Since the length of the incident beam pulse is large in comparison to the ratio of beam size to the speed of sound, the concurrent pressure pulse dissipates in a time short compared to the overall pulse duration and one is left with only the Electron Conditioning of Technical Aluminum Surfaces ¤ F. Le Pimpec, F. King, and R. E. Kirby

36

AT-TN: Mr. R. L. Rudolph  

Office of Legacy Management (LM)

MAR 1 ? 7982 MAR 1 ? 7982 3echW tiational, Inc. AT-TN: Mr. R. L. Rudolph PO Box 350 Oak Ridge, TFi 37830 Gentlemen: CRITERIA FOR REMEDIAL ACTION AT ACID/PUEBLO AND BAY0 CANYONS; REQUEST FOR COST/BENEFIT ANALYSES OF REMEDIAL ACTION OPTIONS AT THE CANYONS Enclosed are several pieces of cqrespondence related to AcldjPueblo * and Bayo Canyons. . . . . . . . . . . . . . First, EP has concurred with the remedial action DATE criteria for the New Mexico sftes that were proposed to them on August 20, 1987 (wfth the addition of a criterion for Pu-239 added RTG SYMBO, October 20, 7981). In summary, the cri terla will be: . . . . . . . IUITI*LSSIG. f ---- Radionuclfdt Sr-90 cs-137 Th-228 Th-230 Th-232 u-234 U-238 Pu-239 Pu-240 Pu-241 Am-241 Sofl Limft (pCi/g) 100 80

37

If you reside in WASHINGTON, DC - MD -VA - WV your salary will...  

National Nuclear Security Administration (NNSA)

If you are employed in the WASHINGTON, DC Metropolitan Area (D.C., Baltimore, Northern VA, Eastern WV, and Southern PA) your salary will range from: Pay Band Pay Plan(s) Minimum...

38

File:USDA-CE-Production-GIFmaps-KY.pdf | Open Energy Information  

Open Energy Info (EERE)

KY.pdf KY.pdf Jump to: navigation, search File File history File usage Kentucky Ethanol Plant Locations Size of this preview: 776 × 600 pixels. Full resolution ‎(1,650 × 1,275 pixels, file size: 387 KB, MIME type: application/pdf) Description Kentucky Ethanol Plant Locations Sources United States Department of Agriculture Related Technologies Biomass, Biofuels, Ethanol Creation Date 2010-01-19 Extent State Countries United States UN Region Northern America States Kentucky External links http://www.nass.usda.gov/Charts_and_Maps/Ethanol_Plants/ File history Click on a date/time to view the file as it appeared at that time. Date/Time Thumbnail Dimensions User Comment current 16:15, 27 December 2010 Thumbnail for version as of 16:15, 27 December 2010 1,650 × 1,275 (387 KB) MapBot (Talk | contribs) Automated bot upload

39

DOE - Office of Legacy Management -- Oak Ridge TN Warehouse Site...  

Office of Legacy Management (LM)

Warehouses Site. This site is managed by the U.S. Department of Energy Office of Legacy Management. Aerial photograph of the Oak Ridge, Tennessee, Site TN.09-1 - DOE...

40

DOE - Office of Legacy Management -- Vitro Corp of America - TN 04  

Office of Legacy Management (LM)

TN 04 TN 04 FUSRAP Considered Sites Site: Vitro Corp. of America (TN.04) Eliminated from further consideration under FUSRAP Designated Name: Not Designated Alternate Name: Heavy Minerals Company Vitro Chemical Company TN.04-4 TN.04-5 Location: 4000 North Hawthorne Street , Chattanooga , Tennessee TN.04-5 Evaluation Year: 1990 TN.04-1 Site Operations: Processed mineral monazite to produce a thorium-uranium hydroxide and a series of rare earth products. TN.04-4 Site Disposition: Eliminated - Site licensed by AEC and State of Tennessee - No Authority to perform remedial action under FUSRAP TN.04-2 TN.04-3 Radioactive Materials Handled: Yes Primary Radioactive Materials Handled: Thorium Metal, ThF4, Thorium Oxide TN.04-1 Radiological Survey(s): None Indicated

Note: This page contains sample records for the topic "ky wv tn" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


41

U.S. Energy Information Administration | Annual Energy Outlook...  

Gasoline and Diesel Fuel Update (EIA)

Annual Energy Outlook 2012 Regional maps Figure F6. Coal supply regions WA ID OR CA NV UT TX OK AR MO LA MS AL GA FL TN SC NC KY VA WV WY CO SD ND MI MN WI IL IN OH MD PA NJ DE CT...

42

Gas Prices  

NLE Websites -- All DOE Office Websites (Extended Search)

Prices Gasoline Prices for U.S. Cities Click on the map to view gas prices for cities in your state. AK VT ME NH NH MA MA RI CT CT DC NJ DE DE NY WV VA NC SC FL GA AL MS TN KY IN...

43

C:\\ANNUAL\\VENTCHAP.V8\\NGA.VP  

Gasoline and Diesel Fuel Update (EIA)

4 NJ WY AK AL CA AR CO CT DE FL GA HI ID KS IL IN IA IA KY LA ME MI MA MD MN MS MT MO NE ND OH NV NM NY NH NC OK OR PA RI SC SD TN TX UT VT WA WV WI AZ VA DC 0.00-1.99 2.00-2.99...

44

Microsoft Word - NGAMaster_State_TablesNov12.doc  

Gasoline and Diesel Fuel Update (EIA)

WI NE IA KS MO TX IL IN OH MI OK AR TN WV VA KY MD PA WI NY VT NH MA CT ME RI NJ DC NC SC GA AL MS LA FL HI AK DE 0 2 4 6 8 10 1980 1982 1984 1986 1988 1990 1992 1994 1996 1998...

45

C:\\ANNUAL\\VENTCHAP.V8\\NGAla1109.vp  

Gasoline and Diesel Fuel Update (EIA)

0 NJ WY AK AL CA AR CO CT DE FL GA HI ID KS IL IN IA IA KY LA ME MI MA MD MN MS MT MO NE ND OH NV NM NY NH NC OK OR PA RI SC SD TN TX UT VT WA WV WI AZ VA DC Sources: Energy...

46

NGA98fin5.vp  

Annual Energy Outlook 2012 (EIA)

NJ WY AK AL CA AR CO CT DE FL GA HI ID KS IL IN IA IA KY LA ME MI MA MD MN MS MT MO NE ND OH NV NM NY NH NC OK OR PA RI SC SD TN TX UT VT WA WV WI AZ VA DC 0.00-1.99 2.00-2.99...

47

U.S. Energy Information Administration | Annual Energy Outlook...  

Annual Energy Outlook 2012 (EIA)

3 Regional maps Figure F6. Coal supply regions WA ID OR CA NV UT TX OK AR MO LA MS AL GA FL TN SC NC KY VA WV WY CO SD ND MI MN WI IL IN OH MD PA NJ DE CT MA NH VT NY ME RI MT NE...

48

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

CONTACTS Joseph Stoffa Project Manager National Energy Technology Laboratory 3610 Collins Ferry Road P.O. Box 880 Morgantown, WV 26507-0880 304-285-0285 joseph.stoffa@netl.doe.gov Xingbo Liu Principal Investigator Dept. MechanaWest Virginia University P.O. Box 6106 Morgantown, WV 26506-6106 304-293-3339 xingbo.liu@mail.wvu.edu Shailesh D. Vora Technology Manager, Fuel Cells National Energy Technology Laboratory 626 Cochrans Mill Road P.O. Box 10940 Pittsburgh, PA 15236-0940 412-386-7515 shailesh.vora@netl.doe.gov PARTNERS None PROJECT DURATION Start Date End Date 08/31/2012 09/30/2015 COST Total Project Value $634,839 DOE/Non-DOE Share $499,953 / $134,886 AWARD NUMBER FE0009675 Fundamental Understanding of Oxygen Reduction and Reaction Behavior and Developing High Performance and Stable

49

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Traci Rodosta Traci Rodosta Carbon Storage Technology Manager National Energy Technology Laboratory 3610 Collins Ferry Road PO Box 880 Morgantown, WV 26507 304-285-1345 traci.rodosta@netl.doe.gov Joshua Hull Project Manager National Energy Technology Laboratory 3610 Collins Ferry Road P.O. Box 880 Morgantown, WV 26507 304-285-0906 joshua.hull@netl.doe.gov Erik Westman Principal Investigator Virginia Polytechnic Institute and State University 100 Holden Hall Blacksburg, VA 24061 540-0231-7510 Fax: 540-231-4070 ewestman@vt.edu PROJECT DURATION Start Date End Date 12/01/2009 12/31/2012 COST Total Project Value $257,818 DOE/Non-DOE Share $248,441 / $9,377 Government funding for this project is provided in whole or in part through the American Recovery and Reinvestment Act. P R OJ E C T FAC T

50

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Program Technology Program Technology Manager National Energy Technology Laboratory 3610 Collins Ferry Road P.O. Box 880 Morgantown, WV 26507 304-285-1345 traci.rodosta@netl.doe.gov Dawn Deel Project Manager National Energy Technology Laboratory 3610 Collins Ferry Road P.O. Box 880 Morgantown, WV 26507 304-285-4133 dawn.deel@netl.doe.gov Sherry Mediati Business Contact California Energy Commission 1516 9th Street, MS 1 Sacramento, CA 95814 916-654-4204 smediati@energy.state.ca.us Mike Gravely Principal Investigator California Energy Commission 1516 Ninth Street, MS 43 Sacramento, CA 95814 916-327-1370 mgravely@energy.state.ca.us Elizabeth Burton Technical Director Lawrence Berkeley National Laboratory 1 Cyclotron Road, MS 90-1116 Berkeley, CA 94720 925-899-6397 eburton@lbl.gov West Coast Regional Carbon

51

File:EIA-Appalach6-WV-VA-BOE.pdf | Open Energy Information  

Open Energy Info (EERE)

Appalach6-WV-VA-BOE.pdf Appalach6-WV-VA-BOE.pdf Jump to: navigation, search File File history File usage Appalachian Basin, Southern West Virginia and Southwestern Virginia By 2001 BOE Reserve Class Size of this preview: 776 × 600 pixels. Full resolution ‎(6,600 × 5,100 pixels, file size: 17.02 MB, MIME type: application/pdf) Description Appalachian Basin, Southern West Virginia and Southwestern Virginia By 2001 BOE Reserve Class Sources Energy Information Administration Authors Samuel H. Limerick; Lucy Luo; Gary Long; David F. Morehouse; Jack Perrin; Robert F. King Related Technologies Oil, Natural Gas Creation Date 2005-09-01 Extent Regional Countries United States UN Region Northern America States West Virginia, Virginia File history Click on a date/time to view the file as it appeared at that time.

52

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Hydrogen Turbines Hydrogen Turbines CONTACTS Richard A. Dennis Technology Manager, Turbines National Energy Technology Laboratory 3610 Collins Ferry Road P.O. Box 880 Morgantown, WV 26507 304-285-4515 richard.dennis@netl.doe.gov Travis Shultz Project Manager National Energy Technology Laboratory 3610 Collins Ferry Road PO Box 880 Morgantown, WV 26507-0880 304-285-1370 travis.shultz@netl.doe.gov Jacob A. Mills Principal Investigator Florida Turbine Technologies, Inc 1701 Military Trail Suite 110 Jupiter, FL 33458-7887 561-427-6349 jmills@fttinc.com PARTNERS None PROJECT DURATION Start Date End Date 06/28/2012 08/13/2015 COST Total Project Value $1,149,847 DOE/Non-DOE Share $1,149,847 / $0 AWARD NUMBER SC0008218 Air-Riding Seal Technology for Advanced Gas Turbine Engines-Florida Turbine

53

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Rodosta Rodosta Carbon Storage Technology Manager National Energy Technology Laboratory 3610 Collins Ferry Road P.O. Box 880 Morgantown, WV 26507 304-285-1345 traci.rodosta@netl.doe.gov Darin Damiani Project Manager National Energy Technology Laboratory 3610 Collins Ferry Road P.O. Box 880 Morgantown, WV 26507 304-285-4398 darin.damiani@netl.doe.gov Vivak Malhotra Principal Investigator Southern Illinois University Neckers 483A Mailcode: 4401 Carbondale, IL 62901 618-453-2643 Fax: 618-453-1056 vmalhotra@physics.siu.edu PARTNERS None Risk Assessment and Monitoring of Stored CO2 in Organic Rock under Non-Equilibrium Conditions Background Fundamental and applied research on carbon capture, utilization and storage (CCUS)

54

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

PO Box 880 PO Box 880 Morgantown, WV 26507 304-285-1345 traci.rodosta@netl.doe.gov Andrea McNemar Project Manager National Energy Technology Laboratory 3610 Collins Ferry Road PO Box 880 Morgantown, WV 26507 304-285-2024 andrea.mcnemar@netl.doe.gov Charles D. Gorecki Technical Contact Senior Research Manager Energy & Environmental Research Center University of North Dakota 15 North 23 rd Street, Stop 9018 Grand Forks, ND 58202-9018 701-777-5355 cgorecki@undeerc.org Edward N. Steadman Deputy Associate Director for Research Energy & Environmental Research Center University of North Dakota 15 North 23 rd Street, Stop 9018 Grand Forks, ND 58202-9018 701-777-5279 esteadman@undeerc.org John A. Harju Associate Director for Research Energy & Environmental Research Center University of North Dakota

55

Scoping Study for Demand Respose DFT II Project in Morgantown, WV  

Science Conference Proceedings (OSTI)

This scoping study describes the underlying data resources and an analysis tool for a demand response assessment specifically tailored toward the needs of the Modern Grid Initiatives Demonstration Field Test in Phase II in Morgantown, WV. To develop demand response strategies as part of more general distribution automation, automated islanding and feeder reconfiguration schemes, an assessment of the demand response resource potential is required. This report provides the data for the resource assessment for residential customers and describes a tool that allows the analyst to estimate demand response in kW for each hour of the day, by end-use, season, day type (weekday versus weekend) with specific saturation rates of residential appliances valid for the Morgantown, WV area.

Lu, Shuai; Kintner-Meyer, Michael CW

2008-06-06T23:59:59.000Z

56

File:EIA-Appalach6-WV-VA-GAS.pdf | Open Energy Information  

Open Energy Info (EERE)

Appalach6-WV-VA-GAS.pdf Appalach6-WV-VA-GAS.pdf Jump to: navigation, search File File history File usage Appalachian Basin, Southern West Virginia and Southwestern Virginia By 2001 Gas Reserve Class Size of this preview: 776 × 600 pixels. Full resolution ‎(6,600 × 5,100 pixels, file size: 18.09 MB, MIME type: application/pdf) Description Appalachian Basin, Southern West Virginia and Southwestern Virginia By 2001 Gas Reserve Class Sources Energy Information Administration Authors Samuel H. Limerick; Lucy Luo; Gary Long; David F. Morehouse; Jack Perrin; Robert F. King Related Technologies Oil, Natural Gas Creation Date 2005-09-01 Extent Regional Countries United States UN Region Northern America States West Virginia, Virginia File history Click on a date/time to view the file as it appeared at that time.

57

File:EIA-Appalach5-eastWV-BOE.pdf | Open Energy Information  

Open Energy Info (EERE)

Appalach5-eastWV-BOE.pdf Appalach5-eastWV-BOE.pdf Jump to: navigation, search File File history File usage Appalachian Basin, Eastern West Virginia and Western Maryland By 2001 BOE Reserve Class Size of this preview: 776 × 600 pixels. Full resolution ‎(6,600 × 5,100 pixels, file size: 17.26 MB, MIME type: application/pdf) Description Appalachian Basin, Eastern West Virginia and Western Maryland By 2001 BOE Reserve Class Sources Energy Information Administration Authors Samuel H. Limerick; Lucy Luo; Gary Long; David F. Morehouse; Jack Perrin; Robert F. King Related Technologies Oil, Natural Gas Creation Date 2005-09-01 Extent Regional Countries United States UN Region Northern America States West Virginia, Maryland File history Click on a date/time to view the file as it appeared at that time.

58

Fractal Location and Anomalous Diffusion Dynamics for Oil Wells from the KY Geological Survey  

E-Print Network (OSTI)

Utilizing data available from the Kentucky Geonet (KYGeonet.ky.gov) the fossil fuel mining locations created by the Kentucky Geological Survey geo-locating oil and gas wells are mapped using ESRI ArcGIS in Kentucky single plain 1602 ft projection. This data was then exported into a spreadsheet showing latitude and longitude for each point to be used for modeling at different scales to determine the fractal dimension of the set. Following the porosity and diffusivity studies of Tarafdar and Roy1 we extract fractal dimensions of the fossil fuel mining locations and search for evidence of scaling laws for the set of deposits. The Levy index is used to determine a match to a statistical mechanically motivated generalized probability function for the wells. This probability distribution corresponds to a solution of a dynamical anomalous diffusion equation of fractional order that describes the Levy paths which can be solved in the diffusion limit by the Fox H function ansatz.

Andrew, Keith; Andrew, Kevin A

2009-01-01T23:59:59.000Z

59

Albany, OR * Fairbanks, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Romanosky Romanosky Crosscutting Research Technology Manager National Energy Technology Laboratory 3610 Collins Ferry Road P.O. Box 880 Morgantown, WV 26507-0880 304-285-4721 robert.romanosky@netl.doe.gov Richard Dunst Project Manager National Energy Technology Laboratory 626 Cochrans Mill Road P.O. Box 10940 Pittsburgh, PA 15236-0940 412-386-6694 richard.dunst@netl.doe.gov Shizhong Yang Principal Investigator Southern University

60

NJ WY AK AL CA AR CO CT DE FL GA HI ID KS IL IN IA IA KY LA  

Gasoline and Diesel Fuel Update (EIA)

176, "Annual Report of Natural and Supplemental Gas Supply and Disposition." NJ WY AK AL CA AR CO CT DE FL GA HI ID KS IL IN IA IA KY LA ME MI MA MD MN MS MT MO NE ND OH NV NM NY...

Note: This page contains sample records for the topic "ky wv tn" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


61

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

R R &D FAC T S Natural Gas & Oil R&D CONTACTS George Guthrie Focus Area Lead Office of Research and Development National Energy Technology Laboratory 626 Cochrans Mill Road Pittsburgh, PA 15236-0940 412-386-6571 george.guthrie@netl.doe.gov Kelly Rose Technical Coordinator Office of Research and Development National Energy Technology Laboratory 1450 Queen Avenue SW Albany, OR 97321-2152 541-967-5883 kelly.rose@netl.doe.gov PARTNERS Carnegie Mellon University Pittsburgh, PA Oregon State University Corvallis, OR Pennsylvania State University State College, PA University of Pittsburgh Pittsburgh, PA URS Corporation Pittsburgh, PA Virginia Tech Blacksburg, VA West Virginia University Morgantown, WV

62

SBOT WEST VIRGINIA NATIONAL ENERGY TECHNOLOGY LAB -WV POC Larry Sullivan  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

WEST VIRGINIA WEST VIRGINIA NATIONAL ENERGY TECHNOLOGY LAB -WV POC Larry Sullivan Telephone (412) 386-6115 Email larry.sullivan@netl.doe.gov ADMINISTATIVE / WASTE / REMEDIATION Facilities Support Services 561210 Employment Placement Agencies 561311 Temporary Help Services 561320 Professional Employer Organizations 561330 Document Preparation Services 561410 Security Guards and Patrol Services 561612 Security Systems Services (except Locksmiths) 561621 Janitorial Services 561720 Landscaping Services 561730 Hazardous Waste Treatment and Disposal 562211 Remediation Services 562910 Materials Recovery Facilities 562920 All Other Miscellaneous Waste Management Services 562998 CONSTRUCTION Industrial Building Construction 236210 Commercial and Institutional Building Construction 236220 Power and Communication Line and Related Structures Construction

63

Microsoft Word - 2014 WVSB - WV HS letter (generic for PDF).docx  

NLE Websites -- All DOE Office Websites (Extended Search)

610 Collins Ferry Road, P.O. Box 880, Morgantown, WV 26507-0880 626 Cochrans Mill Road, P.O. Box 10940, Pittsburgh, PA 15236-0940 610 Collins Ferry Road, P.O. Box 880, Morgantown, WV 26507-0880 626 Cochrans Mill Road, P.O. Box 10940, Pittsburgh, PA 15236-0940 REPLY TO: Morgantown Office  steven.woodruff@netl.doe.gov  Voice (304) 285-4175  Fax (304) 285-0903  www.netl.doe.gov September 23, 2013 Dear Science Chair or Principal: On behalf of the Secretary of Energy, I am pleased to announce the opening of the 2014 National Science Bowl, a tournament-style academic competition challenging students in the fields of science and mathematics. In support of the National Science Bowl, the U.S. Dept of Energy's National Energy Technology Laboratory is once again proud to host the West Virginia Regional Science Bowl. The WVSB is one of many regional competitions held for high school teams across

64

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

PROJEC PROJEC T FAC TS Carbon Storage - ARRA - GSRA CONTACTS Traci Rodosta Carbon Storage Technology Manager National Energy Technology Laboratory 3610 Collins Ferry Road P.O. Box 880 Morgantown, WV 26507-0880 304-285-1345 traci.rodosta@netl.doe.gov Robert Noll Project Manager National Energy Technology Laboratory 626 Cochrans Mill Road P.O. Box 10940 Pittsburgh, PA 15236 412-386-7597 robert.noll@netl.doe.gov Gordon Bierwagen Principal Investigator North Dakota State University P.O. Box 6050 Department 2760 Fargo, ND 58108-6050 701-231-8294 gordon.bierwagen@ndsu.edu PARTNERS None PROJECT DURATION Start Date 12/01/2009 End Date 11/30/2011 COST Total Project Value $298,949 DOE/Non-DOE Share $298,949 / $0 PROJECT NUMBER DE-FE0002054 Government funding for this project is provided in whole or in part through the

65

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

ARRA - GSRA CONTACTS Traci Rodosta Carbon Storage Technology Manager National Energy Technology Laboratory 3610 Collins Ferry Road PO Box 880 Morgantown, WV 26507 304-285-1345 traci.rodosta@netl.doe.gov Andrea Dunn Project Manager National Energy Technology Laboratory 626 Cochrans Mill Road P.O. Box 10940 Pittsburgh, PA 15236 412-386-7594 andrea.dunn@netl.doe.gov Jose Castillo Principal Investigator San Diego State University 5500 Campanile Drive San Diego, CA 92122 619-594-7205 castillo@myth.sdsu.edu PARTNERS Sienna Geodynamics and Consulting, Inc. PROJECT DURATION Start Date End Date 12/01/2009 11/30/2012 COST Total Project Value $299,993 DOE/Non-DOE Share $299,993 / $0 PROJECT NUMBER DE-FE0002069 Government funding for this project is provided in whole or in part through the

66

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Briggs White Briggs White Project Manager National Energy Technology Laboratory 3610 Collins Ferry Road P.O. Box 880 Morgantown, WV 26507-0880 304-285-5437 briggs.white@netl.doe.gov Jeff Stevenson Principal Investigator Pacific Northwest National Laboratory P.O. Box 999, MS K2-44 Richland, WA 99352 509-372-4697 jeff.stevenson@pnl.com PARTNERS Oak Ridge National Laboratory University of Connecticut PROJECT DURATION Start Date End Date 10/01/1999 09/30/2013 (annual continuations) COST Total Project Value $52,889,667 DOE/Non-DOE Share $52,889,667 / $0 AWARD NUMBER FWP40552 PR OJ E C T FAC T S Fuel Cells Low Cost Modular SOFC Development- Pacific Northwest National Laboratory Background The U.S. Department of Energy (DOE) National Energy Technology Laboratory (NETL) has a mission to advance energy options to fuel our economy, strengthen our security,

67

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Traci Rodosta Traci Rodosta Carbon Storage Technology Manager National Energy Technology Laboratory 3610 Collins Ferry Road PO Box 880 Morgantown, WV 26507 304-285-1345 traci.rodosta@netl.doe.gov Karen Kluger Project Manager National Energy Technology Laboratory 626 Cochrans Mill Road P.O. Box 10940 Pittsburgh, PA 15236-0940 412-386-6667 karen.kluger@netl.doe.gov Gary Mavko Principal Investigator Stanford University 397 Panama Mall Stanford, CA 94305-2215 650-723-9438 Fax: 650-723-1188 mavko@stanford.edu PROJECT DURATION Start Date 12/01/2009 End Date 06/30/2013 COST Total Project Value $385,276 DOE/Non-DOE Share $295,777/ $89,499 Government funding for this project is provided in whole or in part through the American Recovery and Reinvestment Act. Rock Physics of Geologic Carbon Sequestration/Storage

68

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Maira Reidpath Maira Reidpath Project Manager National Energy Technology Laboratory 3610 Collins Ferry Road P.O. Box 880 Morgantown, WV 26507-0880 304- 285-4140 maria.reidpath@netl.doe.gov Steven S.C. Chuang Principal Investigator The University of Akron Department of Chemical and Biomolecular Engineering 230 E. Buchtel Commons Akron, OH 44325 330-972-6993 schuang@uakron.edu PARTNERS None PROJECT DURATION Start Date End Date 09/01/2009 08/31/2013 COST Total Project Value $1,713,961 DOE/Non-DOE Share $1,370,977/$342,984 AWARD NUMBER Techno-Economic Analysis of Scalable Coal-Based Fuel Cells-University of Akron Background In this congressionally directed project, the University of Akron (UA) will develop a scalable coal fuel cell manufacturing process to a megawatt scale. UA has demonstrated the

69

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Maria Reidpath Maria Reidpath Project Manager National Energy Technology Laboratory 3610 Collins Ferry Road P.O. Box 880 Morgantown, WV 26507-0880 304- 285-4140 maria.reidpath@netl.doe.gov Bogdan Gurau Principal Investigator NuVant Systems, Inc. 130 N West Street Crown Point, IN 46307 219-644-3232 b.gurau@nuvant.com PARTNERS None PROJECT DURATION Start Date End Date 08/01/2009 05/31/2013 COST Total Project Value $1,142,481 DOE/Non-DOE Share $913,985 / $228,496 AWARD NUMBER Improved Flow-field Structures for Direct Methanol Fuel Cells-NuVant Systems, Inc. Background In this congressionally directed project, NuVant Systems, Inc. (NuVant) will improve the performance of direct methanol fuel cells (DMFCs) by designing anode flow-fields specifically for the delivery of liquid methanol. The goal is to deliver concentrated

70

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

FACTS FACTS Carbon Storage - ARRA - GSRA CONTACTS Traci Rodosta Carbon Storage Technology Manager National Energy Technology Laboratory 3610 Collins Ferry Road P.O. Box 880 Morgantown, WV 26507 304-285-1345 traci.rodosta@netl.doe.gov Robert Noll Project Manager National Energy Technology Laboratory 626 Cochrans Mill Road P.O. Box 10940 Pittsburgh, PA 15236 412-386-7597 robert.noll@netl.doe.gov Joseph Labuz Principal Investigator University of Minnesota 500 Pillsbury Drive SE Room 122 CivE 0851 Minneapolis, MN 55455 612-625-9060 jlabuz@umn.edu PARTNERS None PROJECT DURATION Start Date End Date 12/01/2009 11/30/2012 COST Total Project Value $299,568 DOE/Non-DOE Share $299,568 / $0 PROJECT NUMBER DE-FE0002020 Government funding for this project is provided in whole or in part through the

71

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

R& R& D FAC T S Natural Gas & Oil R&D CONTACTS George Guthrie Focus Area Lead Office of Research and Development National Energy Technology Laboratory 626 Cochrans Mill Road Pittsburgh, PA 15236-0940 412-386-6571 george.guthrie@netl.doe.gov Kelly Rose Technical Coordinator Office of Research and Development National Energy Technology Laboratory 1450 Queen Avenue SW Albany, OR 97321-2152 541-967-5883 kelly.rose@netl.doe.gov PARTNERS Carnegie Mellon University Pittsburgh, PA Oregon State University Corvallis, OR Pennsylvania State University State College, PA University of Pittsburgh Pittsburgh, PA URS Corporation Pittsburgh, PA Virginia Tech Blacksburg, VA West Virginia University Morgantown, WV

72

Y-12 and East TN Public Broadcasting System ? A Nuclear Family...  

NLE Websites -- All DOE Office Websites (Extended Search)

East TN Public Broadcasting System - A Nuclear Family Video Miniseries The fourth and final episode of A Nuclear Family: Y-12 National Security Complex documentary film miniseries...

73

REPLY TO Al-TN OF: EM-421 SUBJECT:  

Office of Legacy Management (LM)

;;;;!r;; c"/ I%- , 2.1 + 2- ;;;;!r;; c"/ I%- , 2.1 + 2- llnited States Government Department of Energy memorandum Fw?fw --&a Gt3 .I\ DATE: Af'R 8 1991 REPLY TO Al-TN OF: EM-421 SUBJECT: Elimination of the Magnus Brass Manufacturing Company from FUSRAP TO: The File The Magnus Brass Manufacturing Company Sites are hereby eliminated from consideration in the Department of Energy's Formerly Utilized Sites Remedial Action Program (FUSRAP). The Department of Energy does not have the authority under the Atomic Energy Act to further investigate the sites, which are located at 533 Reading Road and 1029 West Seventh Street in Cincinnati, Ohio. The lack of authority is more fully explained in the attached Authority Review. The Department of Energy does not have any further information concerning the radiological status of the sites;

74

Cell, Vol. 29, 551-559, June 1982, Copyright 0 1982 by MIT Directed Transposon Tn5 Mutagenesis and  

E-Print Network (OSTI)

(nif) was cloned from the genome of the symbiotic nitrogen-fixing species Rhizobium meliloti. A total of 31 Tn5 insertions in the nif region were constructed and assayed for their effect on symbiotic between genomic nif: :TnS insertions and nif: :Tn5 insertions on mo- bilizable cloning vectors

Ausubel, Frederick M.

75

Multifunctional Carbon Nanomaterials  

Science Conference Proceedings (OSTI)

... Offices in Charleston (WV), Morgantown (WV) and Oak Ridge (TN) Expertise in Biomass fuels & products Fossil fuels & products ...

76

DOE - Office of Legacy Management -- W R Grace - Erwin - TN 05  

Office of Legacy Management (LM)

- Erwin - TN 05 - Erwin - TN 05 FUSRAP Considered Sites Site: W R Grace - Erwin (TN.05) Designated Name: Alternate Name: Location: Evaluation Year: Site Operations: Site Disposition: Radioactive Materials Handled: Primary Radioactive Materials Handled: Radiological Survey(s): Site Status: This site is one of a group of 5 FUSRAP considered sites for which records are available that provide a reasonably complete historical account of their operations and relationship, if any, with MED/AEC operations. However, additional analyses of these historical records, and more recent documentation of decisions concerning the authority and other considerations related to the elimination of these sites from further consideration under FUSRAP is warranted. These analyses will provide the

77

DOE - Office of Legacy Management -- Union Carbide and Carbon Co - TN 10  

Office of Legacy Management (LM)

Carbide and Carbon Co - TN 10 Carbide and Carbon Co - TN 10 FUSRAP Considered Sites Site: Union Carbide and Carbon Co (TN.10) Designated Name: Alternate Name: Location: Evaluation Year: Site Operations: Site Disposition: Radioactive Materials Handled: Primary Radioactive Materials Handled: Radiological Survey(s): Site Status: This site is one of a group of 5 FUSRAP considered sites for which records are available that provide a reasonably complete historical account of their operations and relationship, if any, with MED/AEC operations. However, additional analyses of these historical records, and more recent documentation of decisions concerning the authority and other considerations related to the elimination of these sites from further consideration under FUSRAP is warranted. These analyses will provide the

78

Summary - Mitigation and Remediation of Mercury Contamination at the Y-12 Plant, Oak Ridge, TN  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Oak Ridge, TN Oak Ridge, TN EM Project: Mitigation/Remediation of Hg ETR Report Date: April 2008 ETR-13 United States Department of Energy Office of Environmental Management (DOE-EM) External Technical Review of the Mitigation and Remediation of Mercury Contamination at the Y-12 Plant, Oak Ridge, TN Why DOE-EM Did This Review From 1953 to 1983, ~240,000 pounds of mercury (Hg) were released to the East Fork Popular Creek during the operation of the Y-12 Plant. In 1963, direct systematic releases of mercury stopped; however, mercury continues to be released into the creek from various sources of contamination in the Y-12 complex. Remediation completed up to 1992 resulted in an overall reduction of Hg loading from 150 g/day in 1983 to 15 g/day in 1992, with a

79

Summary - Environmental Management Waste Management Facility (EMWMF) at Oak Ridge, TN  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Oak Ridge, TN Oak Ridge, TN EM Project: EM Waste Management Facility ETR Report Date: February 2008 ETR-11 United States Department of Energy Office of Environmental Management (DOE-EM) External Technical Review of Environmental Management Waste Management Facility (EMWMF) at Oak Ridge, TN Why DOE-EM Did This Review The Environmental Management Waste Management Facility (EMWMF) is a land disposal facility for wastes generated by environmental restoration activities being conducted at the US Department of Energy's (DOE) Oak Ridge Reservation. Low-level radioactive wastes, hazardous wastes (Subtitle C of the Resource Conservation and Recovery Act), and wastes defined by the Toxic Substances Control Act are approved for disposal in the EMWMF. All of the cells are lined with a

80

NIL PHENOMENA IN TOPOLOGY (1415 APRIL 2007) VANDERBILT UNIVERSITY (NASHVILLE, TN U.S.A.)  

E-Print Network (OSTI)

. Consider the cartesian square Z[G] // Z[G]/ // /n. 1 #12;2 B. HUGHES, Q. KHAN (ORGANIZERS); I. HAMBLETONNIL PHENOMENA IN TOPOLOGY (14­15 APRIL 2007) VANDERBILT UNIVERSITY (NASHVILLE, TN U.S.A.) PROBLEM SESSION BRUCE HUGHES, QAYUM KHAN (ORGANIZERS) IAN HAMBLETON (MODERATOR) IO. (Ivonne Ortiz, Miami of Ohio

Hughes, Bruce

Note: This page contains sample records for the topic "ky wv tn" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


81

EA-1514: Proposed Conveyance of Parcel ED-6 to the City of Oak Ridge, TN  

Energy.gov (U.S. Department of Energy (DOE))

This Environmental Assessment was prepared for the conveyance of approximately 336 acres of excess property (i.e., property not needed to fulfill DOE current or foreseeable future requirements) known as Parcel ED-6 to the city of Oak Ridge, TN.

82

U.S. DOE Industrial Technologies Program Technology Delivery Plant-Wide Assessment at PPG Industries, Natrium, WV  

SciTech Connect

PPG and West Virginia University performed a plantwide energy assessment at the PPGs Natrium, WV chemical plant, an energy-intensive manufacturing facility producing chlor-alkali and related products. Implementation of all the assessment recommendations contained in this report could reduce plant energy consumption by 8.7%, saving an estimated 10,023,192 kWh/yr in electricity, 6,113 MM Btu/yr in Natural Gas, 401,156 M lb/yr in steam and 23,494 tons/yr in coal and reduce carbon dioxide emissions by 241 mm lb/yr. The total cost savings would amount to approximately $2.9 mm/yr. Projects being actively implemented will save $1.7 mm/yr; the remainder are undergoing more detailed engineering study.

Lester, Stephen R.; Wiethe, Jeff; Green, Russell; Guice, Christina; Gopalakrishnan, Bhaskaran; Turton, Richard

2007-09-28T23:59:59.000Z

83

KY_50mwind  

NLE Websites -- All DOE Office Websites (Extended Search)

ataTechnologySpecificUnitedStatesWindHighResolutionKentuckyWindHighResolution.zip> Description: Abstract: Annual average wind resource potential for the state of...

84

File:USDA-CE-Production-GIFmaps-TN.pdf | Open Energy Information  

Open Energy Info (EERE)

TN.pdf TN.pdf Jump to: navigation, search File File history File usage Tennessee Ethanol Plant Locations Size of this preview: 776 × 600 pixels. Full resolution ‎(1,650 × 1,275 pixels, file size: 332 KB, MIME type: application/pdf) Description Tennessee Ethanol Plant Locations Sources United States Department of Agriculture Related Technologies Biomass, Biofuels, Ethanol Creation Date 2010-01-19 Extent State Countries United States UN Region Northern America States Tennessee External links http://www.nass.usda.gov/Charts_and_Maps/Ethanol_Plants/ File history Click on a date/time to view the file as it appeared at that time. Date/Time Thumbnail Dimensions User Comment current 16:21, 27 December 2010 Thumbnail for version as of 16:21, 27 December 2010 1,650 × 1,275 (332 KB) MapBot (Talk | contribs) Automated bot upload

85

Technology Commercialization Showcase 2008: Office of the ...  

South Dakota State University, Brookings, SD. Cornell University, Ithaca, NY. University of Tennessee, Knoxville, TN. ... KY) Mascoma (Monroe County, ...

86

The role of the N*(1535) resonance and the pi^- p --> KY amplitudes in the OZI forbidden pi N --> phi N reaction  

E-Print Network (OSTI)

We study the pi N --> phi N reaction close to the phi N threshold within the chiral unitary approach, by combining the pi^- p --> K^+ Sigma^-, pi^- p --> K^0 Sigma^0 and pi^- p --> K^0 Lambda amplitudes with the coupling of the phi to the K components of the final states of these reactions via quantum loops. We obtain a good agreement with experiment when the dominant pi^- p --> K^0 Lambda amplitude is constrained with its experimental cross section. We also evaluate the coupling of the N*(1535) to phi N and find a moderate coupling as a consequence of partial cancellation of the large KY components of the N*(1535). We also show that the N*(1535) pole approximation is too small to reproduce the measured cross section for the pi N --> phi N reaction.

M. Dring; E. Oset; B. S. Zou

2008-05-13T23:59:59.000Z

87

REPLY TO AlTN OF: W-421 (W. A. W  

Office of Legacy Management (LM)

QOEF 13254 QOEF 13254 i.3891 EFG iO7W United- states Government bemoranduin DATE: f-!uG 3, 9 19g4 REPLY TO AlTN OF: W-421 (W. A. W illiams, 427-1719) SUBJECT: Elimination of the Sites from Program the Formerly Utilized Sites Remedial Action To' The File In 1990, with the assistance of Mr. reviewed a number of sites that had services to the Fernald facility as . _ Doug Tonkay and Us. Michelle Landis, I formerly provided goods and/or subcontractors. For 24 of .these B. . sites, recoaaaendations were made to ellrlnate them from further consideration under Fomerly Utilized Sites Remedial Action Program (FUSRAP). In each case, I made or reviewed the evaluation, and, in each case, a handwritten evaluation was prepared. This is to provide a more formal record of the decision on these sites and to ratify and confirm the

88

Linear Collider Collaboration Tech Notes LCC-0140 SLAC-TN-04-041  

NLE Websites -- All DOE Office Websites (Extended Search)

0 0 SLAC-TN-04-041 June 2004 Abstract This note documents a set of expressions used to explore the issue of whether or not it is reasonable to consider a conventional positron source for a Tesla formatted beam. The critical issue is that of energy deposition in the conversion target and the comparison of the induced stress with the ultimate tensile strength of the target material. Since the length of the incident beam pulse is large in comparison to the ratio of beam size to the speed of sound, the concurrent pressure pulse dissipates in a time short compared to the overall pulse duration and one is left with only the Sensitivity to Nano-Tesla Scale Stray Magnetic Fields J. Frisch, T.O. Raubenheimer, P. Tenenbaum

89

Linear Collider Collaboration Tech Notes LCC-0139 SLAC-TN-04-042  

NLE Websites -- All DOE Office Websites (Extended Search)

9 9 SLAC-TN-04-042 May 2004 Abstract This note documents a set of expressions used to explore the issue of whether or not it is reasonable to consider a conventional positron source for a Tesla formatted beam. The critical issue is that of energy deposition in the conversion target and the comparison of the induced stress with the ultimate tensile strength of the target material. Since the length of the incident beam pulse is large in comparison to the ratio of beam size to the speed of sound, the concurrent pressure pulse dissipates in a time short compared to the overall pulse duration and one is left with only the Alternative Main Linac BNS Configurations for Reduced Energy Spread Andrei Seryi and Peter Tenenbaum

90

Linear Collider Collaboration Tech Notes LCC-0141 SLAC-TN-04-040  

NLE Websites -- All DOE Office Websites (Extended Search)

1 1 SLAC-TN-04-040 May 2004 Abstract This note documents a set of expressions used to explore the issue of whether or not it is reasonable to consider a conventional positron source for a Tesla formatted beam. The critical issue is that of energy deposition in the conversion target and the comparison of the induced stress with the ultimate tensile strength of the target material. Since the length of the incident beam pulse is large in comparison to the ratio of beam size to the speed of sound, the concurrent pressure pulse dissipates in a time short compared to the overall pulse duration and one is left with only the Availability and Failure Effects of NLC Main Linac Mechanical Movers T. M. Himel, C. Spencer, Peter Tenenbaum

91

TN-68 Spent Fuel Transport Cask Analytical Evaluation for Drop Events  

SciTech Connect

The U.S. Nuclear Regulatory Commission (NRC) is responsible for licensing commercial spent nuclear fuel transported in casks certified by NRC under the Code of Federal Regulations (10 CFR), Title 10, Part 71 [1]. Both the International Atomic Energy Agency regulations for transporting radioactive materials [2, paragraph 727], and 10 CFR 71.73 require casks to be evaluated for hypothetical accident conditions, which includes a 9-meter (m) (30-ft) drop-impact event onto a flat, essentially unyielding, horizontal surface, in the most damaging orientation. This paper examines the behavior of one of the NRC certified transportation casks, the TN-68 [3], for drop-impact events. The specific area examined is the behavior of the bolted connections in the cask body and the closure lid, which are significantly loaded during the hypothetical drop-impact event. Analytical work to evaluate the NRC-certified TN-68 spent fuel transport cask [3] for a 9-m (30-ft) drop-impact event on a flat, unyielding, horizontal surface, was performed using the ANSYS [4] and LS DYNA [5] finite-element analysis codes. The models were sufficiently detailed, in the areas of bolt closure interfaces and containment boundaries, to evaluate the structural integrity of the bolted connections under 9-m (30-ft) free-drop hypothetical accident conditions, as specified in 10 CFR 71.73. Evaluation of the cask for puncture, caused by a free drop through a distance of 1-m (40-in.) onto a mild steel bar mounted on a flat, essentially unyielding, horizontal surface, required by 10 CFR 71.73, was not included in the current work, and will have to be addressed in the future. Based on the analyses performed to date, it is concluded that, even though brief separation of the flange and the lid surfaces may occur under some conditions, the seals would close at the end of the drop events, because the materials remain elastic during the duration of the event.

Shah, M. J.; Klymyshyn, Nicholas A.; Adkins, Harold E.; Koeppel, Brian J.

2007-03-30T23:59:59.000Z

92

U.S. Energy Information Administration  

U.S. Energy Information Administration (EIA) Indexed Site

0 0 U.S. Energy Information Administration | Natural Gas Annual Figure 3. Marketed production of natural gas in the United States and the Gulf of Mexico, 2012 (million cubic feet) None 1-15,000 15,001-100,000 100,001-200,000 200,001-500,000 500,001 and over Sources: Energy Information Administration (EIA), Form EIA-895, "Annual Quantity and Value of Natural Gas Report"; Form EIA-914, "Monthly Natural Gas Production Report"; state agencies; Form EIA-23, "Annual Survey of Domestic Oil and Gas Reserves"; LCI; Ventyx; and the Bureau of Safety and Environmental Enforcement, and predecessor agencies. IN OH TN WV VA KY

93

" Million Housing Units, Final"  

U.S. Energy Information Administration (EIA) Indexed Site

0 Structural and Geographic Characteristics of Homes in South Region, Divisions, and States, 2009" 0 Structural and Geographic Characteristics of Homes in South Region, Divisions, and States, 2009" " Million Housing Units, Final" ,,"South Census Region" ,,,"South Atlantic Census Division",,,,,,"East South Central Census Division",,,"West South Central Census Division" ,,,,,,,,,"Total East South Central",,,"Total West South Central" ,"Total U.S.1 (millions)",,"Total South Atlantic" "Structural and Geographic Characteristics",,"Total South",,,,,"DC, DE, MD, WV",,,,"AL, KY, MS",,,"AR, LA, OK" ,,,,"VA","GA","FL",,"NC, SC",,"TN",,,"TX"

94

" Million Housing Units, Final"  

U.S. Energy Information Administration (EIA) Indexed Site

0 Computers and Other Electronics in Homes in South Region, Divisions, and States, 2009" 0 Computers and Other Electronics in Homes in South Region, Divisions, and States, 2009" " Million Housing Units, Final" ,,"South Census Region" ,,,"South Atlantic Census Division",,,,,,"East South Central Census Division",,,"West South Central Census Division" ,,,,,,,,,"Total East South Central",,,"Total West South Central" ,"Total U.S.1 (millions)",,"Total South Atlantic" ,,"Total South",,,,,"DC, DE, MD, WV",,,,"AL, KY, MS",,,"AR, LA, OK" "Computers and Other Electronics",,,,"VA","GA","FL",,"NC, SC",,"TN",,,"TX"

95

U.S. Energy Information Administration | Annual Energy Outlook 2011  

Gasoline and Diesel Fuel Update (EIA)

1 1 Regional maps Figure F6. Coal supply regions Figure F6. Coal Supply Regions WA ID OR CA NV UT TX OK AR MO LA MS AL GA FL TN SC NC KY VA WV WY CO SD ND MI MN WI IL IN OH MD PA NJ DE CT MA NH VT NY ME RI MT NE IA KS MI AZ NM 500 0 SCALE IN MILES APPALACHIA Northern Appalachia Central Appalachia Southern Appalachia INTERIOR NORTHERN GREAT PLAINS Eastern Interior Western Interior Gulf Lignite Dakota Lignite Western Montana Wyoming, Northern Powder River Basin Wyoming, Southern Powder River Basin Western Wyoming OTHER WEST Rocky Mountain Southwest Northwest KY AK 1000 0 SCALE IN MILES Source: U.S. Energy Information Administration, Office

96

SOFC Anode Interaction with Trace Coal Syngas Species U.S. Dept of Energy, National Energy Technology Laboratory, Morgantown, WV 26507  

NLE Websites -- All DOE Office Websites (Extended Search)

SOFC Anode Interaction with Trace Coal Syngas Species SOFC Anode Interaction with Trace Coal Syngas Species U.S. Dept of Energy, National Energy Technology Laboratory, Morgantown, WV 26507 Gregory Hackett, Kirk Gerdes, Randall Gemmen Phone: (304)285-5279, Gregory.Hackett@NETL.DOE.GOV Utilization of coal as a fuel source for highly efficient integrated gasification fuel cell (IGFC) power generation facilities is technologically and environmentally attractive. IGFC plants are expected to offer the highest efficiency coal gasification processes, even when carbon capture and storage systems are included in the design. One element of IGFC research at the National Energy Technology Laboratory is the investigation of syngas cleanup processes for these integrated systems. Of particular interest are the effects of trace elements naturally contained in

97

Record of Decision and Floodplain Statement of Findings: Western Greenbrier Co-Production Demonstration Project, Rainelle, Greenbrier County, WV (DOE/EIS-0361) (04/29/08)  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

14 Federal Register 14 Federal Register / Vol. 73, No. 83 / Tuesday, April 29, 2008 / Notices DEPARTMENT OF ENERGY Record of Decision and Floodplain Statement of Findings: Western Greenbrier Co-Production Demonstration Project, Rainelle, Greenbrier County, WV AGENCY: Office of Fossil Energy, U.S. Department of Energy (DOE). ACTION: Record of Decision (ROD) and Floodplain Statement of Findings. SUMMARY: DOE has decided to implement the Proposed Action alternative, identified as the preferred alternative, in the Western Greenbrier Co-Production Demonstration Project, Final Environmental Impact Statement (DOE/EIS-0361; November 2007) (FEIS). That alternative is to provide approximately $107.5 million (up to 50% of the development costs) to Western Greenbrier Co-Generation, LLC

98

Explosive Demolition of a Fire-Water Tower At East Tennessee Technology Park, Oak Ridge TN  

SciTech Connect

On June 17, 2006, the Department of Energy (DOE) successfully demolished a {approx}60 year old fire-water tower (K-1206-E), located at the East Tennessee Technology Park (ETTP) in Oak Ridge, TN, using strategically placed explosive charges. The subject demolition project was executed by MCM Management Corporation and Demolition Dynamics under the management of DoE's prime contractor Bechtel Jacobs Company LLC (BJC). The K-1206-E Fire Water Tower (Tower) supported the ETTP fire water protection system from the mid- 1950's until 1991. The 378,500-L (100,000-gallon) Tower, elevated 53-m (175-feet) above grade, was located in a grassy area within 152-m (500-feet) of several other occupied facilities. Electrical, control circuits and supply water servicing the Tower were deactivated in 2003. Free liquids and sludge were removed from the tank prior to demolition. Demolition of a facility employing explosive demolition at a federal site in the 'post-9/11 era' was a substantial challenge. The subject paper discusses: - the planning and coordination steps that were taken to successfully overcome the challenges prior to the demolition of the empty, deactivated Tower; - the method used for the engineered demolition of the Tower; and - the factors responsible for the successful execution of this demolition project. At least two previous attempts were made to demolish the Tower. In the first attempt, the execution of the project was deferred by the re-allocation of funds. In the subsequent attempt in 2004, the execution of this project was postponed due to concerns that an adjacent facility would have to shut down operations during the duration of mobilization and execution of the project and thereby incur potential financial losses. A total of 51 cubic meters (1,800 cubic feet) of demolition debris was generated, which was compliantly disposed of at a local landfill followed by site restoration.

Brooksbank, R.D.; Rood, M.S.; Amrit, S.K.; Harper, M.S.; Dypolt, D.J.; Brehse, Mike [Bechtel Jacobs Company LLC, P.O. Box 4699 Oak Ridge, TN 37931 (United States)

2008-01-15T23:59:59.000Z

99

NGA_99fin.vp  

Gasoline and Diesel Fuel Update (EIA)

9 9 NJ WY AK AL CA AR CO CT DE FL GA HI ID KS IL IN IA IA KY LA ME MI MA MD MN MS MT MO NE ND OH NV NM NY NH NC OK OR PA RI SC SD TN TX UT VT WA WV WI AZ VA DC 0.00-1.99 2.00-2.99 3.00-3.99 4.00-4.99 5.00-5.99 6.00-6.99 7.00+ NJ WY AK AL CA AR CO CT DE FL GA HI ID KS IL IN IA IA KY LA ME MI MA MD MN MS MT MO NE ND OH NV NM NY NH NC OK OR PA RI SC SD TN TX UT VT WA WV WI AZ VA DC 0.00-1.99 2.00-2.99 3.00-3.99 4.00-4.99 5.00-5.99 6.00-6.99 7.00+ 18. Average Price of Natural Gas Delivered to U.S. Onsystem Industrial Consumers, 1999 (Dollars per Thousand Cubic Feet) Figure 19. Average Price of Natural Gas Delivered to U.S. Electric Utilities, 1999 (Dollars per Thousand Cubic Feet) Figure Sources: Federal Energy Regulatory Commission (FERC), Form FERC-423, "Monthly Report of Cost and Quality of Fuels for Electric Plants," and Energy Information Administration (EIA), Form EIA-176, "Annual Report of Natural and Supplemental

100

C:\ANNUAL\VENTCHAP.V8\NGAla1109.vp  

Gasoline and Diesel Fuel Update (EIA)

Energy Energy Information Administration / Natural Gas Annual 2000 NJ WY AK AL CA AR CO CT DE FL GA HI ID KS IL IN IA IA KY LA ME MI MA MD MN MS MT MO NE ND OH NV NM NY NH NC OK OR PA RI SC SD TN TX UT VT WA WV WI AZ VA DC Source: Energy Information Administration (EIA), Form EIA-176, "Annual Report of Natural and Supplemental Gas Supply and Disposition." NJ WY AK AL CA AR CO CT DE FL GA HI ID KS IL IN IA IA KY LA ME MI MA MD MN MS MT MO NE ND OH NV NM NY NH NC OK OR PA RI SC SD TN TX UT VT WA WV WI AZ VA DC Note: Commercial prices include natural gas delivered for use as vehicle fuel. Source: Energy Information Administration (EIA), Form EIA-176, "Annual Report of Natural and Supplemental Gas Supply and Disposition." 0.00-1.99 2.00-3.99 4.00-5.99 6.00-7.99 8.00-9.99 10.00-11.99 12.00+ 0.00-1.99 2.00-3.99 4.00-5.99 6.00-7.99 8.00-9.99 10.00-11.99 12.00+ 17. Average Price of Natural Gas Delivered to U.S. Residential

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101

NGA98fin5.vp  

Gasoline and Diesel Fuel Update (EIA)

8 8 NJ WY AK AL CA AR CO CT DE FL GA HI ID KS IL IN IA IA KY LA ME MI MA MD MN MS MT MO NE ND OH NV NM NY NH NC OK OR PA RI SC SD TN TX UT VT WA WV WI AZ VA DC 0.00-1.99 2.00-2.99 3.00-3.99 4.00-4.99 5.00-5.99 6.00-6.99 7.00+ NJ WY AK AL CA AR CO CT DE FL GA HI ID KS IL IN IA IA KY LA ME MI MA MD MN MS MT MO NE ND OH NV NM NY NH NC OK OR PA RI SC SD TN TX UT VT WA WV WI AZ VA DC 0.00-1.99 2.00-2.99 3.00-3.99 4.00-4.99 5.00-5.99 6.00-6.99 7.00+ 18. Average Price of Natural Gas Delivered to U.S. Onsystem Industrial Consumers, 1998 (Dollars per Thousand Cubic Feet) Figure 19. Average Price of Natural Gas Delivered to U.S. Electric Utilities, 1998 (Dollars per Thousand Cubic Feet) Figure Sources: Federal Energy Regulatory Commission (FERC), Form FERC-423, "Monthly Report of Cost and Quality of Fuels for Electric Plants," and Energy Information Administration (EIA), Form EIA-176, "Annual Report of Natural and Supplemental

102

C:\ANNUAL\VENTCHAP.V8\NGAla1109.vp  

Gasoline and Diesel Fuel Update (EIA)

2000 2000 NJ WY AK AL CA AR CO CT DE FL GA HI ID KS IL IN IA IA KY LA ME MI MA MD MN MS MT MO NE ND OH NV NM NY NH NC OK OR PA RI SC SD TN TX UT VT WA WV WI AZ VA DC 0.00-1.99 2.00-3.99 4.00-5.99 6.00-7.99 8.00-9.99 10.00-11.99 12.00+ NJ WY AK AL CA AR CO CT DE FL GA HI ID KS IL IN IA IA KY LA ME MI MA MD MN MS MT MO NE ND OH NV NM NY NH NC OK OR PA RI SC SD TN TX UT VT WA WV WI AZ VA DC 0.00-1.99 2.00-3.99 4.00-5.99 6.00-7.99 8.00-99.99 10.00-11.99 12.00+ 19. Average Price of Natural Gas Delivered to U.S. Onsystem Industrial Consumers, 2000 (Dollars per Thousand Cubic Feet) Figure 20. Average Price of Natural Gas Delivered to U.S. Electric Utilities, 2000 (Dollars per Thousand Cubic Feet) Figure Sources: Federal Energy Regulatory Commission (FERC), Form FERC-423, "Monthly Report of Cost and Quality of Fuels for Electric Plants," and Energy Information Administration (EIA), Form EIA-176, "Annual Report of Natural

103

Microsoft Word - Figure_18_19.doc  

Gasoline and Diesel Fuel Update (EIA)

9 9 0.00-2.49 2.50-4.49 4.50-6.49 6.50-8.49 8.50-10.49 10.50+ WA ID MT OR CA NV UT AZ NM CO WY ND SD MN WI NE IA KS MO TX IL IN OH MI OK AR TN WV VA KY PA WI NY VT NH MA CT ME RI NJ DE DC NC SC GA AL MS LA FL HI AK MD 0.00-2.49 2.50-4.49 4.50-6.49 6.50-8.49 8.50-10.49 10.50+ WA ID MT OR CA NV UT AZ NM CO WY ND SD MN WI NE IA KS MO TX IL IN OH MI OK AR TN WV VA KY MD PA WI NY VT NH MA CT ME RI NJ DE DC NC SC GA AL MS LA FL HI AK Figure 18. Average Price of Natural Gas Delivered to U.S. Onsystem Industrial Consumers, 2004 (Dollars per Thousand Cubic Feet) Figure 19. Average Price of Natural Gas Delivered to U.S. Electric Power Consumers, 2004 (Dollars per Thousand Cubic Feet) Source: Energy Information Administration (EIA), Form EIA-176, "Annual Report of Natural and Supplemental Gas Supply and Disposition." Note: States where the electric power price has been withheld (see Table 23) are included in the $0.00-$2.49 price category.

104

Microsoft Word - NGAMaster_State_TablesNov12.doc  

Gasoline and Diesel Fuel Update (EIA)

49 49 0.00-1.99 2.00-3.99 4.00-5.99 6.00-7.99 8.00-9.99 10.00-11.99 12.00+ WA ID MT OR CA NV UT AZ NM CO WY ND SD MN WI NE IA KS MO TX IL IN OH MI OK AR TN WV VA KY PA WI NY VT NH MA CT ME RI NJ DE DC NC SC GA AL MS LA FL HI AK MD 0.00-1.99 2.00-3.99 4.00-5.99 6.00-7.99 8.00-9.99 10.00-11.99 12.00+ WA ID MT OR CA NV UT AZ NM CO WY ND SD MN WI NE IA KS MO TX IL IN OH MI OK AR TN WV VA KY MD PA WI NY VT NH MA CT ME RI NJ DE DC NC SC GA AL MS LA FL HI AK Figure 18. Average Price of Natural Gas Delivered to U.S. Onsystem Industrial Consumers, 2003 (Dollars per Thousand Cubic Feet) Figure 19. Average Price of Natural Gas Delivered to U.S. Electric Power Consumers, 2003 (Dollars per Thousand Cubic Feet) Source: Energy Information Administration (EIA), Form EIA-176, "Annual Report of Natural and Supplemental Gas Supply and Disposition." Note: States where the electric power price has been withheld (see Table 23) are included in the $0.00-$1.99 price category.

105

NGA_99fin.vp  

Gasoline and Diesel Fuel Update (EIA)

9 9 NJ WY AK AL CA AR CO CT DE FL GA HI ID KS IL IN IA IA KY LA ME MI MA MD MN MS MT MO NE ND OH NV NM NY NH NC OK OR PA RI SC SD TN TX UT VT WA WV WI AZ VA DC Source: Energy Information Administration (EIA), Form EIA-176, "Annual Report of Natural and Supplemental Gas Supply and Disposition." NJ WY AK AL CA AR CO CT DE FL GA HI ID KS IL IN IA IA KY LA ME MI MA MD MN MS MT MO NE ND OH NV NM NY NH NC OK OR PA RI SC SD TN TX UT VT WA WV WI AZ VA DC Note: Commercial prices include natural gas delivered for use as vehicle fuel. Source: Energy Information Administration (EIA), Form EIA-176, "Annual Report of Natural and Supplemental Gas Supply and Disposition." 0.00-1.99 2.00-2.99 3.00-3.99 4.00-4.99 5.00-5.99 6.00-6.99 7.00+ 0.00-1.99 2.00-2.99 3.00-3.99 4.00-4.99 5.00-5.99 6.00-6.99 7.00+ 16. Average Price of Natural Gas Delivered to U.S. Residential Consumers, 1999 (Dollars per Thousand Cubic Feet) Figure

106

C:\ANNUAL\VENTCHAP.V8\NGA.VP  

Gasoline and Diesel Fuel Update (EIA)

8 8 NJ WY AK AL CA AR CO CT DE FL GA HI ID KS IL IN IA IA KY LA ME MI MA MD MN MS MT MO NE ND OH NV NM NY NH NC OK OR PA RI SC SD TN TX UT VT WA WV WI AZ VA DC Source: Energy Information Administration (EIA), Form EIA-176, "Annual Report of Natural and Supplemental Gas Supply and Disposition." NJ WY AK AL CA AR CO CT DE FL GA HI ID KS IL IN IA IA KY LA ME MI MA MD MN MS MT MO NE ND OH NV NM NY NH NC OK OR PA RI SC SD TN TX UT VT WA WV WI AZ VA DC Note: Commercial prices include natural gas delivered for use as vehicle fuel. Source: Energy Information Administration (EIA), Form EIA-176, "Annual Report of Natural and Supplemental Gas Supply and Disposition." 0.00-1.99 2.00-2.99 3.00-3.99 4.00-4.99 5.00-5.99 6.00-6.99 7.00+ 0.00-1.99 2.00-2.99 3.00-3.99 4.00-4.99 5.00-5.99 6.00-6.99 7.00+ 16. Average Price of Natural Gas Delivered to U.S. Residential Consumers, 1997 (Dollars per Thousand Cubic Feet) Figure

107

NGA98fin5.vp  

Gasoline and Diesel Fuel Update (EIA)

1998 1998 NJ WY AK AL CA AR CO CT DE FL GA HI ID KS IL IN IA IA KY LA ME MI MA MD MN MS MT MO NE ND OH NV NM NY NH NC OK OR PA RI SC SD TN TX UT VT WA WV WI AZ VA DC Source: Energy Information Administration (EIA), Form EIA-176, "Annual Report of Natural and Supplemental Gas Supply and Disposition." NJ WY AK AL CA AR CO CT DE FL GA HI ID KS IL IN IA IA KY LA ME MI MA MD MN MS MT MO NE ND OH NV NM NY NH NC OK OR PA RI SC SD TN TX UT VT WA WV WI AZ VA DC Note: Commercial prices include natural gas delivered for use as vehicle fuel. Source: Energy Information Administration (EIA), Form EIA-176, "Annual Report of Natural and Supplemental Gas Supply and Disposition." 0.00-1.99 2.00-2.99 3.00-3.99 4.00-4.99 5.00-5.99 6.00-6.99 7.00+ 0.00-1.99 2.00-2.99 3.00-3.99 4.00-4.99 5.00-5.99 6.00-6.99 7.00+ 16. Average Price of Natural Gas Delivered to U.S. Residential Consumers, 1998 (Dollars per Thousand Cubic Feet) Figure

108

San Juan Montana Thrust Belt WY Thrust Belt Black Warrior  

U.S. Energy Information Administration (EIA) Indexed Site

San San Juan Montana Thrust Belt WY Thrust Belt Black Warrior Paradox - San Juan NW (2) Uinta- Piceance Paradox - San Juan SE (2) Florida Peninsula Appalachian- NY (1) Appalachian OH-PA (2) Appalachian Eastern PA (3) Appalachian Southern OH (4) Appalachian Eastern WV (5) Appalachian WV-VA (6) Appalachian TN-KY (7) Piceance Greater Green River Eastern OR-WA Ventura Williston Williston NE (2) Williston NW (1) Williston South (3) Eastern Great Basin Ventura West, Central, East Eastern OR-WA Eastern Great Basin Appalachian Denver Florida Peninsula Black Warrior W Y T h ru st B e lt Powder River Paradox- Uinta- Grtr Green River MT Thrust Belt Powder River North (1) Powder River South (2) Denver North (1) Denver South (3) Denver Middle (2) TX CA MT AZ ID NV NM CO IL OR UT KS WY IA NE SD MN ND OK FL WI MO AL WA GA AR LA MI IN PA NY NC MS TN KY VA OH SC

109

Albany, OR * Morgantown, WV * Pittsburgh...  

NLE Websites -- All DOE Office Websites (Extended Search)

Regional Carbon Sequestration Partnership-Validation Phase Background The U.S. Department of Energy (DOE) has selected seven partnerships, through its Regional Carbon Sequestration...

110

Center for Nanophase Materials Sciences (CNMS) - CNMS Research  

NLE Websites -- All DOE Office Websites (Extended Search)

Oak Ridge National Laboratory, Oak Ridge, TN 37831 (USA) 3-Department of Chemistry, University of Kentucky, Lexington, KY 40506 (USA) 4-Department of Chemistry, University of...

111

Annual Performance Evaluation of a Pair of Energy Efficient Houses (WC3 and WC4) in Oak Ridge, TN  

SciTech Connect

Beginning in 2008, two pairs of energy-saver houses were built at Wolf Creek in Oak Ridge, TN. These houses were designed to maximize energy efficiency using new ultra-high-efficiency components emerging from ORNL s Cooperative Research and Development Agreement (CRADA) partners and others. The first two houses contained 3713 square feet of conditioned area and were designated as WC1 and WC2; the second pair consisted of 2721 square feet conditioned area with crawlspace foundation and they re called WC3 and WC4. This report is focused on the annual energy performance of WC3 and WC4, and how they compare against a previously benchmarked maximum energy efficient house of a similar footprint. WC3 and WC4 are both about 55-60% more efficient than traditional new construction. Each house showcases a different envelope system: WC3 is built with advanced framing featured cellulose insulation partially mixed with phase change materials (PCM); and WC4 house has cladding composed of an exterior insulation and finish system (EIFS). The previously benchmarked house was one of three built at the Campbell Creek subdivision in Knoxville, TN. This house (CC3) was designed as a transformation of a builder house (CC1) with the most advanced energy-efficiency features, including solar electricity and hot water, which market conditions are likely to permit within the 2012 2015 period. The builder house itself was representative of a standard, IECC 2006 code-certified, all-electric house built by the builder to sell around 2005 2008.

Biswas, Kaushik [ORNL; Christian, Jeffrey E [ORNL; Gehl, Anthony C [ORNL; Jackson, Roderick K [ORNL; Boudreaux, Philip R [ORNL

2012-04-01T23:59:59.000Z

112

TN1421 - References  

Science Conference Proceedings (OSTI)

... 1914; WW Coblentz, "Studies of Instruments for Measuring Radiant Energy in Absolute ... JE Martin, NP Fox and PJ Keys, "A cryogenic radiometer of ...

113

TN_50mwind  

NLE Websites -- All DOE Office Websites (Extended Search)

taTechnologySpecificUnitedStatesWindHighResolutionTennesseeWindHighResolution.zip> Description: Abstract: Annual average wind resource potential for the state of...

114

Wind Program: Stakeholder Engagement and Outreach  

Wind Powering America (EERE)

Outreach Outreach Printable Version Bookmark and Share The Stakeholder Engagement and Outreach initiative of the U.S. Department of Energy's Wind Program is designed to educate, engage, and enable critical stakeholders to make informed decisions about how wind energy contributes to the U.S. electricity supply. Highlights Resources Wind Resource Maps State Activities What activities are happening in my state? AK AL AR AZ CA CO CT DC DE FL GA HI IA ID IL IN KS KY LA MA MD ME MI MN MO MS MT NC ND NE NH NJ NM NV NY OH OK OR PA RI SC SD TN TX UT VA VT WA WI WV WY Installed wind capacity maps. Features A image of a house with a residential-scale small wind turbine. Small Wind for Homeowners, Farmers, and Businesses Stakeholder Engagement & Outreach Projects

115

Annual Energy Outlook 2012  

Gasoline and Diesel Fuel Update (EIA)

2 2 Source: U.S. Energy Information Administration, Office of Energy Analysis. U.S. Energy Information Administration / Annual Energy Outlook 2010 213 Appendix F Regional Maps Figure F1. United States Census Divisions Pacific East South Central South Atlantic Middle Atlantic New England West South Central West North Central East North Central Mountain AK WA MT WY ID NV UT CO AZ NM TX OK IA KS MO IL IN KY TN MS AL FL GA SC NC WV PA NJ MD DE NY CT VT ME RI MA NH VA WI MI OH NE SD MN ND AR LA OR CA HI Middle Atlantic New England East North Central West North Central Pacific West South Central East South Central South Atlantic Mountain Source: U.S. Energy Information Administration, Office of Integrated Analysis and Forecasting. Appendix F Regional Maps Figure F1. United States Census Divisions U.S. Energy Information Administration | Annual Energy Outlook 2012

116

" Million Housing Units, Final"  

U.S. Energy Information Administration (EIA) Indexed Site

0 Fuels Used and End Uses in Homes in South Region, Divisions, and States, 2009" 0 Fuels Used and End Uses in Homes in South Region, Divisions, and States, 2009" " Million Housing Units, Final" ,,"South Census Region" ,,,"South Atlantic Census Division",,,,,,"East South Central Census Division",,,"West South Central Census Division" ,,,,,,,,,"Total East South Central",,,"Total West South Central" ,"Total U.S.1 (millions)",,"Total South Atlantic" ,,"Total South",,,,,"DC, DE, MD, WV",,,,"AL, KY, MS",,,"AR, LA, OK" "Fuels Used and End Uses",,,,"VA","GA","FL",,"NC, SC",,"TN",,,"TX" "Total Homes",113.6,42.1,22.2,3,3.5,7,3.4,5.4,7.1,2.4,4.6,12.8,8.5,4.2

117

" Million Housing Units, Final"  

U.S. Energy Information Administration (EIA) Indexed Site

0 Appliances in Homes in South Region, Divisions, and States, 2009" 0 Appliances in Homes in South Region, Divisions, and States, 2009" " Million Housing Units, Final" ,,"South Census Region" ,,,"South Atlantic Census Division",,,,,,"East South Central Census Division",,,"West South Central Census Division" ,,,,,,,,,"Total East South Central",,,"Total West South Central" ,"Total U.S.1 (millions)",,"Total South Atlantic" ,,"Total South",,,,,"DC, DE, MD, WV",,,,"AL, KY, MS",,,"AR, LA, OK" "Appliances",,,,"VA","GA","FL",,"NC, SC",,"TN",,,"TX" "Total Homes",113.6,42.1,22.2,3,3.5,7,3.4,5.4,7.1,2.4,4.6,12.8,8.5,4.2

118

Assumptions to the Annual Energy Outlook 2007 Report  

Gasoline and Diesel Fuel Update (EIA)

clothes drying, ceiling fans, coffee makers, spas, home security clothes drying, ceiling fans, coffee makers, spas, home security systems, microwave ovens, set-top boxes, home audio equipment, rechargeable electronics, and VCR/DVDs. In addition to the major equipment-driven end-uses, the average energy consumption per household is projected for other electric and nonelectric appliances. The module's output includes number Energy Information Administration/Assumptions to the Annual Energy Outlook 2007 19 Pacific East South Central South Atlantic Middle Atlantic New England West South Central West North Central East North Central Mountain AK WA MT WY ID NV UT CO AZ NM TX OK IA KS MO IL IN KY TN MS AL FL GA SC NC WV PA NJ MD DE NY CT VT ME RI MA NH VA WI MI OH NE SD MN ND AR LA OR CA HI Middle Atlantic New England East North Central West North Central Pacific West South Central East South Central

119

Microsoft Word - figure_13.doc  

Gasoline and Diesel Fuel Update (EIA)

Egypt Figure 13. Net Interstate Movements, Imports, and Exports of Natural Gas in the United States, 2007 (Million Cubic Feet) Nigeria Algeria 37,483 WA M T I D OR W Y ND SD C A N V UT CO NE KS AZ NM OK TX MN WI MI IA I L IN OH MO AR MS AL GA TN KY FL SC NC WV MD DE VA PA NJ NY CT RI MA VT NH ME LA HI AK Mexico C a n a d a C a n a d a Canada Canada Canada Canada Canada Algeria Canada Canada i i N g e r a Gulf of Mexico Gulf o f M e x i c o Gulf of Mexico Canada Gulf of Mexico Sources: Energy Information Administration (EIA), Form EIA-176, "Annual Report of Natural and Supplemental Gas Supply and Disposition," and the Office of Fossil Energy, Natural Gas Imports and Exports.

120

Table 4. Principal shale gas plays: natural gas production and proved reserves,  

U.S. Energy Information Administration (EIA) Indexed Site

Principal shale gas plays: natural gas production and proved reserves, 2010-2011" Principal shale gas plays: natural gas production and proved reserves, 2010-2011" "trillion cubic feet" ,,, 2010,, 2011,," Change 2011-2010" "Basin","Shale Play","State(s)","Production","Reserves","Production","Reserves","Production","Reserves" "Fort Worth","Barnett","TX",1.9,31,2,32.6,0.1,1.6 "Appalachian","Marcellus","PA, WV, KY, TN, NY, OH",0.5,13.2,1.4,31.9,0.9,18.7 "Texas-Louisiana Salt","Haynesville/Bossier","TX, LA",1.5,24.5,2.5,29.5,1,5 "Arkoma","Fayetteville","AR",0.8,12.5,0.9,14.8,0.1,2.3

Note: This page contains sample records for the topic "ky wv tn" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


121

" Million Housing Units, Final"  

U.S. Energy Information Administration (EIA) Indexed Site

0 Air Conditioning in Homes in South Region, Divisions, and States, 2009" 0 Air Conditioning in Homes in South Region, Divisions, and States, 2009" " Million Housing Units, Final" ,,"South Census Region" ,,,"South Atlantic Census Division",,,,,,"East South Central Census Division",,,"West South Central Census Division" ,,,,,,,,,"Total East South Central",,,"Total West South Central" ,"Total U.S.1 (millions)",,"Total South Atlantic" ,,"Total South",,,,,"DC, DE, MD, WV",,,,"AL, KY, MS",,,"AR, LA, OK" "Air Conditioning",,,,"VA","GA","FL",,"NC, SC",,"TN",,,"TX" "Total Homes",113.6,42.1,22.2,3,3.5,7,3.4,5.4,7.1,2.4,4.6,12.8,8.5,4.2

122

" Million Housing Units, Final"  

U.S. Energy Information Administration (EIA) Indexed Site

0 Water Heating in U.S. Homes in South Region, Divisions, and States, 2009" 0 Water Heating in U.S. Homes in South Region, Divisions, and States, 2009" " Million Housing Units, Final" ,,"South Census Region" ,,,"South Atlantic Census Division",,,,,,"East South Central Census Division",,,"West South Central Census Division" ,,,,,,,,,"Total East South Central",,,"Total West South Central" ,"Total U.S.1 (millions)",,"Total South Atlantic" ,,"Total South",,,,,"DC, DE, MD, WV",,,,"AL, KY, MS",,,"AR, LA, OK" "Water Heating",,,,"VA","GA","FL",,"NC, SC",,"TN",,,"TX" "Total Homes",113.6,42.1,22.2,3,3.5,7,3.4,5.4,7.1,2.4,4.6,12.8,8.5,4.2

123

" Million Housing Units, Final"  

U.S. Energy Information Administration (EIA) Indexed Site

0 Space Heating in U.S. Homes in South Region, Divisions, and States, 2009" 0 Space Heating in U.S. Homes in South Region, Divisions, and States, 2009" " Million Housing Units, Final" ,,"South Census Region" ,,,"South Atlantic Census Division",,,,,,"East South Central Census Division",,,"West South Central Census Division" ,,,,,,,,,"Total East South Central",,,"Total West South Central" ,"Total U.S.1 (millions)",,"Total South Atlantic" ,,"Total South",,,,,"DC, DE, MD, WV",,,,"AL, KY, MS",,,"AR, LA, OK" "Space Heating",,,,"VA","GA","FL",,"NC, SC",,"TN",,,"TX" "Total Homes",113.6,42.1,22.2,3,3.5,7,3.4,5.4,7.1,2.4,4.6,12.8,8.5,4.2

124

" Million Housing Units, Final"  

U.S. Energy Information Administration (EIA) Indexed Site

0 Televisions in Homes in South Region, Divisions, and States, 2009" 0 Televisions in Homes in South Region, Divisions, and States, 2009" " Million Housing Units, Final" ,,"South Census Region" ,,,"South Atlantic Census Division",,,,,,"East South Central Census Division",,,"West South Central Census Division" ,,,,,,,,,"Total East South Central",,,"Total West South Central" ,"Total U.S.1 (millions)",,"Total South Atlantic" ,,"Total South",,,,,"DC, DE, MD, WV",,,,"AL, KY, MS",,,"AR, LA, OK" "Televisions",,,,"VA","GA","FL",,"NC, SC",,"TN",,,"TX" "Total Homes",113.6,42.1,22.2,3,3.5,7,3.4,5.4,7.1,2.4,4.6,12.8,8.5,4.2

125

" Million Housing Units, Final"  

U.S. Energy Information Administration (EIA) Indexed Site

0 Household Demographics of Homes in South Region, Divisions, and States, 2009" 0 Household Demographics of Homes in South Region, Divisions, and States, 2009" " Million Housing Units, Final" ,,"South Census Region" ,,,"South Atlantic Census Division",,,,,,"East South Central Census Division",,,"West South Central Census Division" ,,,,,,,,,"Total East South Central",,,"Total West South Central" ,"Total U.S.1 (millions)",,"Total South Atlantic" ,,"Total South",,,,,"DC, DE, MD, WV",,,,"AL, KY, MS",,,"AR, LA, OK" "Household Demographics",,,,"VA","GA","FL",,"NC, SC",,"TN",,,"TX" "Total Homes",113.6,42.1,22.2,3,3.5,7,3.4,5.4,7.1,2.4,4.6,12.8,8.5,4.2

126

Notice of Intent to prepare an Environmental Impact Statement for the Western Greenbrier Co-Production Demonstration Project, Rainelle, WV and Notice of Floodplain/Wetlands Involvement (6/3/03)  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

11 11 Federal Register / Vol. 68, No. 106 / Tuesday, June 3, 2003 / Notices Dated: May 27, 2003. Judge Eric Andell, Deputy Under Secretary for Safe and Drug- Free Schools. [FR Doc. 03-13836 Filed 6-2-03; 8:45 am] BILLING CODE 4000-01-P DEPARTMENT OF ENERGY Notice of Intent To Prepare an Environmental Impact Statement for the Western Greenbrier Co-Production Demonstration Project, Rainelle, WV and Notice of Floodplain/Wetlands Involvement AGENCY: Department of Energy. ACTION: Notice of Intent to prepare an Environmental Impact Statement and Notice of Floodplain/Wetlands Involvement. SUMMARY: The U.S. Department of Energy (DOE) announces its intent to prepare an Environmental Impact Statement (EIS) pursuant to the National Environmental Policy Act (NEPA), the

127

Microsoft PowerPoint - Camper, ORNL-TN CAB-04-2010-final, via Cate 4-19-10.ppt [Compatibility Mode]  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Chairs of the Environmental Management Site- Chairs of the Environmental Management Site- Specific Advisory Board Specific Advisory Board Larry W. Camper, Director Division of Waste Management and Environmental Protection Off f S Office of Federal and State Materials and Environmental Management Programs April 28 2010 April 28, 2010 West Valley Demonstration Project * WVDP 1981 * WV Decommissioning Criteria * Interagency/Core Team Meetings * Review/Comment on Decommissioning Plan Review/Comment on Decommissioning Plan * Cooperating Agency on EIS Sit Vi it * Site Visits * Significant Progress/Cooperation 2 Waste Incidental to Reprocessing * Interagency Agreements * 2005 NDAA - Section 3116 * Review of Waste Determinations * Monitoring Role Monitoring Role * Current Status P * Progress 3 Depleted Uranium Disposal * Current Waste Stream Not Considered

128

Solid Sorbents for CO2 Capture from Precombustion Gas Streams  

NLE Websites -- All DOE Office Websites (Extended Search)

Morgantown, WV 26507 304-285-4458 george.richards@netl.doe.gov PROjeCT PARTNeRS Sd-Chemie Inc. (Louisville, KY) Carnegie Melon University (Pittsburgh, PA) COST Total estimated...

129

wvBLACK DIAMONDS table of contents  

E-Print Network (OSTI)

County Coal Corporation, presented the annual William Poundstone Lecture entitled, "My Last (and Best) 23 Years in Coal." Bradbury's 42-year coal mining career included a number of senior-level positions in engineering and management. He was president of Martin County Coal during his last 18 years in the industry

Mohaghegh, Shahab

130

wvBLACK DIAMONDS table of contents  

E-Print Network (OSTI)

......................12 Chris Hamilton, senior vice president of the West Virginia Coal Association (WVCA), presented a speech on "Coal, Energy, and Mountaintop Development," as part West Virginia University's College experience in the coal mining industry, 25 with the WVCA. He is responsible for legislative, regulatory

Mohaghegh, Shahab

131

wvBLACK DIAMONDS Engineering and  

E-Print Network (OSTI)

. Robert E. Murray is president of Murray Energy Corp., the largest privately owned coal mining company father's paralysis from a mining accident. He worked for the North American Coal Corp. for 31 years president ­ mining services for International Coal Group (ICG), presented the William Poundstone Lecture

Mohaghegh, Shahab

132

Oil-shale utilization at Morgantown, WV  

Science Conference Proceedings (OSTI)

Fully aware of the nation's need to develop high-risk and long-term research in eastern oil-shale and low-grade oil-shale utilization in general, the US DOE/METC initiated an eastern oil-shale characterization program. In less than 3 months, METC produced shale oil from a selected eastern-US oil shale with a Fischer assay of 8.0 gallons/ton. In view of the relatively low oil yield from this particular oil shale, efforts were directed to determine the process conditions which give the highest oil yield. A 2-inch-diameter electrically heated fluidized-bed retort was constructed, and Celina oil shale from Tennessee was selected to be used as a representative eastern oil shale. After more than 50 runs, the retorting data were analyzed and reviewed and the best oil-yield operating condition was determined. In addition, while conducting the oil-shale retorting experiments, a number of technical problems were identified, addressed, and overcome. Owing to the inherent high rates of heat and mass transfers inside the fluidized bed, the fluidized-bed combustor and retorting appear to be a desirable process technology for an effective and efficient means for oil-shale utilization. The fluidized-bed operation is a time-tested, process-proven, high-throughput, solid-processing operation which may contribute to the efficient utilization of oil-shale energy.

Shang, J.Y.; Notestein, J.E.; Mei, J.S.; Romanosky, R.R.; King, J.A.; Zeng, L.W.

1982-01-01T23:59:59.000Z

133

DOE/EIA-0131(96) Distribution Category/UC-960 Natural Gas  

Gasoline and Diesel Fuel Update (EIA)

ID ID OR WY ND SD CA NV UT CO NE KS AZ NM OK TX MN WI MI IA IL IN OH MO AR MS AL GA TN KY FL SC NC WV MD DE VA PA NJ NY CT RI MA VT NH ME LA HI AK Japan Mexico Mexico Algeria Canada Canada Canada Canada Canada Canada Canada Algeria Canada United Arab Emirates Interstate Movements of Natural Gas in the United States, 1996 (Volumes Reported in Million Cubic Feet) Supplemental Data From Volume To From Volume To (T) AL KY (T) MA ME (T) AL LA MA NH (T) AL MO (T) MA NJ (T) AL SC MD DC CT RI RI MA DE MD VA DC MA CT (T) Trucked Source: Energy Information Administration (EIA), Form EIA-176, "Annual Report of Natural and Supplemental Gas Supply and Disposition." E I A NERGY NFORMATION DMINISTRATION 906,407 355,260 243,866 220 384,311 576,420 823,799 842,114 27,271 126,012 133 602,841 266 579,598 16,837 268,138 48,442 182,511 219,242 86,897 643,401 619,703 8,157 937,806 292,711 869,951 12,316 590,493 118,256

134

Welcome to the Efficient Windows Collaborative  

NLE Websites -- All DOE Office Websites (Extended Search)

Window Selection Tool: New Construction Windows Window Selection Tool: New Construction Windows The Window Selection Tool will take you through a series of design conditions pertaining to your design and location. It is a step-by-step decision-making tool to help determine the most energy efficient window for your house. SELECT LOCATION: AK Anchorage AK Fairbanks AL Birmingham AL Mobile AR Little Rock AZ Flagstaff AZ Phoenix AZ Tucson CA Arcata CA Bakersfield CA Daggett CA Fresno CA Los Angeles CA Red Bluff CA Sacramento CA San Diego CA San Francisco CO Denver CO Grand Junction CT Hartford DC Washington DE Wilmington FL Daytona Beach FL Jacksonville FL Miami FL Tallahassee FL Tampa GA Atlanta GA Savannah HI Honolulu IA Des Moines ID Boise IL Chicago IL Springfield IN Indianapolis KS Wichita KY Lexington KY Louisville LA Lake Charles LA New Orleans LA Shreveport MA Boston MD Baltimore ME Portland MI Detroit MI Grand Rapids MI Houghton MN Duluth MN Minneapolis MO Kansas City MO St. Louis MS Jackson MT Billings MT Great Falls NC Raleigh ND Bismarck NE Omaha NH Concord NJ Atlantic City NM Albuquerque NV Las Vegas NV Reno NY Albany NY Buffalo NY New York OH Cleveland OH Dayton OK Oklahoma City OR Medford OR Portland PA Philadelphia PA Pittsburgh PA Williamsport RI Providence SC Charleston SC Greenville SD Pierre TN Memphis TN Nashville TX Brownsville TX El Paso TX Fort Worth TX Houston TX Lubbock TX San Antonio UT Cedar City UT Salt Lake City VA Richmond VT Burlington WA Seattle WA Spokane WI Madison WV Charleston WY Cheyenne AB Edmonton MB Winnipeg ON Toronto PQ Montreal SELECT HOUSE TYPE:

135

Murdock Road Knoxville.TN  

NLE Websites -- All DOE Office Websites (Extended Search)

or licensing to companies and partners outside the United States). Given the size and financial strength of the U.S. marketplace, I believe the ultimate licensee of this...

136

Buildings Energy Data Book: 3.9 Educational Facilities  

Buildings Energy Data Book (EERE)

6 6 2010 Regional New Construction and Renovations Expenditures for Public K-12 Schools ($Million) Region New Schools Additions Renovation Total Region 1 (CT, MA, ME, NH, RI, VT) Region 2 (NJ, NY, PA) Region 3 (DE, MD, VA, WV) Region 4 (KY, NC, SC, TN) Region 5 (AL, FL, GA, MS) Region 6 (IN, MI, OH) Region 7 (IL, MN, WI) Region 8 (IA, KS, MO, NE) Region 9 (AR, LA, OK, TX) Region 10 (CO, MT, ND, NM, SD, UT, WY) Region 11 (AZ, CA, HI, NV) Region 12 (AK, ID, OR, WA) Total Source(s): School Planning & Management, 16th Annual School Construction Report, Feb. 2011 p. CR3 8,669.5 3,074.1 2,796.8 14,540.4 1,605.4 407.3 275.2 2,287.9 258.2 181.8 158.1 598.1 1,653.9 479.6 387.8 2,521.2 548.2 130.9 93.3 772.4 309.3 206.1 135.3 650.7 217.6 231.4 187.8 636.8 1,338.0 327.6 175.9 1,841.4 359.6 286.3 278.9 924.8

137

regionalmaps  

Gasoline and Diesel Fuel Update (EIA)

LNG Imports LNG Imports Pacifi c (9) Moun tain (8) CA (12) AZ/N M (11) W. North Centr al (4) W. South Centr al (7) E. South Centr al (6) E. North Centr al (3) S. Atlan tic (5) FL (10) Mid. Atlan tic (2) New Engl. (1) W. Cana da E. Cana da MacK enzie Alask a Cana da Offsh ore and LNG Mexic o Baha mas Primary Flows Secondary Flows Pipeline Border Crossing Figure 6. Coal Supply Regions Source: Energy Information Administration. Office of Integrated Analysis and Forecasting WA ID OR CA NV UT TX OK AR MO LA MS AL GA FL TN SC NC KY VA WV WY CO SD ND MI MN WI IL IN OH MD PA NJ DE CT MA NH VT NY ME RI MT NE IA KS MI AZ NM 500 0 SCALE IN MILES APPALACHIA Northern Appalachia Central Appalachia Southern Appalachia INTERIOR NORTHERN GREAT PLAINS Eastern Interior Western Interior Gulf Lignite Dakota Lignite Western Montana Wyoming, Northern Powder River Basin Wyoming, Southern Powder River Basin Western Wyoming

138

Microsoft Word - NGAMaster_State_TablesNov12.doc  

Gasoline and Diesel Fuel Update (EIA)

WA WA MT ID OR WY ND SD CA NV UT CO NE KS AZ NM OK TX MN WI MI IA IL IN OH MO AR MS AL GA TN KY FL SC NC WV MD DE VA PA NJ NY CT RI MA VT NH ME LA HI AK Japan Mexico Mexico Algeria Canada Canada Canada Canada Canada Canada Canada Algeria Mexico Trinidad Canada Canada Nigeria Oman Qatar Trinidad Gulf of Mexico Gulf of Mexico Gulf of Mexico Canada Trinidad Trinidad Gulf of Mexico Malaysia 13,623 Figure 8. Interstate Movements of Natural Gas in the United States, 2003 (Million Cubic Feet) Source: Energy Information Administration (EIA), Form EIA-176, "Annual Report of Natural and Supplemental Gas Supply and Disposition." Energy Information Administration / Natural Gas Annual 2003 Supplemental Data From Volume To From Volume To CT RI RI MA MA CT VA DC MD DC 366,224 655,731 666,614 633,960 144,284 43,869 536,776 63,133 36,848

139

Residential Demand Module  

Gasoline and Diesel Fuel Update (EIA)

and clothes drying. In addition to the major equipment-driven and clothes drying. In addition to the major equipment-driven end-uses, the average energy consumption per household is projected for other electric and nonelectric Energy Information Administration/Assumptions to the Annual Energy Outlook 2006 19 Pacific East South Central South Atlantic Middle Atlantic New England West South Central West North Central East North Central Mountain AK WA MT WY ID NV UT CO AZ NM TX OK IA KS MO IL IN KY TN MS AL FL GA SC NC WV PA NJ MD DE NY CT VT ME RI MA NH VA WI MI OH NE SD MN ND AR LA OR CA HI Middle Atlantic New England East North Central West North Central Pacific West South Central East South Central South Atlantic Mountain Figure 5. United States Census Divisions Source:Energy Information Administration,Office of Integrated Analysis and Forecasting. Report #:DOE/EIA-0554(2006) Release date: March 2006

140

Microsoft Word - figure_13.doc  

Gasoline and Diesel Fuel Update (EIA)

Egypt Figure 13. Net Interstate Movements, Imports, and Exports of Natural Gas in the United States, 2008 (Million Cubic Feet) Norway Trinidad/ Tobago Interstate Movements Not Shown on Map From Volume To From Volume To CT RI RI MA MA CT VA DC MD DC 45,772 WA M T I D OR W Y ND SD C A N V UT CO NE KS AZ NM OK TX MN WI MI IA I L IN OH MO AR MS AL GA TN KY FL SC NC WV MD DE VA PA NJ NY CT RI MA VT NH ME LA HI AK Mexico C a n a d a C a n a d a Canada Canada Canada Canada Canada Canada Canada i i N g e r a Gulf of Mexico Gulf o f M e x i c o Gulf of Mexico Canada Gulf of Mexico Sources: Energy Information Administration (EIA), Form EIA-176, "Annual Report of Natural and Supplemental Gas Supply and Disposition," the Office of Fossil Energy, Natural Gas Imports and Exports, and EIA estimates.

Note: This page contains sample records for the topic "ky wv tn" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


141

Microsoft Word - figure_13.doc  

Gasoline and Diesel Fuel Update (EIA)

,833 ,833 35 Egypt Figure 13. Net Interstate Movements, Imports, and Exports of Natural Gas in the United States, 2009 (Million Cubic Feet) Norway Trinidad/ Tobago Trinidad/ Tobago Egypt Interstate Movements Not Shown on Map From Volume To From Volume To CT RI RI MA MA CT VA DC MD DC 111,144 WA M T I D OR W Y ND SD C A N V UT CO NE KS AZ NM OK TX MN WI MI IA I L IN OH MO AR MS AL GA TN KY FL SC NC WV MD DE VA PA NJ NY CT RI MA VT NH ME LA HI AK Mexico C a n a d a C a n a d a Canada Canada Canada Canada Canada Canada Canada i i N g e r a Gulf of Mexico Gulf o f M e x i c o Gulf of Mexico Canada Gulf of Mexico Sources: Energy Information Administration (EIA), Form EIA-176, "Annual Report of Natural and Supplemental Gas Supply and Disposition," the Office of Fossil Energy, Natural Gas Imports and Exports, and EIA estimates

142

AEOSup ltr to Dear Customer  

Gasoline and Diesel Fuel Update (EIA)

WA WA OR CA ID NV UT AZ NM CO WY MT ND SD NE KS OK TX MN IA MO AR LA WI IL KY IN OH WV TN MS AL GA SC NC VA PA NY VT ME NH MA RI CT NJ DE MD D.C. FL MI Electricity Supply Regions 1 ECAR 2 ERCOT 3 MAAC 4 MAIN 5 MAPP 6 NY 7 NE 8 FL 9 STV 10 SPP 11 NWP 12 RA 13 CNV 13 11 12 2 10 5 9 8 1 6 7 3 AK 15 14 H I 14 AK 15 H I Figure 2. Electricity Market Module (EMM) Regions 1. ECAR = East Central Area Reliability Coordination Agreement 2. ERCOT = Electric Reliability Council of Texas 3. MACC = Mid-Atlantic Area Council 4. MAIN = Mid-America Interconnected Network 5. MAPP = Mid-Continent Area Power Pool 6. NY = Northeast Power Coordinating Council/ New York 7. NE = Northeast Power Coordinating Council/ New England 8. FL = Southeastern Electric Reliability Council/ Florida 9. STV = Southeastern Electric Reliability Council /excluding Florida 10. SPP

143

regionalmaps  

Gasoline and Diesel Fuel Update (EIA)

Specific LNG Terminals Specific LNG Terminals Generic LNG Terminals Pacifi c (9) Moun tain (8) CA (12) AZ/N M (11) W. North Centr al (4) W. South Centr al (7) E. South Centr al (6) E. North Centr al (3) S. Atlan tic (5) FL (10) Mid. Atlan tic (2) New Engl. (1) W. Cana da E. Cana da MacK enzie Alask a Cana da Offsh ore and LNG Mexic o Baha mas Primary Flows Secondary Flows Pipeline Border Crossing Specific LNG Terminals Generic LNG Terminals Figure 6. Coal Supply Regions Source: Energy Information Administration. Office of Integrated Analysis and Forecasting WA ID OR CA NV UT TX OK AR MO LA MS AL GA FL TN SC NC KY VA WV WY CO SD ND MI MN WI IL IN OH MD PA NJ DE CT MA NH VT NY ME RI MT NE IA KS MI AZ NM 500 0 SCALE IN MILES APPALACHIA Northern Appalachia Central Appalachia Southern Appalachia INTERIOR NORTHERN GREAT PLAINS Eastern Interior Western Interior Gulf Lignite Dakota Lignite Western Montana

144

Microsoft Word - figure_13.doc  

Gasoline and Diesel Fuel Update (EIA)

6 6 (Million Cubic Feet) Supplemental Data From Volume To From Volume To CT RI RI MA MA CT VA DC MD DC 42,411 WA M T I D OR W Y ND SD C A N V UT CO NE KS AZ NM OK TX MN WI MI IA I L IN OH MO AR MS AL GA TN KY FL SC NC WV MD DE VA PA NJ NY CT RI MA VT NH ME LA HI AK Mexico C a n a d a C a n a d a Canada Canada Canada Canada Canada Algeria Canada Canada i i N g e r a Gulf of Mexico Gulf o f M e x i c o Gulf of Mexico Canada Gulf of Mexico Sources: Energy Information Administration (EIA), Form EIA-176, "Annual Report of Natural and Supplemental Gas Supply and Disposition," and the Office of Fossil Energy, Natural Gas Imports and Exports. Energy Information Administration / Natural Gas Annual 2006 253,214 690,780 634,185 658,523 134,764 63,063 526,726 121,049 34,531 492,655 101,101 23,154 40,113 1,496,283 68,601

145

U.S. Energy Information Administration | Annual Energy Outlook 2013  

Gasoline and Diesel Fuel Update (EIA)

Annual Energy Outlook 2013 Annual Energy Outlook 2013 Source: U.S. Energy Information Administration, Office of Energy Analysis. U.S. Energy Information Administration / Annual Energy Outlook 2010 213 Appendix F Regional Maps Figure F1. United States Census Divisions Pacific East South Central South Atlantic Middle Atlantic New England West South Central West North Central East North Central Mountain AK WA MT WY ID NV UT CO AZ NM TX OK IA KS MO IL IN KY TN MS AL FL GA SC NC WV PA NJ MD DE NY CT VT ME RI MA NH VA WI MI OH NE SD MN ND AR LA OR CA HI Middle Atlantic New England East North Central West North Central Pacific West South Central East South Central South Atlantic Mountain Source: U.S. Energy Information Administration, Office of Integrated Analysis and Forecasting. Appendix F Regional Maps Figure F1. United States Census Divisions U.S. Energy Information Administration | Annual Energy Outlook 2013

146

NGA_99fin.vp  

Gasoline and Diesel Fuel Update (EIA)

Energy Energy Information Administration / Natural Gas Annual 1999 NJ WY AK AL CA AR CO CT DE FL GA HI ID KS IL IN IA IA KY LA ME MI MA MD MN MS MT MO NE ND OH NV NM NY NH NC OK OR PA RI SC SD TN TX UT VT WA WV WI AZ VA DC Sources: Energy Information Administration (EIA), Form EIA-895, "Monthly Quantity and Value of Natural Gas Report," and the United States Minerals Management Service. None 1-15,000 15,001-100,000 100,001-200,000 200,001-500,000 500,001 and over 4. Marketed Production of Natural Gas in the United States, 1999 (Million Cubic Feet) Figure 5. Marketed Production of Natural Gas in Selected States, 1995-1999 Figure T e x a s L o u i s i a n a O k l a h o m a N e w M e x i c o W y o m i n g C o l o r a d o K a n s a s A l a b a m a A l a s k a C a l i f o r n i a A l l O t h e r S t a t e s 0 1 2 3 4 5 6 7 Trillion Cubic Feet Billion Cubic Meters 95 96 97 98 99 Sources: Energy Information Administration (EIA), Form EIA-895, "Monthly Quantity and Value

147

Microsoft Word - figure_14.doc  

Gasoline and Diesel Fuel Update (EIA)

Egypt Figure 14. Net Interstate Movements, Imports, and Exports of Natural Gas in the United States, 2010 (Million Cubic Feet) Norway India Trinidad/ Tobago Egypt Yemen Japan Interstate Movements Not Shown on Map From Volume To From Volume To CT RI RI MA MA CT VA DC MD DC 53,122 WA M T I D OR W Y ND SD C A N V UT CO NE KS AZ NM OK TX MN WI MI IA I L IN OH MO AR MS AL GA TN KY FL SC NC WV MD DE VA PA NJ NY CT RI MA VT NH ME LA HI AK Mexico C a n a d a C a n a d a Canada Canada Canada Canada Canada Canada Canada Gulf of Mexico Canada Sources: Energy Information Administration (EIA), Form EIA-176, "Annual Report of Natural and Supplemental Gas Supply and Disposition," the Office of Fossil Energy, Natural Gas Imports and Exports, and EIA estimates based on historical data. Energy Information

148

Microsoft Word - Figure_14_15.doc  

Gasoline and Diesel Fuel Update (EIA)

5 5 0.00-2.49 2.50-4.49 4.50-6.49 6.50-8.49 8.50-10.49 10.50+ WA ID MT OR CA NV UT AZ NM CO WY ND SD MN WI NE IA KS MO TX IL IN OH MI OK AR TN WV VA KY MD PA WI NY VT NH MA CT ME RI NJ DC NC SC GA AL MS LA FL HI AK DE 0 2 4 6 8 10 1980 1982 1984 1986 1988 1990 1992 1994 1996 1998 2000 2002 2004 Dollars per Thousand Cubic Feet 0 40 80 120 160 200 240 280 320 360 Dollars per Thousand Cubic Meters Constant Dollars Nominal Dollars Figure 14. Average Price of Natural Gas Delivered to Residential Consumers, 1980-2004 Figure 15. Average City Gate Price of Natural Gas in the United States, 2004 (Dollars per Thousand Cubic Feet) Sources: Nominal dollars: Energy Information Administration (EIA), Form EIA-176, "Annual Report of Natural and Supplemental Gas Supply and Disposition," and Form EIA-910, "Monthly Natural Gas Marketer Survey." Constant dollars: Prices were converted to 2004 dollars using the chain-type price indexes for Gross Domestic Product

149

Slide 1  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Inventory map reflects the non-federally owned SNF and HLW covered by the Nuclear Waste Policy Act Inventory map reflects the non-federally owned SNF and HLW covered by the Nuclear Waste Policy Act 2 Metric Tons Heavy Metal (MTHM) 3 Based on actual data through 2002 , as provided in the RW-859, and projected discharges for 2003-2010 which are rounded to two significant digits. Reflects trans-shipments as of end-2002. End of Year 2010 SNF & HLW Inventories 1 Approximately 64,000 MTHM 2 of Spent Nuclear Fuel (SNF) 3 & 275 High-Level Radioactive Waste (HLW) Canisters CT 1,900 TX 2,000 MD 1,200 VT 610 RI MT WY NE 790 SD ND OK KS 600 TX 2,000 LA 1,200 AR 1,200 IA 480 MN 1,100 WI 1,300 KY TN 1,500 MS 780 AL 3,000 GA 2,400 FL 2,900 NC 3,400 VA 2,400 WV OH 1,100 PA 5,800 ME 540 NJ 2,400 DE MI 2,500 MA 650 NH 480 IN SC 3,900 CO MO 670 IL 8,400 NY 3,300 CA 2,800 AZ 1,900 NM OR 360 NV UT WA 600 ID < 1 Commercial HLW 275 Canisters (~640 MTHM)

150

NGA_99fin.vp  

Gasoline and Diesel Fuel Update (EIA)

WA WA MT ID OR WY ND SD CA NV UT CO NE KS AZ NM OK TX MN WI MI IA IL IN OH MO AR MS AL GA TN KY FL SC NC WV MD DE VA PA NJ NY CT RI MA VT NH ME LA HI AK Japan Mexico Mexico Algeria Canada Canada Canada Canada Canada Canada Canada Algeria Canada United Arab Emirates Australia Australia Trinidad Qatar Malaysia Canada Mexico Interstate Movements of Natural Gas in the United States, 1999 (Volumes Reported in Million Cubic Feet) Supplemental Data From Volume To From Volume To (T) AL TX MA NH CT RI MD DC DE MD RI MA MA CT VA DC (T) Trucked Source: Energy Information Administration (EIA), Form EIA-176, "Annual Report of Natural and Supplemental Gas Supply and Disposition." E I A NERGY NFORMATION DMINISTRATION 837,902 415,636 225,138 232 308,214 805,614 803,034 800,345 685 147 628,589 9,786 790,088 17,369 278,302 40,727 214,076 275,629 51,935 843,280 826,638 9,988 998,603 553,440 896,187 11,817 629,551 98,423

151

Green Power Network: Can I Buy Green Power in My State?  

NLE Websites -- All DOE Office Websites (Extended Search)

Can I Buy Green Power in my State? Community Renewable Energy Development Consumer Protection Large Purchasers of Green Power Can I Buy Green Power in My State? Click on your state below to find out which organizations offer green power in your state. The results will include utility green pricing programs, retail green power products offered in competitive electricity markets, and renewable energy certificate (REC) products sold separate from electricity. For additional information about these distinct products, see our Overview of Green Power Markets. Map of the United States. AK AL AR AZ CA CO CT DC DE FL GA HI IA ID IL IN KS KY LA MA MD ME MI MN MO MS MT NC ND NE NH NJ NM NV NY OH OK OR PA RI SC SD TN TX UT VA VT WA WI WV WY Alabama Alaska Arizona Arkansas California Colorado Connecticut Connecticut Delaware Delaware Florida Georgia Hawaii Idaho Illinois Indiana Iowa Kansas Kentucky Louisiana Maine Maryland Maryland Massachusetts Massachusetts Michigan Minnesota Mississippi Missouri Montana Nebraska Nevada New Hampshire New Hampshire New Jersey New Jersey New Mexico New York North Carolina North Dakota Ohio Oklahoma Oregon Pennsylvania Rhode Island Rhode Island South Carolina South Dakota Tennessee Texas Utah Vermont Vermont Virginia Washington West Virginia Wisconsin Wyoming Washington, DC

152

NGA_99fin.vp  

Gasoline and Diesel Fuel Update (EIA)

Supply Supply 17 Energy Information Administration / Natural Gas Annual 1999 NJ WY AK AL CA AR CO CT DE FL GA HI ID KS IL IN IA IA KY LA ME MI MA MD MN MS MT MO NE ND OH NV NM NY NH NC OK OR PA RI SC SD TN TX UT VT WA WV WI AZ VA DC Sources: Energy Information Administration (EIA), Form EIA-895, "Monthly Quantity and Value of Natural Gas Report," and the United States Minerals Management Service. None 1-15,000 15,001-100,000 100,001-200,000 200,001-500,000 500,001 and over 4. Marketed Production of Natural Gas in the United States, 1999 (Million Cubic Feet) Figure 5. Marketed Production of Natural Gas in Selected States, 1995-1999 Figure T e x a s L o u i s i a n a O k l a h o m a N e w M e x i c o W y o m i n g C o l o r a d o K a n s a s A l a b a m a A l a s k a C a l i f o r n i a A l l O t h e r S t a t e s 0 1 2 3 4 5 6 7 Trillion Cubic Feet Billion Cubic Meters 95 96 97 98 99 Sources: Energy Information Administration (EIA), Form EIA-895, "Monthly Quantity

153

Microsoft Word - figure_13.doc  

Gasoline and Diesel Fuel Update (EIA)

5 5 (Million Cubic Feet) 24,891 2,895 Nigeria WA M T I D OR W Y ND SD C A N V UT CO NE KS AZ NM OK TX MN WI MI IA I L IN OH MO AR MS AL GA TN KY FL SC NC WV MD DE VA PA NJ NY CT RI MA VT NH ME LA HI AK Mexico Algeria C a n a d a C a n a d a Canada Canada Canada Canada Canada Algeria Canada Canada N i g e r i a O m a n Qatar Gulf of Mexico Gulf o f M e x i c o Gulf of Mexico Canada Gulf of Mexico Malaysia 2,986 Sources: Energy Information Administration (EIA), Form EIA-176, "Annual Report of Natural and Supplemental Gas Supply and Disposition," and the Office of Fossil Energy, Natural Gas Imports and Exports. Energy Information Administration / Natural Gas Annual 2005 Supplemental Data From Volume To From Volume To CT RI RI MA MA CT VA DC MD DC 335,380 634,982 664,318 612,297 125,202 33,223 531,868 103,624

154

U.S. Energy Information Administration | Annual Energy Outlook 2013  

Gasoline and Diesel Fuel Update (EIA)

2 2 Regional maps Figure F7. Coal demand regions Figure F7. Coal Demand Regions CT,MA,ME,NH,RI,VT OH 1. NE 3. S1 4. S2 5. GF 6. OH 7. EN AL,MS MN,ND,SD IA,NE,MO,KS TX,LA,OK,AR MT,WY,ID CO,UT,NV AZ,NM 9. AM 11. C2 12. WS 13. MT 14. CU 15. ZN WV,MD,DC,DE 2. YP Region Content Region Code NY,PA,NJ VA,NC,SC GA,FL IN,IL,MI,WI Region Content Region Code 14. CU 13. MT 16. PC 15. ZN 12. WS 11. C2 9. AM 5. GF 8. KT 4. S2 7. EN 6. OH 2. YP 1. NE 3. S1 10. C1 KY,TN 8. KT 16. PC AK,HI,WA,OR,CA 10. C1 CT,MA,ME,NH,RI,VT OH 1. NE 3. S1 4. S2 5. GF 6. OH 7. EN AL,MS MN,ND,SD IA,NE,MO,KS TX,LA,OK,AR MT,WY,ID CO,UT,NV AZ,NM 9. AM 11. C2 12. WS 13. MT 14. CU 15. ZN WV,MD,DC,DE 2. YP Region Content Region Code NY,PA,NJ VA,NC,SC GA,FL IN,IL,MI,WI Region Content Region Code 14. CU 13. MT

155

U.S. Energy Information Administration | Annual Energy Outlook 2011  

Gasoline and Diesel Fuel Update (EIA)

4 4 Regional maps Figure F7. Coal demand regions Figure F7. Coal Demand Regions CT,MA,ME,NH,RI,VT OH 1. NE 3. S1 4. S2 5. GF 6. OH 7. EN AL,MS MN,ND,SD IA,NE,MO,KS TX,LA,OK,AR MT,WY,ID CO,UT,NV AZ,NM 9. AM 11. C2 12. WS 13. MT 14. CU 15. ZN WV,MD,DC,DE 2. YP Region Content Region Code NY,PA,NJ VA,NC,SC GA,FL IN,IL,MI,WI Region Content Region Code 14. CU 13. MT 16. PC 15. ZN 12. WS 11. C2 9. AM 5. GF 8. KT 4. S2 7. EN 6. OH 2. YP 1. NE 3. S1 10. C1 KY,TN 8. KT 16. PC AK,HI,WA,OR,CA 10. C1 CT,MA,ME,NH,RI,VT OH 1. NE 3. S1 4. S2 5. GF 6. OH 7. EN AL,MS MN,ND,SD IA,NE,MO,KS TX,LA,OK,AR MT,WY,ID CO,UT,NV AZ,NM 9. AM 11. C2 12. WS 13. MT 14. CU 15. ZN WV,MD,DC,DE 2. YP Region Content Region Code NY,PA,NJ VA,NC,SC GA,FL IN,IL,MI,WI Region Content Region Code 14. CU 13. MT

156

Albany, OR * Fairbanks, AK * Morgantown, WV * Pittsburgh, PA * Houston, TX  

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NETL R&D Tackles Technological NETL R&D Tackles Technological Challenges of the Williston Basin's Bakken Formation Recent development of the Bakken Formation in the Williston Basin of western North Dakota and eastern Montana is a good example of persistent analysis of geologic data and adaptation of new completion technologies overcoming the challenges posed by unconventional reservoirs. However, as with most unconventional plays, as Bakken development continues, questions regarding

157

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

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and Engine Technology Background The mission of the U.S. Department of Energy's National Energy Technology Laboratory (DOENETL) Carbon Capture Program is to develop innovative...

158

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

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Testing of Rapid PSA for CO 2 Capture Background The mission of the U.S. Department of EnergyNational Energy Technology Laboratory (DOENETL) Carbon Capture Research &...

159

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

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including lignite and sub-bituminous coal, make up about half of U.S. coal production and reserves. They have lower energy and sulfur contents than bituminous coal, but higher...

160

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

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Research Institute Background The mission of the U.S. Department of EnergyNational Energy Technology Laboratory (DOENETL) Carbon Capture Program is to develop innovative...

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161

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

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of filter elements to remove ash from the syngas prior to it being utilized in a gas turbine or fuel cell. The elements are arranged in columns called "candles" and contained...

162

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

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Computational Facilities Description Scientists at NETL's laboratories use the Geoscience Analysis, Interpretation, and Assessments (GAIA) Computational Facilities for...

163

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

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Investigation on Pyroelectric Ceramic Temperature Sensors for Energy System Applications Background There is an increasing need to monitor processing parameters such as...

164

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

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CO 2 -Binding Organic Liquids Gas Capture with Polarity-Swing-Assisted Regeneration Background The mission of the U.S. Department of EnergyNational Energy Technology Laboratory...

165

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

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and are also stringent in order to avoid poisoning catalysts utilized in making liquids from fuel gas, electrodes in fuel cells, and selective catalytic reduction...

166

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

NLE Websites -- All DOE Office Websites (Extended Search)

modeling, laboratory experiments, and industry input to develop physics-based methods, models, and tools to support the development and deployment of advanced...

167

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

NLE Websites -- All DOE Office Websites (Extended Search)

of clean energy systems. Accomplishments The AVESTAR team successfully deployed 3-D virtual IGCC immersive training systems at NETL and West Virginia University that allow...

168

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

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of implementation, and prepare for widespread commercial deployment between 2020 and 2030. Research conducted to develop these technologies will ensure safe and permanent...

169

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

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volatilization from interconnect alloys using solution conductivity. Schematic of a SOFC highlighting potential degradation mechanisms. The GEGR project assists the SOFCs...

170

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

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project phases focused on cell and stack research and development with emphasis on SOFC performance enhancement (power density, fuel utilization, and degradation), cost...

171

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

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chemical state of pulse laser deposited thin-film cathodes were measured. * A symmetric SOFC cell for ultra-small angle X-ray scattering studies was designed and constructed. The...

172

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

NLE Websites -- All DOE Office Websites (Extended Search)

coatingscale durability through thermal cycling. * Drew the interest of a major SOFC manufacturer and specialty SOFC metals producer. Benefits nGimat's SBIR project...

173

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

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assists the SOFCs program in meeting its cost and performance targets by ensuring that SOFC seals can achieve reliable operation over an extended operating life. The program...

174

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

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methods developed in this ONR program can now be applied to the testing of a Delphi Gen 4 SOFC stack in the DOE research program. Benefits This NUWC project assists the SOFCs...

175

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

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region or matching oxygen vacancy concen- trations. * Demonstrated that periodic reverse SOFC operation serves to prolong SOFC lifetimes. * Demonstrated elemental surface valence...

176

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

NLE Websites -- All DOE Office Websites (Extended Search)

Unique Low Thermal Conductivity Thermal Barrier Coating (TBC) Architectures-UES Background Gas turbine engines used in integrated gasification combined cycle power plants require...

177

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

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a novel catalyzed wall heat exchanger, and a network of heat exchangers to support thermal self-sufficiency. * Completed test stand modifications at UTC Power to support...

178

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

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diverse number of systems and chemical processes ranging from catalysts developments for Fischer-Tropsch synthesis applications, nanoscience, development of dense membrane systems...

179

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

NLE Websites -- All DOE Office Websites (Extended Search)

and unknown samples. Analyses are used to characterize the fundamental properties of unconventional natural gas and oil reservoirs, ultra-deepwater and frontier-region...

180

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

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of the plant. Calera's process reduces carbon dioxide and pollutant emissions by using waste streams to make useable products. In the Sub-phase 2a, Calera completed the detailed...

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to obtain the most current and comprehensive results.


181

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

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WGS National Carbon Capture Center - Water-Gas Shift Tests to Reduce Steam Use Background In cooperation with Southern Company Services, the U.S. Department of Energy (DOE)...

182

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

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* Conduct bench-scale testing of the complete ICES incorporating the selected particle growth method with the optimized capture duct and diffuser systems to enable the...

183

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

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can contribute to the reduction of overall greenhouse gas emissions from fossil power plants. One area of research is the development and characterization of multiple...

184

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

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Vito Cedro III Project Manager National Energy Technology Laboratory 626 Cochrans Mill Road P.O. Box 10940 Pittsburgh, PA 15236-0940 412-386-7406 vito.cedro@netl.doe.gov Jason S....

185

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

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Archer Daniels Midland Company: CO 2 Capture from Biofuels Production and Storage into the Mt. Simon Sandstone Background Carbon dioxide (CO 2 ) emissions from industrial...

186

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

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Transport Membrane (ITM) Oxygen Technology for Integration in IGCC and Other Advanced Power Generation Systems Background Oxygen is among the top five chemicals produced worldwide...

187

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

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materials requirements for all fossil energy systems, including materials for advanced power generation technologies, such as coal gasification, heat engines, such as turbines,...

188

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

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Aerodynamics and Heat Transfer Studies of Parameters Specific to the IGCC- Requirements: High Mass Flow Endwall Contouring, Leading Edge Filleting and Blade Tip Ejection under...

189

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

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Effects of Hot Streak and Phantom Cooling on Heat Transfer in a Cooled Turbine Stage Including Particulate Deposition-The Ohio State University Background Sophisticated...

190

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

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FutureGen 2.0 Background The combustion of fossil fuels for electricity generation is one of the largest contributors to carbon dioxide (CO 2 ) emissions in the United States and...

191

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

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(3) improving efficiency of storage operations; and (4) developing Best Practices Manuals. Deploying these technologies in commercial-scale applications will require a...

192

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

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main bulk phases, the Nb solid solution, and Nb silicides will be developed. Formation energies of the undoped and doped Nb-Si-Cr will be calculated and compared. Interfacial...

193

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

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of Technology (Georgia Tech) will obtain data and develop models of the turbulent burning rate of HHC fuels at realistic conditions and in inhomo- geneous conditions such as...

194

West Virginia Smart Grid Implementation Plan (WV SGIP) Project  

NLE Websites -- All DOE Office Websites (Extended Search)

operating and asset health data deeply integrated with operating and asset management applications, dramatic improvement in enterprise wide processes - GIS, system...

195

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

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Gasifier; hot gas filtration; continuous ash depressurization systems; and various instrumentation, sampling, and controls systems. After only eight years from the time of...

196

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

NLE Websites -- All DOE Office Websites (Extended Search)

gasifier; hot gas filtration; continuous ash depressurization systems; and various instrumentation, sampling, and controls systems. Only eight years after construction and...

197

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

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capture technologies developed by the DOE program may also be applied to natural gas power plants after addressing the R&D challenges associated with the relatively low...

198

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

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correspond to reflected-shock temperature (1180 K) and pressure (13.06 atm) for a stoichiometric H 2 -O 2 mixture in argon. Comparison with chemical kinetics mechanisms is good...

199

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA...  

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oil recovery (EOR) application. The industrial source of CO 2 will be a petroleum-coke-to-chemicals (methanol and other by-products) gasification plant being developed by...

200

Microsoft PowerPoint - WV SGIP 101810 rev1.pptx  

NLE Websites -- All DOE Office Websites (Extended Search)

Smart Grid Implementation Plan - Roadmap Framework GridWeek 2010 Steve Pullins October 18, 2010, Washington, DC This material is based upon work supported by the Department of...

Note: This page contains sample records for the topic "ky wv tn" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
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201

Materials Solutions for Hydrogen Delivery in Pipelines  

NLE Websites -- All DOE Office Websites (Extended Search)

Solutions for Solutions for Hydrogen Delivery in Pipelines Dr. Subodh K. Das Secat, Inc. September 26, 2007 This presentation does not contain any proprietary, confidential, or otherwise restricted information Project Team SECAT (KY) Project Manager Oregon Steel Mills (OR) Steel Pipe Producer Columbia Gas of Kentucky (KY) NG transporter Schott North America (PA) Glass coatings supplier Chemical Composite Coatings (GA) Composites coatings Advanced Technology Corp. (TN) ABI technology provider ASME (NY) Codes and Standards DGS Metallurgical Solutions (OR) Steel consulting University of Illinois (IL) Basic embrittlement studies Oak Ridge National Laboratory (TN) Applied research Objective and Deliverables Objective: ∑ Develop materials technologies to minimize embrittlement of

202

SLAC_TN04051_04.dvi  

NLE Websites -- All DOE Office Websites (Extended Search)

issue is that of energy deposition in the issue is that of energy deposition in the conversion target and the comparison of the induced stress with the ultimate tensile strength of the target material. Since the length of the incident beam pulse is large in comparison to the ratio of beam size to the speed of sound, the concurrent pressure pulse dissipates in a time short compared to the overall pulse duration and one is left with only the Abstract: The effects of electron conditioning on commercially prepared aluminum alloys 1100 and 6063 were investigated. Contrary to the assumption that electron conditioning, if performed long enough, can reduce and stabilize the SEY at approximately 1.1, the SEY of aluminum did not go lower than 1.8. In fact, it increases again with continued electron exposure dose.

203

TN 1421 - Chapter 2: Electrical Substitution Radiometry  

Science Conference Proceedings (OSTI)

... II. Electrical Substitution Radiometry. ... Figure 1. Schematic diagram of the essential components of an electrical substitution radiometer. ...

204

ORNL/TN--8524 DE83 005172  

E-Print Network (OSTI)

-kW Free-Piston Stirling Engine with a Dashpot Load DISCLAIMER This report was prepared as an account RESULTS AND DESCRIPTION OF A 1KW FREE-PISTON STIRLING ENGINE WITH A DASHPOT LOAD Jeffrey Schreiber.33 hp) single cylinder free-piston Stirling engine was installed in the test facilities at the Lewis

Oak Ridge National Laboratory

205

THE U.S. CONGRESS THE SECRETARY OF ENERGY  

E-Print Network (OSTI)

, Savannah River DOE Site, Oak Ridge DOE Site, Lawrence Livermore National Laboratory, DOE Mound Site, UMTRA training of two populations of workers: Native American tribal members and employees, and public safety Diffusion Plant, KY; Portsmouth Site, OH; Oak Ridge Operations, TN; and the Savannah River Site, SC

206

Headquarters Program Elements/Offices....................................................... Section I Contracting Activities/Offices ........................................................................ Section II  

E-Print Network (OSTI)

, Savannah River DOE Site, Oak Ridge DOE Site, Lawrence Livermore National Laboratory, DOE Mound Site, UMTRA training of two populations of workers: Native American tribal members and employees, and public safety Diffusion Plant, KY; Portsmouth Site, OH; Oak Ridge Operations, TN; and the Savannah River Site, SC

207

U.S. NUclear WaSte techNical revieW Board  

E-Print Network (OSTI)

, Savannah River DOE Site, Oak Ridge DOE Site, Lawrence Livermore National Laboratory, DOE Mound Site, UMTRA training of two populations of workers: Native American tribal members and employees, and public safety Diffusion Plant, KY; Portsmouth Site, OH; Oak Ridge Operations, TN; and the Savannah River Site, SC

208

Annual Report and Continuation Request National Science Foundation  

E-Print Network (OSTI)

, Savannah River DOE Site, Oak Ridge DOE Site, Lawrence Livermore National Laboratory, DOE Mound Site, UMTRA training of two populations of workers: Native American tribal members and employees, and public safety Diffusion Plant, KY; Portsmouth Site, OH; Oak Ridge Operations, TN; and the Savannah River Site, SC

209

TEXAS A&M UNIVERSITY DEPARTMENT OF CHEMISTRY  

E-Print Network (OSTI)

, Savannah River DOE Site, Oak Ridge DOE Site, Lawrence Livermore National Laboratory, DOE Mound Site, UMTRA training of two populations of workers: Native American tribal members and employees, and public safety Diffusion Plant, KY; Portsmouth Site, OH; Oak Ridge Operations, TN; and the Savannah River Site, SC

210

CHANGES IN LAND USE PATTERNS AND THEIR EFFECTS ON RIO GRANDE TURKEYS IN THE ROLLING PLAINS OF TEXAS (Annual Report-2001)  

E-Print Network (OSTI)

, Savannah River DOE Site, Oak Ridge DOE Site, Lawrence Livermore National Laboratory, DOE Mound Site, UMTRA training of two populations of workers: Native American tribal members and employees, and public safety Diffusion Plant, KY; Portsmouth Site, OH; Oak Ridge Operations, TN; and the Savannah River Site, SC

211

The cover illustration by Frederick C. Yohn depicts activity typically performed by the Corps of Engi-  

E-Print Network (OSTI)

, Savannah River DOE Site, Oak Ridge DOE Site, Lawrence Livermore National Laboratory, DOE Mound Site, UMTRA training of two populations of workers: Native American tribal members and employees, and public safety Diffusion Plant, KY; Portsmouth Site, OH; Oak Ridge Operations, TN; and the Savannah River Site, SC

US Army Corps of Engineers

212

Vehicle Technologies Office: Fact #534: September 1, 2008 Diesel...  

NLE Websites -- All DOE Office Websites (Extended Search)

9.0 cents; OR, 1 to 3 cents; SD and TN, one cent; and VA 2%. Carriers pay an additional surcharge equal to AZ-8 cents, IL-6.3 cents (g) 6.0 cents (d), IN-11 cents, KY-2% (g) 4.7%...

213

C:\\ANNUAL\\VENTCHAP.V8\\NewNGA02.vp  

Gasoline and Diesel Fuel Update (EIA)

NE IA KS MO TX IL IN OH MI OK AR TN W VA KY MD PA WI NY VT NH MA CT ME RI NJ DE DC NC SC GA AL MS LA FL HI AK 15. Marketed Production of Natural Gas in the United States, 2001...

214

Slide 1  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

FY 2014 www.energy.govEM 5 CA 11M ID 377M KY 332M NV 65M NM 444M NY 90M OH 188M SC 1.3B TN 427M UT WA 2.3B 36M EM's FY 2014 Budget Request: Funding by Site River...

215

U.S. Energy Information Administration | Annual Energy Outlook...  

Gasoline and Diesel Fuel Update (EIA)

1 Regional maps Figure F4. Oil and gas supply model regions Figure F4. Oil and Gas Supply Model Regions Atlantic WA MT WY ID NV UT CO AZ NM TX OK IA KS MO IL IN KY TN MS AL FL GA...

216

Microsoft Word - Figure_3_4.doc  

Gasoline and Diesel Fuel Update (EIA)

7 7 None 1-15,000 15,001-100,000 100,001-200,000 200,001-500,000 500,001-and over WA ID MT OR CA NV UT AZ NM CO WY ND SD MN WI NE IA KS MO TX IL IN OH MI OK AR TN WV VA KY MD PA WI NY VT NH MA CT ME RI NJ DE DC NC SC GA AL MS LA FL HI AK GOM 0 1 2 3 4 5 6 7 T e x a s G u l f o f M e x i c o N e w M e x i c o O k l a h o m a W y o m i n g L o u i s i a n a C o l o r a d o A l a s k a K a n s a s A l a b a m a A l l O t h e r S t a t e s Trillion Cubic Feet 0 30 60 90 120 150 180 Billion Cubic Meters 2002 2003 2002 Figure 4. Marketed Production of Natural Gas in Selected States and the Gulf of Mexico, 2002-2003 Figure 3. Marketed Production of Natural Gas in the United States and the Gulf of Mexico, 2003 (Million Cubic Feet) GOM = Gulf of Mexico Sources: Energy Information Administration (EIA), Form EIA-895, "Monthly and Annual Quantity and Value of Natural Gas Report," and the United States Mineral Management

217

Workbook Contents  

U.S. Energy Information Administration (EIA) Indexed Site

Natural Gas Marketed Production ",35,"Monthly","9/2013","1/15/1973" Natural Gas Marketed Production ",35,"Monthly","9/2013","1/15/1973" ,"Release Date:","12/12/2013" ,"Next Release Date:","1/7/2014" ,"Excel File Name:","ng_prod_whv_a_epg0_vgm_mmcf_m.xls" ,"Available from Web Page:","http://www.eia.gov/dnav/ng/ng_prod_whv_a_epg0_vgm_mmcf_m.htm" ,"Source:","Energy Information Administration" ,"For Help, Contact:","infoctr@eia.gov" ,,"(202) 586-8800",,,"12/19/2013 6:54:27 AM" "Back to Contents","Data 1: Natural Gas Marketed Production " "Sourcekey","N9050US2","N9050FX2","N9050AL2","N9050AK2","N9050AZ2","N9050AR2","N9050CA2","N9050CO2","N9050FL2","N9050IL2","N9050IN2","N9050KS2","N9050KY2","N9050LA2","N9050MD2","N9050MI2","N9050MS2","N9050MO2","N9050MT2","N9050NE2","N9050NV2","N9050NM2","N9050NY2","N9050ND2","N9050OH2","N9050OK2","N9050OR2","N9050PA2","N9050SD2","N9050TN2","N9050TX2","N9050UT2","N9050VA2","N9050WV2","N9050WY2"

218

C:\ANNUAL\VENTCHAP.V8\NGAla1109.vp  

Gasoline and Diesel Fuel Update (EIA)

0 0 Energy Information Administration / Natural Gas Annual 2000 NJ WY AK AL CA AR CO CT DE FL GA HI ID KS IL IN IA IA KY LA ME MI MA MD MN MS MT MO NE ND OH NV NM NY NH NC OK OR PA RI SC SD TN TX UT VT WA WV WI AZ VA DC Sources: Energy Information Administration (EIA), Form EIA-895, "Monthly Quantity and Value of Natural Gas Report," and the United States Minerals Management Service. None 1-15,000 15,001-100,000 100,001-200,000 200,001-500,000 500,001 and over 4. Marketed Production of Natural Gas in the United States, 2000 (Million Cubic Feet) Figure 5. Marketed Production of Natural Gas in Selected States, 1996-2000 Figure T e x a s L o u i s i a n a N e w M e x i c o O k l a h o m a W y o m i n g C o l o r a d o K a n s a s A l a b a m a A l a s k a C a l i f o r n i a O t h e r S t a t e s 0 1 2 3 4 5 6 7 0 30 60 90 120 150 180 Trillion Cubic Feet Billion Cubic Meters 1996 1997 1998 1999 2000 Sources: Energy Information Administration (EIA), Form EIA-895, "Monthly

219

Table 4. Principal shale gas plays: natural gas production and proved reserves, 2010-1011  

U.S. Energy Information Administration (EIA) Indexed Site

Principal shale gas plays: natural gas production and proved reserves, 2010-2011 Principal shale gas plays: natural gas production and proved reserves, 2010-2011 trillion cubic feet Basin Shale Play State(s) Production Reserves Production Reserves Production Reserves Fort Worth Barnett TX 1.9 31.0 2.0 32.6 0.1 1.6 Appalachian Marcellus PA, WV, KY, TN, NY, OH 0.5 13.2 1.4 31.9 0.9 18.7 Texas-Louisiana Salt Haynesville/Bossier TX, LA 1.5 24.5 2.5 29.5 1.0 5.0 Arkoma Fayetteville AR 0.8 12.5 0.9 14.8 0.1 2.3 Anadarko Woodford TX, OK 0.4 9.7 0.5 10.8 0.1 1.1 Western Gulf Eagle Ford TX 0.1 2.5 0.4 8.4 0.3 5.9 Sub-total 5.2 93.4 7.7 128.0 2.5 34.6 Other shale gas plays 0.2 4.0 0.3 3.6 0.1 -0.4 All U.S. Shale Plays 5.4 97.4 8.0 131.6 2.6 34.2 Change 2011-2010 2010 2011 Notes: Some columns may not add up to its subtotal because of independent rounding. Natural gas is wet after lease separation. The above table is

220

SAS Output  

U.S. Energy Information Administration (EIA) Indexed Site

Coal Consumers in the Manufacturing and Coke Sectors, 2012" Coal Consumers in the Manufacturing and Coke Sectors, 2012" "Company Name","Plant Location" "Top Ten Manufacturers" "American Crystal Sugar Co","MN, ND" "Archer Daniels Midland","IA, IL, MN, ND, NE" "Carmeuse Lime Stone Inc","AL, IL, IN, KY, MI, OH, PA, TN, VA, WI" "Cemex Inc","AL, CA, CO, FL, GA, KY, OH, TN, TX" "Dakota Gasification Company","ND" "Eastman Chemical Company","TN" "Georgia-Pacific LLC","AL, GA, OK, VA, WI" "Holcim (US) Inc","AL, CO, MD, MO, MT, OK, SC, TX, UT" "NewPage Corporation","MD, MI, WI" "U S Steel Corporation","AL, IN, MI, MN"

Note: This page contains sample records for the topic "ky wv tn" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


221

U.S. Energy Information Administration | Annual Coal Report 2012  

U.S. Energy Information Administration (EIA) Indexed Site

Coal Consumers in the Manufacturing and Coke Sectors, 2012 Coal Consumers in the Manufacturing and Coke Sectors, 2012 U.S. Energy Information Administration | Annual Coal Report 2012 Table 25. Coal Consumers in the Manufacturing and Coke Sectors, 2012 U.S. Energy Information Administration | Annual Coal Report 2012 Company Name Plant Location Top Ten Manufacturers American Crystal Sugar Co MN, ND Archer Daniels Midland IA, IL, MN, ND, NE Carmeuse Lime Stone Inc AL, IL, IN, KY, MI, OH, PA, TN, VA, WI Cemex Inc AL, CA, CO, FL, GA, KY, OH, TN, TX Dakota Gasification Company ND Eastman Chemical Company TN Georgia-Pacific LLC AL, GA, OK, VA, WI Holcim (US) Inc AL, CO, MD, MO, MT, OK, SC, TX, UT NewPage Corporation MD, MI, WI U S Steel Corporation AL, IN, MI, MN Other Major Manufacturers Ash Grove Cement Co

222

Microsoft Word - figure_8.doc  

Gasoline and Diesel Fuel Update (EIA)

T I D O R W Y ND SD C A N V U T CO NE KS A Z NM OK TX MN WI MI IA I L IN OH MO AR M S AL GA T N KY FL SC NC WV MD DE VA PA NJ NY CT RI MA VT NH ME LA HI A K J a p a n Mexico M e x...

223

Mountain Association for Community Economic Development- How$martKY On Bill Financing Energy Efficiency Program  

Energy.gov (U.S. Department of Energy (DOE))

Four rural utility cooperatives in Eastern Kentucky (Big Sandy RECC, Fleming-Mason RECC, Grayson RECC, and Jackson Energy) work with MACED to provide energy retrofits as part of utility service...

224

appalachian studies uniVeRsitY OF KentucKY  

E-Print Network (OSTI)

% of kentucky's electricity. Approximately 78% of kentucky's coal is mined in eastern kentucky. eastern kentucky miners make up 84% of the state's coal mining work force.* *Kentucky Coal Association The cre-1884 Ashland Coal & Iron Railway Co. Mines Ledger, 1888-1889 EDUCATION AND LITERACY Country Life Schools

Kim, Mi-Ok

225

GE Appliance Park Louisville, KY Plant Wide Assessment Final Report October 25th, 2007  

SciTech Connect

Used a team of experts to analyze and model major systems at a large industrial appliance manufacturer. During the data gathering stage, the team specifically looked for baselining the efficiency of the systems as well as developing short term and longer term efficiency projects. Electrical distribution, Compressed air generation and thermal heat recovery for the production facility and front office heating and cooling optimization were all baselined during the study.

Chandon Rao; Richard Urschel

2007-10-25T23:59:59.000Z

226

www.eia.gov  

U.S. Energy Information Administration (EIA)

MO MT NE NV NH NJ NM NY NC ND OH OK OR PA RI SC SD TN TX UT VT VA WA WV WI WY U.S. Number of states in which marketer is licensed ... Service Tech & Research Corp

227

Utility-Scale Smart Meter Deployments, Plans & Proposals  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

edisonfoundation.net/IEE edisonfoundation.net/IEE Utility-Scale Smart Meter Deployments, Plans & Proposals April 2010 Utility State Target Number of Meters Notes Resources AEP 1 IN, KY, MI, OH, OK, TX, VA, WV 5,000,000 AEP plans on deploying smart meters to all customers within their service territory and have deployed 10,000 meters to customers in South Bend, IN, and are presently deploying another 700,000 to AEP-Texas customers. Timing for the remaining deployments will depend on specific conditions in each of the seven operating company subsidiaries. AEP Corporate Sustainability Report 2009 2 Allegheny Power MD, PA, WV 700,000 Allegheny launched pilots in Morgantown, WV and Urbana, MD to test smart meters and thermostats (1,140 meters installed). In PA, Act 129 (2008)

228

NCAR/TN468+STR NCAR TECHNICAL NOTE  

E-Print Network (OSTI)

System ARW Solver · Equations: Fully compressible, Euler nonhydrostatic with a run-time hydrostatic the compressible, nonhydrostatic Euler equations. The equations are cast in flux form using variables that have

Zhang, Yan

229

NIST TN 1297: Appen. C. NIST Tech. Communications Prog.  

Science Conference Proceedings (OSTI)

... E of the NIST Administrative Manual. ... of fundamental constants, fundamental metrological research ... Experimental Statistics, NBS Handbook 91 (US ...

230

P.O. Box 117, Oak Ridge, TN 37831  

NLE Websites -- All DOE Office Websites (Extended Search)

of climate stations that record real-time temperature, precipitation, wind speed, and solar radiation trends across the United States. Through the Atmospheric Turbulence and...

231

NIST TN 1297: Appen. D. Clarification and Additional ...  

Science Conference Proceedings (OSTI)

... t 1-? D.6 Uncertainty and units of the ... of this and other terms, has been replaced here and ... is equal to the negative of the estimated systematic error. ...

232

SLAC_TN0352_LCC0128_rev.dvi  

NLE Websites -- All DOE Office Websites (Extended Search)

chamber, one sample at a time is loaded, on its individual carrier plate, onto a manipulator arm (Vacuum Generators "Omniax"). The Omniax carrier plate holder design is shown...

233

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Reactive Transport Models with Reactive Transport Models with Geomechanics to Mitigate Risks of CO2 Utilization and Storage Background The overall goal of the Department of Energy's (DOE) Carbon Storage Program is to develop and advance technologies that will significantly improve the effectiveness of geologic carbon storage, reduce the cost of implementation, and prepare for widespread commercial deployment between 2020 and 2030. Research conducted to develop these technologies will ensure safe and permanent storage of carbon dioxide (CO2) to reduce greenhouse gas (GHG) emissions without adversely affecting energy use or hindering economic growth. Geologic carbon storage involves the injection of CO2 into underground formations that have the ability to securely contain the CO2 permanently. Technologies being

234

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

a Prototype Commercial a Prototype Commercial Gasifier Sensor Background Integrated gasification combined cycle (IGCC) technology has the potential to improve the efficiency and environmental performance of fossil fuel based electric power production. During the IGCC process, coal and/or biomass is gasified at high temperature and pressure to form synthesis gas (syngas), a mixture of hydrogen, carbon monoxide, carbon dioxide, and small amounts of contaminants such as hydrogen sulfide. The syngas can be used to produce power, chemicals, and/or fuels. The U.S. Department of Energy (DOE) National Energy Technology Laboratory (NETL) Gasification Technologies Program is focused on enhancing the performance of gasification systems, thus enabling U.S. industry to improve the competitiveness of

235

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Phase III Xlerator Program: Rapid Phase III Xlerator Program: Rapid Commercialization of Advanced Turbine Blades for IGCC Power Plants-Mikro Systems Background Mikro Systems, Inc. is developing their proprietary TOMO SM manufacturing technology to produce turbine blades with significantly improved internal cooling geometries that are beyond current manufacturing state-of-the-art, thus enabling higher operating temperatures. Funding from the American Recovery and Reinvestment Act (ARRA) under the Small Business Innovation Research (SBIR) Phase III Xlerator Program will be directed towards accelerating commercial adoption of TOMO SM technology by leading turbine manufacturers through the demonstration of superior manufacturability, cost, and performance. Ultimately, this technology will lead to improved efficiency

236

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Non-Thermal Plasma for Fossil Energy Non-Thermal Plasma for Fossil Energy Related Applications Background The U.S. Department of Energy is investigating various non-thermal plasma tech- nologies for their catalytic properties related to fossil energy conversion and carbon dioxide decomposition. Non-thermal plasma is an ionized gas comprised of a mixture of charged particles (electrons, ions), active chemical radicals (O 3 , O, OH), and highly excited species that are known to accelerate reforming reactions in

237

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Training Toward Advanced 3-D Seismic Training Toward Advanced 3-D Seismic Methods for CO 2 Monitoring, Verification, and Accounting Background The overall goal of the Department of Energy's (DOE) Carbon Storage Program is to develop and advance technologies that will significantly improve the effective- ness of geologic carbon storage, reduce the cost of implementation, and prepare for widespread commercial deployment between 2020 and 2030. Research conducted to develop these technologies will ensure safe and permanent storage of carbon dioxide (CO 2 ) to reduce greenhouse gas (GHG) emissions without adversely af fecting energy use or hindering economic grow th. Geologic carbon storage involves the injection of CO 2 into underground formations that have the ability to securely contain the CO

238

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Cathode Surface Chemistry and Cathode Surface Chemistry and Optimization Studies-Carnegie Mellon University Background The mission of the U.S. Department of Energy (DOE) National Energy Technology Laboratory (NETL) is to advance energy options to fuel our economy, strengthen our security, and improve our environment. With the Solid Oxide Fuel Cells (SOFCs) program and systems coordination from the Solid State Energy Conversion Alliance (SECA), DOE/NETL is leading the research, development, and demonstration of SOFCs for both domestic coal and natural gas fueled power systems that enable low cost, high efficiency, near-zero emissions and water usage, and carbon dioxide (CO 2 ) capture. Carnegie Mellon University's (CMU) project was selected to acquire the fundamental knowledge and understanding that will facilitate research and development to enhance

239

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

a Coal-Biomass to Liquids a Coal-Biomass to Liquids Plant in Southern West Virginia Background Concerns regarding global supplies of oil, energy security, and climate change have generated renewed interest in alternative energy sources. The production of liquid fuels from coal provides an option for reducing petroleum use in the U.S. transportation sector and enhancing national and economic security by decreasing the nation's reliance on foreign oil. Two basic methods can be employed to produce liquid fuels

240

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Creep-Fatigue-Environment Creep-Fatigue-Environment Interactions in Steam Turbine Rotor Materials for Advanced Ultrasupercritical Coal Power Plants Background The U.S. Department of Energy (DOE) promotes the advancement of computational capabilities to develop materials for advanced fossil energy power systems. The DOE's National Energy Technology Laboratory (NETL) Advanced Research (AR) Program is working to enable the next generation of Fossil Energy (FE) power systems. One goal of the AR Materials Program is to conduct research leading to a scientific understanding of high-performance materials capable of service in the hostile environments associated with advanced ultrasupercritical (A-USC) coal-fired power plants. A-USC plants will increase coal-fired power plant efficiency by allowing operation

Note: This page contains sample records for the topic "ky wv tn" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


241

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

NETL's Fluid Chemistry Analysis NETL's Fluid Chemistry Analysis Capacity Background Establishing the geochemistry of surface and ground waters requires an arsenal of techniques devoted to determining the constituents these waters contain and the environment in which they exist. Many standard techniques have been developed over the years, and new ones continue to be explored as more complex matrices and harsher environments are encountered. Deep geologic storage of carbon dioxide and the development of unconventional oil and gas resourses are two areas of current concern where the study of geochemical processes is challenging due to the complex nature of the natural samples, and where routine analytical techniques are being pushed to their limits. The facilities at NETL include both conventional and cutting-edge instrumentation

242

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

29,759 29,759 PROJECT NUMBER FWP-2012.03.03 Task 3 Conversion and Fouling Background Coal and biomass gasification is an approach to cleaner power generation and other uses of these resources. Currently, the service life of gasifiers does not meet the performance needs of users. Gasifiers fail to achieve on-line availability of 85-95 percent in utility applications and 95 percent in applications such as chemical production. The inability to meet these goals has created a potential roadblock to widespread acceptance and commercialization of advanced gasification technologies. Gasifier output is a hot gas mixture consisting primarily of hydrogen and carbon monoxide (CO), known as synthesis gas (syngas). The syngas cooler is one of the key components identified as negatively impacting gasifier availability. Ash originating from impurities

243

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Compact Eye-safe Scanning Differential Compact Eye-safe Scanning Differential Absorption LIDAR (DIAL) for Spatial Mapping of Carbon Dioxide for MVA at Geologic Carbon Sequestration Sites Background The overall goal of the Department of Energy's (DOE) Carbon Storage Program is to develop and advance technologies that will significantly improve the effectiveness of geologic carbon storage, reduce the cost of implementation, and prepare for widespread commercial deployment between 2020 and 2030. Research conducted to develop these technologies will ensure safe and permanent storage of carbon dioxide (CO2) to reduce greenhouse gas (GHG) emissions without adversely affecting energy use or hindering economic growth. Geologic carbon storage involves the injection of CO2 into underground formations that

244

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Hydrogen Energy California Project Hydrogen Energy California Project Background A need exists to further develop carbon management technologies that capture and store or beneficially reuse carbon dioxide (CO 2 ) that would otherwise be emitted into the atmosphere from coal-based electric power generating facilities. Carbon capture and storage (CCS) technologies offer great potential for reducing CO 2 emissions and mitigating global climate change, while minimizing the economic impacts of the solution. Under the Clean Coal Power Initiative (CCPI) Round 3 program, the U.S. Department of Energy (DOE) is providing financial assistance, including funding under the American Recovery and Reinvestment Act (ARRA) of 2009, to industry to demonstrate the commercial viability of technologies that will capture CO

245

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Simulation of CO Simulation of CO 2 Leakage and Caprock Remediation Background Through its core research and development program administered by the National Energy Technology Laboratory (NETL), the U.S. Department of Energy (DOE) emphasizes monitoring, verification, and accounting (MVA), as well as computer simulation and risk assessment, of possible carbon dioxide (CO 2 ) leakage at CO 2 geologic storage sites. MVA efforts focus on the development and deployment of technologies that can provide an accurate accounting of stored CO 2 , with a high level of confidence that the CO 2 will remain stored underground permanently. Effective application of these MVA technologies will ensure the safety of geologic storage projects with respect to both human health and the environment, and can provide the basis for establishing carbon credit trading markets

246

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Pressure Membrane Contactors for Pressure Membrane Contactors for CO 2 Capture Background The mission of the U.S. Department of Energy/National Energy Technology Laboratory (DOE/NETL) Carbon Capture Research & Development (R&D) Program is to develop innovative environmental control technologies to enable full use of the nation's vast coal reserves, while at the same time allowing the current fleet of coal-fired power plants to comply with existing and emerging environmental regulations. The Carbon Capture R&D Program portfolio of carbon dioxide (CO 2 ) emissions control technologies and CO 2 compression is focused on advancing technological options for new and existing coal- fired power plants in the event of carbon constraints. Post-combustion separation and capture of CO

247

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Shizhong Yang Shizhong Yang Principal Investigator Department of computer science/LoNI southern University and a&M college Baton rouge, Louisiana 70813 225-771-2060 shizhong_yang@subr.edu PROJECT DURATION Start Date End Date 06/01/2012 05/31/2015 COST Total Project Value $200,000 DOE/Non-DOE Share $200,000 / $0 Novel Nano-Size Oxide Dispersion Strengthened Steels Development through Computational and Experimental Study Background Ferritic oxide dispersion strengthened (oDs) steel alloys show promise for use at higher temperatures than conventional alloys due to their high-temperature oxidation resistance and dislocation creep properties. the development of oDs alloys with nanoscale powders of transition metal oxides (yttrium and chromium) dispersed in

248

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Clean Coal Power Initiative (CCPI 3) Clean Coal Power Initiative (CCPI 3) NRG Energy: W.A. Parish Post-Combustion CO2 Capture and Sequestration Project Background Additional development and demonstration is needed to improve the cost and efficiency of carbon management technologies that capture and store carbon dioxide (CO 2 ) that would otherwise be emitted from coal-based electric power generating facilities. Carbon capture and storage (CCS) technologies offer great potential for reducing CO 2 emissions and mitigating global climate change, while minimizing the economic impacts of the solution. The U.S. Department of Energy (DOE) is providing financial assistance through the Clean Coal Power Initiative (CCPI) Round 3, which includes funding from the American Recovery and Reinvestment Act (ARRA), to demonstrate the commercial viability

249

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Radiocarbon as a Reactive Tracer for Radiocarbon as a Reactive Tracer for Tracking Permanent CO2 Storage in Basaltic Rocks Background The overall goal of the Department of Energy's (DOE) Carbon Storage Program is to develop and advance technologies that will significantly improve the effectiveness of geologic carbon storage, reduce the cost of implementation, and prepare for widespread commercial deployment between 2020 and 2030. Research conducted to develop these technologies will ensure safe and permanent storage of carbon dioxide (CO2) to reduce greenhouse gas (GHG) emissions without adversely affecting energy use or hindering economic growth. Geologic carbon storage involves the injection of CO2 into underground formations that have the ability to securely contain the CO2 permanently. Technologies being

250

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Degradation of TBC Systems in Degradation of TBC Systems in Environments Relevant to Advanced Gas Turbines for IGCC Systems- University of Pittsburgh Background The conditions inside integrated gasification combined cycle (IGCC) systems, such as high steam levels from hydrogen firing, high carbon dioxide steam mixtures in oxy- fired systems, and different types of contaminants, introduce complexities associated with thermal barrier coating (TBC) durability that are currently unresolved. In this work the University of Pittsburgh will team with Praxair Surface Technologies (PST) to deter- mine the degradation mechanisms of current state-of-the-art TBCs in environments consisting of deposits and gas mixtures that are representative of gas turbines using coal-derived synthesis gas (syngas).

251

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Low-Cost Alloys for High-Temperature Low-Cost Alloys for High-Temperature SOFC Systems Components - QuesTek Innovations Background One of the key opportunities for cost reduction in a solid oxide fuel cell (SOFC) system is the set of balance of plant (BOP) components supporting the fuel cell itself, including the heat exchanger and air/fuel piping. These represent about half of the overall cost of the system. A major enabling technological breakthrough is to replace incumbent nickel-based superalloys in high-temperature BOP components with low-cost ferritic stainless steel. However, the ferritic alloys are unsuitable for SOFC application without additional coatings due to the inherent volatile nature of the alloy's chromium oxide (Cr2O3) element, which tends to poison the fuel cell's cathode

252

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Southwestern United States Carbon Southwestern United States Carbon Sequestration Training Center Background Carbon capture, utilization, and storage (CCUS) technologies offer great potential for mitigating carbon dioxide (CO2) emissions emitted into the atmosphere without adversely influencing energy use or hindering economic growth. Deploying these technologies in commercial-scale applications will require a drastically expanded workforce trained in CCUS related disciplines, including geologists, engineers, scientists, and technicians. Training to enhance the existing CCUS workforce and to develop new professionals can be accomplished through focused educational initiatives in the CCUS technology area. Key educational topics include simulation and risk assessment; monitoring, verification,

253

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Beneficial Use of CO2 in Precast Beneficial Use of CO2 in Precast Concrete Products Background The Department of Energy's (DOE) Carbon Storage Program encompasses five Technology Areas: (1) Geologic Storage and Simulation and Risk Assessment (GSRA), (2) Monitoring, Verification, Accounting and Assessment (MVAA), (3) Carbon Dioxide (CO2) Use and Re-Use, (4) Regional Carbon Sequestration Partnerships (RCSP), and (5) Focus Areas for Sequestration Science. The first three Technology Areas comprise the Core Research and Development (R&D), which includes studies ranging from applied laboratory to pilot-scale research focused on developing new technologies and systems for greenhouse gas (GHG) mitigation through carbon storage. This project is part of the Core R&D CO2 Use and Re-use Technology Area and focuses on developing pathways

254

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Thermal Barrier Coatings for Thermal Barrier Coatings for Operation in High Hydrogen Content Fueled Gas Turbines-Stony Brook University Background Traditional thermal barrier coatings (TBCs) based on yttria-stabilized zirconia (YSZ) will likely not be suitable in gas turbines used in integrated gasification combined cycle (IGCC) power plants. This is due to higher operating temperatures that will not only affect phase stability and sintering but will accelerate corrosive degradation phenomena. Coatings provide a framework to combat degradation issues and provide performance improvements needed for higher temperature environments. The Center for Thermal Spray Research (CTSR) at Stony Brook University, in partnership with its industrial Consortium for Thermal Spray Technology, is investigating science and

255

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Cooling for IGCC Turbine Cooling for IGCC Turbine Blades-Mikro Systems Background Turbine blade and vane survivability at higher operating temperatures is the key to improving turbine engine performance for integrated gasification combined cycle (IGCC) power plants. Innovative cooling approaches are a critical enabling technology to meet this need. Mikro Systems, Inc. is applying their patented Tomo-Lithographic Molding (TOMO) manufacturing technology to produce turbine blades with significantly improved internal cooling geometries that go beyond the current manufacturing state-of-the-art to enable higher operating temperatures. This project addresses two important aspects. First is the need to increase the quality and reliability of the core manufacturing process capability to

256

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Combustion Dynamics in Multi-Nozzle Combustion Dynamics in Multi-Nozzle Combustors Operating on High- Hydrogen Fuels-Pennsylvania State University Background Combustion dynamics is a major technical challenge to the development of efficient, low emission gas turbines. Current information is limited to single-nozzle combustors operating on natural gas and neglects combustors with configurations expected to meet operability requirements using a range of gaseous fuels such as coal derived synthesis gas (syngas). In this project, Pennsylvania State University (Penn State) in collaboration with Georgia Institute of Technology (Georgia Tech) will use multiple-nozzle research facilities to recreate flow conditions in an actual gas turbine to study complicated interactions between flames that can aggravate the combustion dynamics in syngas-

257

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Summit Texas Clean Energy, LLC: Texas Summit Texas Clean Energy, LLC: Texas Clean Energy Project: Pre-Combustion CO 2 Capture and Sequestration Background A need exists to further develop carbon management technologies that capture and store, or beneficially reuse, carbon dioxide (CO 2 ) that would otherwise be emitted into the atmosphere from coal-based electric power generating facilities. Carbon capture and storage (CCS) technologies offer the potential to significantly reduce CO 2 emissions and mitigate the anthropogenic contribution to global climate change, while substantially reducing or minimizing the economic impacts of the solution. Under Round 3 of the Clean Coal Power Initiative (CCPI), the U.S. Department of Energy (DOE) is providing up to $450 million in co-funded financial assistance to industry,

258

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Efficiency Solar-Based Catalytic Efficiency Solar-Based Catalytic Structure for CO2 Reforming Background The Department of Energy's (DOE) Carbon Storage Program encompasses five Technology Areas: (1) Geologic Storage and Simulation and Risk Assessment (GSRA), (2) Monitoring, Verification, Accounting and Assessment (MVAA), (3) Carbon Dioxide (CO2) Use and Re-Use, (4) Regional Carbon Sequestration Partnerships (RCSP), and (5) Focus Areas for Sequestration Science. The first three Technology Areas comprise the Core Research and Development (R&D), which includes studies ranging from applied laboratory to pilot-scale research focused on developing new technologies and systems for greenhouse gas (GHG) mitigation through carbon storage. This project is part of the Core R&D CO2 Use and Re-use Technology Area and focuses on developing pathways

259

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

DOE-WRI Cooperative Research and DOE-WRI Cooperative Research and Development Program for Fossil Energy- Related Resources Background Our nation's demand for cleaner and more efficient fossil energy production will increase during the coming decades, necessitating the development of new energy technologies to achieve energy independence in an environmentally responsible manner. The University of Wyoming (UW) Research Corporation's Western Research Institute (WRI) has been supporting the U.S. Department of Energy (DOE) Office of Fossil Energy (FE) and its mission of developing fossil energy and related environmental technologies for over two decades. Federal funding for these research efforts has usually been provided through congressionally mandated cooperative agreements, with cost share

260

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Unconventional Resources Unconventional Resources Background Natural gas and crude oil provide two-thirds of our Nation's primary energy supply and will continue to do so for at least the next several decades, as the Nation transitions to a more sustainable energy future. The natural gas resource estimated to exist within the United States has expanded significantly, but because this resource is increasingly harder to locate and produce, new technologies are required to extract it. Under the Energy Policy Act of 2005, the National Energy Technology Laboratory is charged with developing a complementary research program supportive of improving safety and minimizing the environmental impacts of activities related to unconventional natural gas and other petroleum resource exploration and production technology

Note: This page contains sample records for the topic "ky wv tn" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


261

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

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Staged, High-Pressure Oxy-Combustion Staged, High-Pressure Oxy-Combustion Technology: Development and Scale-up Background The Advanced Combustion Systems (ACS) Program of the U.S. Department of Energy/ National Energy Technology Laboratory (DOE/NETL) is aiming to develop advanced oxy- combustion systems that have the potential to improve the efficiency and environmental impact of coal-based power generation systems. Currently available CO2 capture and storage significantly reduces efficiency of the power cycle. The aim of the ACS program is to develop advanced oxy-combustion systems capable of achieving power plant efficiencies approaching those of air-fired systems without CO2 capture. Additionally, the program looks to accomplish this while maintaining near zero emissions of other flue gas pollutants.

262

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Solid Oxide Fuel Cells Operating on Solid Oxide Fuel Cells Operating on Alternative and Renewable Fuels- Pennsylvania State University Background In this congressionally directed project, the Earth and Mineral Science (EMS) Energy Institute at Pennsylvania State University (PSU) focuses on the development of fuel processors, reforming catalysts, and chemical sorbents to support the production of electricity from anaerobic digester gas (ADG) and ultra-low sulfur diesel (ULSD) via solid-oxide fuel cells (SOFCs). PSU will use the fuel processors, reforming catalysts, and chemical sorbents developed under this work to transform and clean ADG and ULSD into a syngas stream suitable as a feedstock for SOFCs. This project is managed by the U.S. Department of Energy (DOE) National Energy Technology Laboratory (NETL), whose mission is to advance energy options to fuel

263

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Solid Oxide Fuel Cell Cathode Enhancement Solid Oxide Fuel Cell Cathode Enhancement Through a Vacuum-assisted Infiltration- Materials and Systems Research, Inc. Background Solid oxide fuel cell (SOFC) technology promises to provide an efficient method to generate electricity from coal-derived synthesis gas (syngas), biofuels, and natural gas. The typical SOFC composite cathode (current source) possesses excellent performance characteristics but is subject to chemical stability issues at elevated temperatures both during manufacturing and power generation. Costs attributed to the cathode and its long-term stability issues are a current limitation of SOFC technologies. These must be addressed before commercial SOFC power generation can be realized. Materials and Systems Research, Inc. (MSRI) will develop a vacuum-assisted infiltration

264

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Study of the Durability of Doped Study of the Durability of Doped Lanthanum Manganite and Cobaltite Based Cathode Materials under "Real World" Air Exposure Atmospheres- University of Connecticut Background The mission of the U.S. Department of Energy (DOE) National Energy Technology Laboratory (NETL) is to advance energy options to fuel our economy, strengthen our security, and improve our environment. With the Solid Oxide Fuel Cells (SOFCs) program and systems coordination from the Solid State Energy Conversion Alliance (SECA), DOE/NETL is leading the research, development, and demonstration of SOFCs for both domestic coal and natural gas fueled central generation power systems that enable low cost, high efficiency, near-zero emissions and water usage, and carbon dioxide (CO

265

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Comprehensive Comprehensive Monitoring Techniques to Verify the Integrity of Geological Storage Reservoirs Containing Carbon Dioxide Background Research aimed at monitoring the long-term storage stability and integrity of carbon dioxide (CO2) stored in geologic formations is one of the most pressing areas of need if geological storage is to become a significant factor in meeting the United States' stated objectives to reduce greenhouse gas emissions. The most promising geologic formations under consideration for CO2 storage are active and depleted oil and gas formations, brine formations, and deep, unmineable coal seams. Unfortunately, the long-term CO2 storage capabilities of these formations are not yet well understood. Primary Project Goal The goal of this effort is to develop

266

Albany, OR * Fairbanks, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

SO SO 2 -Resistent Immobilized Amine Sorbents for CO 2 Capture Background Fundamental and applied research on carbon capture and storage (CCS) technologies is necessary to allow the current fleet of coal-fired power plants to comply with existing and emerging environmental regulations. These technologies offer great potential for mitigating carbon dioxide (CO 2 ) emissions into the atmosphere without adversely influencing energy use or hindering economic growth. Deploying these technologies in commercial-scale applications requires a significantly expanded workforce trained in various CCS technical and non-technical disciplines that are currently under-represented in the United States. Education and training activities are needed to develop a future generation of geologists, scientists, and engineers who

267

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Technologies for Monitoring Technologies for Monitoring CO 2 Saturation and Pore Pressure in Geologic Formations: Linking the Chemical and Physical Effects to Elastic and Transport Properties Background Through its core research and development program administered by the National Energy Technology Laboratory (NETL), the U.S. Department of Energy (DOE) emphasizes monitoring, verification, and accounting (MVA), as well as computer simulation and risk assessment, of possible carbon dioxide (CO 2 ) leakage at CO 2 geologic storage sites. MVA efforts focus on the development and deployment of technologies that can provide an accurate accounting of stored CO 2 , with a high level of confidence that the CO 2 will remain stored underground permanently. Effective application of these MVA technologies will ensure the safety of geologic

268

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Monitoring and Numerical Modeling of Monitoring and Numerical Modeling of Shallow CO 2 Injection, Greene County, Missouri Background Increased attention is being placed on research into technologies that capture and store carbon dioxide (CO 2 ). Carbon capture and storage (CCS) technologies offer great potential for reducing CO 2 emissions and, in turn, mitigating global climate change without adversely influencing energy use or hindering economic growth. Deploying these technologies in commercial-scale applications requires a significantly expanded workforce trained in various CCS specialties that are currently under- represented in the United States. Education and training activities are needed to develop a future generation of geologists, scientists, and engineers who possess the

269

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Tagging Carbon Dioxide to Enable Tagging Carbon Dioxide to Enable Quantitative Inventories of Geological Carbon Storage Background Through its core research and development program administered by the National Energy Technology Laboratory (NETL), the U.S. Department of Energy (DOE) emphasizes monitoring, verification, and accounting (MVA), as well as computer simulation and risk assessment, of possible carbon dioxide (CO 2 ) leakage at CO 2 geologic storage sites. MVA efforts focus on the development and deployment of technologies that can provide an accurate accounting of stored CO 2 , with a high level of confidence that the CO 2 will remain stored underground permanently. Effective application of these MVA technologies will ensure the safety of geologic storage projects with respect to both

270

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Nanoporous, Metal Carbide, Surface Nanoporous, Metal Carbide, Surface Diffusion Membranes for High Temperature Hydrogen Separations Background Both coal and biomass are readily available in the U.S. and can be thermally processed to produce hydrogen and/or power. The produced hydrogen can be sent directly to a fuel cell or hydrogen turbines for efficient and environmentally clean power generation. More efficient hydrogen production processes need to be developed before coal and biomass can become economically viable sources of hydrogen. To meet this need, the U.S. Department of Energy (DOE) National Energy Technology Laboratory (NETL) is partnering with the Colorado School of Mines and Pall Corporation to develop nanoporous metal carbide surface diffusion membranes for use in high temperature

271

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Investigation on Flame Characteristics Investigation on Flame Characteristics and Burner Operability Issues of Oxy-Fuel Combustion Background Fundamental and applied research on carbon capture and storage (CCS) technologies is necessary to allow the current fleet of coal-fired power plants to comply with existing and emerging environmental regulations. These technologies offer great potential for mitigating carbon dioxide (CO 2 ) emissions into the atmosphere without adversely influencing energy use or hindering economic growth. Deploying these technologies in commercial-scale applications requires a significantly expanded workforce trained in various CCS technical and non-technical disciplines that are currently underrepresented in the United States. Education and training activities

272

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Object Optimization Approaches Object Optimization Approaches for the Design of Carbon Geological Sequestration Systems Background Increased attention is being placed on research into technologies that capture and store carbon dioxide (CO 2 ). Carbon capture and storage (CCS) technologies offer great potential for reducing CO 2 emissions and, in turn, mitigating global climate change without adversely influencing energy use or hindering economic growth. Deploying these technologies in commercial-scale applications requires a significantly expanded workforce trained in various CCS specialties that are currently under- represented in the United States. Education and training activities are needed to develop a future generation of geologists, scientists, and engineers who possess

273

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Sensors and Control Sensors and Control CONTACTS Ben Chorpening Sensors & Controls Technical Team Coordinator 304-285-4673 benjamin.chorpening@netl.doe.gov Steven Woodruff Principal Investigator 304-285-4175 steven.woodruff@netl.doe.gov Michael Buric Co-Principal Investigator 304-285-2052 michael.buric@netl.doe.gov Raman Gas Composition Sensor System for Natural Gas and Syngas Applications Goal The goal of this project is to develop and test a Raman laser spectroscopy system for responsive gas composition monitoring, and to transfer the technology to industry for commercial implementation. The instrument provides state-of-the-art improvement of reduced size and increased sensitivity and sample rate to facilitate the process control

274

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Joining of Advanced Joining of Advanced High-Temperature Materials Background To remain economically competitive, the coal-fired power generation industry needs to increase system efficiency, improve component and system reliability, and meet ever tightening environmental standards. In particular, cost-effective improvements in thermal efficiency are particularly attractive because they offer two potential benefits: (1) lower variable operating cost via increased fuel utilization (fuel costs represent over 70 percent of the variable operating cost of a fossil fuel-fired power plant) and (2) an economical means of reducing carbon dioxide (CO2) and other emissions. To achieve meaningful gains, steam pressure and temperature must be increased to

275

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Basin-Scale Leakage Risks from Geologic Basin-Scale Leakage Risks from Geologic Carbon Sequestration: Impact on Carbon Capture and Storage Energy Market Competitiveness Background Through its core research and development program administered by the National Energy Technology Laboratory (NETL), the U.S. Department of Energy (DOE) emphasizes monitoring, verification, and accounting (MVA), as well as computer simulation and risk assessment, of possible carbon dioxide (CO 2 ) leakage at CO 2 geologic storage sites. MVA efforts focus on the development and deployment of technologies that can provide an accurate accounting of stored CO 2 , with a high level of confidence that the CO 2 will remain stored underground permanently. Effective application of these MVA technologies will ensure the safety of geologic storage projects with respect to both human health and the

276

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

on Local and Regional Air on Local and Regional Air Quality Impacts of Oil and Natural Gas Development Goal The NETL research effort in improving the assessment of impacts to air quality from oil and gas exploration and production activities has the following goals: (1) using NETL's mobile air monitoring laboratory, conduct targeted on-site measurements of emissions from oil and gas production activities that may impact the environment and (2) use collected data in atmospheric chemistry and transport models to further understanding of local and regional air quality impacts. Background The development of shale gas and shale oil resources requires horizontal drilling and multi-stage hydraulic fracturing, two processes that have been known for many years but have only recently become common practice. In addition, fugitive atmospheric

277

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Evaluation of the Carbon Sequestration Evaluation of the Carbon Sequestration Potential of the Cambro Ordovician Strata of the Illinois and Michigan Basins Background Carbon capture and storage (CCS) technologies offer the potential for reducing CO 2 emissions without adversely influencing energy use or hindering economic growth. Deploying these technologies in commercial-scale applications requires adequate geologic formations capable of (1) storing large volumes of CO 2 , (2) receiving injected CO 2 at efficient and economic rates, and (3) retaining CO 2 safely over extended periods. Research efforts are currently focused on conventional and unconventional storage formations within depositional environments such as: deltaic, fluvial, alluvial, strand- plain, turbidite, eolian, lacustrine, clastic shelf, carbonate shallow shelf, and reef.

278

Albany, OR * Fairbanks, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Air Products and Chemicals, Inc.: Air Products and Chemicals, Inc.: Demonstration of CO2 Capture and Sequestration of Steam Methane Reforming Process Gas Used for Large-Scale Hydrogen Production Background Carbon dioxide (CO2) emissions from industrial processes, among other sources, are linked to global climate change. Advancing development of technologies that capture and store or beneficially reuse CO2 that would otherwise reside in the atmosphere for extended periods is of great importance. Advanced carbon capture, utilization and storage (CCUS) technologies offer significant potential for reducing CO2 emissions and mitigating global climate change, while minimizing the economic impacts of the solution. Under the Industrial Carbon Capture and Storage (ICCS) program, the U.S. Department

279

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Filtration to Improve Single Filtration to Improve Single Crystal Casting Yield-Mikro Systems Background Single crystal (SX) nickel superalloys are a primary material choice for gas turbine hot gas path component castings because of their high resistance to deformation at elevated temperatures. However, the casting yields of these components need to be improved in order to reduce costs and encourage more widespread use within the gas turbine industry. Low yields have been associated with a number of process-related defects common to the conventional casting of SX components. One innovative improvement, advanced casting filter designs, has been identified as a potential path toward increasing the yield rates of SX castings for high-temperature gas turbine applications. Mikro Systems, Inc. (Mikro) proposes to increase SX casting yields by developing

280

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Siemens Energy Siemens Energy Background Siemens Energy, along with numerous partners, has an ongoing U.S. Department of Energy (DOE) program to develop hydrogen turbines for coal-based integrated gasification combined cycle (IGCC) power generation that will improve efficiency, reduce emissions, lower costs, and allow for carbon capture and storage (CCS). Siemens Energy is expanding this program for industrial applications such as cement, chemical, steel, and aluminum plants, refineries, manufacturing facilities, etc., under the American Recovery and Reinvestment Act (ARRA). ARRA funding will be utilized to facilitate a set of gas turbine technology advancements that will improve the efficiency, emissions, and cost performance of turbines for industrial CCS. ARRA industrial technology acceleration,

Note: This page contains sample records for the topic "ky wv tn" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


281

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Engineering Design of Advanced Engineering Design of Advanced Hydrogen-Carbon Dioxide Palladium and Palladium/Alloy Composite Membrane Separations and Process Intensification Background Technologies for pre-combustion carbon dioxide (CO2) capture and economical hydrogen (H2) production will contribute to the development of a stable and sustainable U.S. energy sector. The integrated gasification combined cycle (IGCC) system can produce synthesis gas (syngas) that can be used to produce electricity, hydrogen, fuels, and/or chemicals from coal and coal/biomass-mixtures in an environmentally responsible manner. The water-gas shift (WGS) reaction is a key part of this process for production of H2. The application of H2 separation technology can facilitate the production of high-purity H2 from gasification-based systems, as well as allow for process

282

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Enhancement of SOFC Cathode Electro- Enhancement of SOFC Cathode Electro- chemical Performance Using Multi-Phase Interfaces- University of Wisconsin Background The mission of the U.S. Department of Energy (DOE) National Energy Technology Laboratory (NETL) is to advance energy options to fuel our economy, strengthen our security, and improve our environment. With the Solid Oxide Fuel Cells (SOFCs) program and systems coordination from the Solid State Energy Conversion Alliance (SECA), NETL is leading the research, development, and demonstration of SOFCs for both domestic coal and natural gas fueled central generation power systems that enable low cost, high efficiency, near-zero emissions and water usage, and carbon dioxide (CO 2 ) capture. The electrochemical performance of SOFCs can be substantially influenced by

283

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Computational Materials Design of Computational Materials Design of Castable SX Ni-based Superalloys for IGT Blade Components-QuesTek Innovations Background Higher inlet gas temperatures in industrial gas turbines (IGTs) enable improved thermal efficiencies, but creep-the tendency of materials to deform gradually under stress-becomes more pronounced with increasing temperature. In order to raise inlet temperatures of IGTs, turbine blade materials are required to have superior creep rupture resistance. Nickel (Ni)-based single crystal (SX) blades have higher creep strength in comparison with directionally solidified blades and are widely used in aerospace engines. However, their use in IGTs, which require larger-size castings (two to three times the size needed in aerospace applications), is limited

284

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Combined Pressure, Temperature Combined Pressure, Temperature Contrast, and Surface-Enhanced Separation of Carbon Dioxide (CO 2 ) for Post-Combustion Carbon Capture Background The mission of the U.S. Department of Energy/National Energy Technology Laboratory (DOE/NETL) Carbon Capture Research & Development (R&D) Program is to develop innovative environmental control technologies to enable full use of the nation's vast coal reserves, while at the same time allowing the current fleet of coal-fired power plants to comply with existing and emerging environmental regulations. The Carbon Capture R&D Program portfolio of carbon dioxide (CO 2 ) emissions control tech- nologies and CO 2 compression is focused on advancing technological options for new and existing coal-fired

285

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Thermal Conductivity, High Thermal Conductivity, High Durability Thermal Barrier Coatings for IGCC Environments-University of Connecticut Background Improved turbine materials are needed to withstand higher component surface temperatures and water vapor content for successful development and deployment of integrated gasification combined cycle (IGCC) power plants. Thermal barrier coatings (TBCs) in particular are required to have higher surface temperature capability, lower thermal conductivity, and resistance to attack at high temperature by contaminants such as calcium-magnesium-alumina-silicate (CMAS) and water vapor. There is also a concurrent need to address cost and availability issues associated with rare earth elements used in all low thermal conductivity TBCs.

286

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Reducing Uncertainties in Model Reducing Uncertainties in Model Predictions via History Matching of CO2 Migration and Reactive Transport Modeling of CO2 Fate at the Sleipner Project, Norwegian North Sea Background The overall goal of the Department of Energy's (DOE) Carbon Storage Program is todevelop and advance technologies that will significantly improve the effectiveness of geologic carbon storage, reduce the cost of implementation, and prepare for widespread commercial deployment between 2020 and 2030. Research conducted to develop these technologies will ensure safe and permanent storage of carbon dioxide (CO2) to reduce greenhouse gas (GHG) emissions without adversely affecting energy use or hindering economic growth. Geologic carbon storage involves the injection of CO2 into underground formations

287

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Molecular Separations Using Micro- Molecular Separations Using Micro- Defect Free Ultra-Thin Films Background Current methods for separating carbon dioxide (CO 2 ) from methane (CH 4 ) in fuel gas streams are energy and cost-intensive. Molecular sieve membrane development for carbon capture has been pursued for several decades because of the potential these membranes have for high selectivity while using less energy than cryogenic separation methods and greater flux (permselectivity) than is possible from polymeric membranes. However, the adoption of molecular sieve membrane technology has been hindered by high production costs and the micro-defect fissures that always accompany this type of membrane when fabricated using conventional techniques. The Department of Energy's (DOE) National Energy Technology Laboratory (NETL), has

288

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Characterization of the South Characterization of the South Georgia Rift Basin for Source Proximal CO 2 Storage Background Carbon capture, utilization and storage (CCUS) technologies offer the potential for reducing CO 2 emissions without adversely influencing energy use or hindering economic growth. Deploying these technologies in commercial-scale applications requires adequate geologic formations capable of (1) storing large volumes of CO 2 , (2) receiving injected CO 2 at efficient and economic rates, and (3) retaining CO 2 safely over extended periods. Research efforts are currently focused on conventional and unconventional storage formations within depositional environments such as: deltaic, fluvial, alluvial, strandplain, turbidite, eolian, lacustrine, clastic shelf, carbonate shallow shelf, and reef. Conventional

289

File:EIA-Appalach5-eastWV-LIQ.pdf | Open Energy Information  

Open Energy Info (EERE)

Eastern West Virginia and Western Maryland By 2001 Liquids Reserve Class Eastern West Virginia and Western Maryland By 2001 Liquids Reserve Class Size of this preview: 776 × 600 pixels. Full resolution ‎(6,600 × 5,100 pixels, file size: 18.6 MB, MIME type: application/pdf) Description Appalachian Basin, Eastern West Virginia and Western Maryland By 2001 Liquids Reserve Class Sources Energy Information Administration Authors Samuel H. Limerick; Lucy Luo; Gary Long; David F. Morehouse; Jack Perrin; Robert F. King Related Technologies Oil, Natural Gas Creation Date 2005-09-01 Extent Regional Countries United States UN Region Northern America States West Virginia, Maryland File history Click on a date/time to view the file as it appeared at that time. Date/Time Thumbnail Dimensions User Comment current 17:41, 20 December 2010 Thumbnail for version as of 17:41, 20 December 2010 6,600 × 5,100 (18.6 MB) MapBot (Talk | contribs) Automated bot upload

290

File:EIA-Appalach6-WV-VA-LIQ.pdf | Open Energy Information  

Open Energy Info (EERE)

LIQ.pdf LIQ.pdf Jump to: navigation, search File File history File usage Appalachian Basin, Southern West Virginia and Southwestern Virginia By 2001 Liquids Reserve Class Size of this preview: 776 × 600 pixels. Full resolution ‎(6,600 × 5,100 pixels, file size: 18.77 MB, MIME type: application/pdf) Description Appalachian Basin, Southern West Virginia and Southwestern Virginia By 2001 Liquids Reserve Class Sources Energy Information Administration Authors Samuel H. Limerick; Lucy Luo; Gary Long; David F. Morehouse; Jack Perrin; Robert F. King Related Technologies Oil, Natural Gas Creation Date 2005-09-01 Extent Regional Countries United States UN Region Northern America States West Virginia, Virginia File history Click on a date/time to view the file as it appeared at that time.

291

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

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Laboratory Scale Liquids Production Laboratory Scale Liquids Production and Assessment: Coal and Biomass to Drop-In Fuels Background A major problem with the production of liquid fuels from coal is that the production process and subsequent combustion of the fuel generate excessive greenhouse gases over the entire production and usage lifecycle. Adding lignocellulosic biomass (as a raw feed material) along with coal has the potential to reduce lifecycle greenhouse gas emissions to below those of petroleum products. Altex Technologies Corporation (Altex) has developed an innovative thermo-chemical process capable of converting coal and biomass to transportation fuel ready for blending. The Department of Energy (DOE) National Energy Technology Laboratory (NETL) has partnered with Altex to

292

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

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Carbon Capture and Storage Training Carbon Capture and Storage Training Background Carbon capture, utilization, and storage (CCUS) technologies offer great potential for mitigating carbon dioxide (CO2) emissions emitted into the atmosphere without adversely influencing energy use or hindering economic growth. Deploying these technologies in commercial-scale applications will require a drastically expanded workforce trained in CCUS related disciplines, including geologists, engineers, scientists, and technicians. Training to enhance the existing CCUS workforce and to develop new professionals can be accomplished through focused educational initiatives in the CCUS technology area. Key educational topics include simulation and risk assessment; monitoring, verification, and accounting (MVA); geology-related

293

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

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Andrea Dunn Andrea Dunn Project Manager National Energy Technology Laboratory 626 Cochrans Mill Road P.O. Box 10940 Pittsburgh, PA 15236 412-386-7594 andrea.dunn@netl.doe.gov Marte Gutierrez Principal Investigator Colorado School of Mines 1600 Illinois Street Golden, CO 80401 303-273-3468 Fax: 303-273-3602 mgutierr@mines.edu PROJECT DURATION Start Date 12/01/2009 End Date 5/31/2013 COST Total Project Value $297,505 DOE/Non-DOE Share $297,505 / $0 Government funding for this project is provided in whole or in part through the American Recovery and Reinvestment Act. Training and Research on Probabilistic Hydro-Thermo-Mechanical Modeling of Carbon Dioxide Geological Sequestration in Fractured Porous Rocks Background Fundamental and applied research on carbon capture, utilization and storage (CCUS)

294

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

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Efficiency Efficiency Molten Bed Oxy- Coal Combustion with Low Flue Gas Recirculation Background The Advanced Combustion Systems (ACS) Program of the U.S. Department of Energy/ National Energy Technology Laboratory (DOE/NETL) is aiming to develop advanced oxy- combustion systems that have the potential to improve the efficiency and environmental impact of coal-based power generation systems. Currently available carbon dioxide (CO 2 ) capture and storage technologies significantly reduce the efficiency of the power cycle. The ACS Program is focused on developing advanced oxy-combustion systems capable of achieving power plant efficiencies approaching those of air-fired systems without CO 2 capture. Additionally, the program looks to accomplish this while maintaining near

295

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

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Gasification Characteristics of Gasification Characteristics of Coal/Biomass Mixed Fuels Background Domestically abundant coal is a primary energy source and when mixed with optimum levels of biomass during the production of liquid fuels may have lower carbon footprints compared to petroleum fuel baselines. Coal and biomass mixtures are converted via gasification into synthesis gas (syngas), a mixture of predominantly carbon monoxide and hydrogen, which can be subsequently converted to liquid fuels by Fischer-Tropsch chemistry. The Department of Energy (DOE) is supporting research focused on using coal and biomass to produce clean and affordable power, fuels and chemicals. The DOE's National Energy Technology Laboratory (NETL) is partnering with Leland Stanford Junior

296

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

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Carbonaceous Chemistry for Carbonaceous Chemistry for Computational Modeling (C3M) Description C3M is chemistry management software focused on computational modeling of reacting systems. The primary function of C3M is to provide direct links between r e l i a b l e s o u r c e s o f k i n e t i c information (kinetic modeling soft- ware, databases, and literature) and commonly used CFD software su ch as M FIX , FLUEN T, an d BARRACUDA with minimal effort from the user. C3M also acts as a virtual kinetic laboratory to allow a CFD practitioner or researcher to evaluate complex, large sets of kinetic expressions for reliability and suitability and can interact with spreadsheet and process models. Once the chemical model is built within C3M, the software also allows the user to directly export

297

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

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Phase III Xlerator Program: Electro-deposited Phase III Xlerator Program: Electro-deposited Mn-Co Alloy Coating for Solid Oxide Fuel Cell Interconnects-Faraday Technology Background Based on preliminary cost analysis estimates, Faraday Technology has shown that its FARADAYIC TM electrodeposition process for coating interconnects is cost competitive. Funding from the American Recovery and Reinvestment Act (ARRA) under the Small Business Innovation Research (SBIR) Phase III Xlerator Program will be directed toward developing, optimizing, and validating the FARADAYIC process as an effective and economical manufacturing method for coating interconnect materials with a manganese-cobalt (Mn-Co) alloy for use in solid oxide fuel cell (SOFC) stacks. This project is managed by the U.S. Department of Energy (DOE) National Energy

298

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

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Technology to Mitigate Syngas Technology to Mitigate Syngas Cooler Fouling Background Coal gasification, in conjunction with integrated gasification combined cycle (IGCC) power production, is under development to increase efficiency and reduce greenhouse gas emissions associated with coal-based power production. However, coal gasification plants have not achieved their full potential for superior performance and economics due to challenges with reliability and availability. In particular, performance of the syngas cooler located downstream of the gasifier has been an issue. The syngas cooler is a fire tube heat exchanger located between the gasifier and the gas turbine. The purpose of the syngas cooler is to cool the raw syngas from the gasifier and recover heat. Although

299

Albany, OR * Fairbanks, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

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Processing and Evaluation of Next Processing and Evaluation of Next Generation Oxygen Carrier Materials for Chemical Looping Combustion Background The Department of Energy (DOE) supports research towards the development of efficient and inexpensive CO 2 capture technologies for fossil fuel based power generation. The Department of Energy Crosscutting Research Program (CCR) serves as a bridge between basic and applied research. Projects supported by the Crosscutting Research Program conduct a range of pre-competitive research focused on opening new avenues to gains in power plant efficiency, reliability, and environmental quality by research in materials and processes, coal utilization science, sensors and controls, and computational energy science. Within the CCR, the University Coal Research (UCR) Program sponsors

300

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

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Studies to Enable Robust, Studies to Enable Robust, Reliable, Low Emission Gas Turbine Combustion of High Hydrogen Content Fuels-University of Michigan Background The University of Michigan will perform experimental and computational studies which can provide an improved and robust understanding of the reaction kinetics and other fundamental characteristics of combustion of high hydrogen content (HHC) fuels that are vital to advancing HHC turbine design and to making coal gasification power plants environmentally sustainable and cost- competitive. The scope of work includes Rapid Compression Facility (RCF) studies of HHC ignition delay times and hydroxyl radical (OH) time-histories, flame speeds, and flammability limits. A range of temperatures, pressures, and test gas mixture compositions will

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301

Albany, OR * Fairbanks, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

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Rick Dunst Rick Dunst Project Manager National Energy Technology Laboratory 626 Cochrans Mill Road P.O. Box 10940 MS 922-273C Pittsburgh, PA 15236-0940 412-386-6694 richard.dunst@netl.doe.gov Felicia Manciu Principal Investigator University of Texas at El Paso 500 West University Avenue El Paso, TX 79968-8900 915-747-5715 fsmanciu@utep.edu PROJECT DURATION Start Date 01/15/2009 End Date 12/15/2013 COST Total Project Value $249,546 DOE/Non-DOE Share $249,546 / $0

302

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

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Environmental Considerations and Environmental Considerations and Cooling Strategies for Vane Leading Edges in a Syngas Environment- University of North Dakota Background Cooling airfoil leading edges of modern first stage gas turbine vanes presents a con- siderable challenge due to the aggressive heat transfer environment and efficiency penalties related to turbine hot gas path cooling. This environment is made more complex when natural gas is replaced by high hydrogen fuels (HHF) such as synthesis gas (syngas) derived from coal gasification with higher expected levels of impurities. In this project the University of North Dakota (UND) and The Ohio State University (OSU) will explore technology opportunities to improve the reliability of HHF gas turbines by analyzing the effects

303

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

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Alternative Low-Cost Process for Alternative Low-Cost Process for Deposition of MCrAlY Bond Coats for Advanced Syngas/Hydrogen Turbine Applications-Tennessee Technological University Background One of the material needs for the advancement of integrated gasification combined cycle (IGCC) power plants is the development of low-cost effective manufacturing processes for application of coating architectures with enhanced performance and durability in coal derived synthesis gas (syngas)/hydrogen environments. Thermal spray technologies such as air plasma spray (APS) and high-velocity oxy-fuel (HVOF) are currently used to fabricate thermal barrier coating (TBC) systems for large land- based turbine components. In this research Tennessee Technological University (TTU) will develop metal chromium-aluminum-yttrium (MCrAlY; where M = nickel [Ni], cobalt

304

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

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Solid-Fueled Pressurized Chemical Solid-Fueled Pressurized Chemical Looping with Flue-Gas Turbine Combined Cycle for Improved Plant Efficiency and CO2 Capture Background The Advanced Combustion Systems (ACS) Program of the U.S. Department of Energy/ National Energy Technology Laboratory (DOE/NETL) is aiming to develop advanced oxy- combustion systems that have the potential to improve the efficiency and environmental impact of coal-based power generation systems. Currently available carbon dioxide (CO2) capture and storage technologies significantly reduce the efficiency of the power cycle. The ACS Program is focused on developing advanced oxy-combustion systems capable of achieving power plant efficiencies approaching those of air-fired systems without CO2 capture. Additionally, the program looks to accomplish this while

305

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

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Hafnia-Based Nanostructured Hafnia-Based Nanostructured Thermal Barrier Coatings for Advanced Hydrogen Turbine Technology- University of Texas at El Paso Background Thermal barrier coatings (TBCs) are protective layers of low thermal conductivity ceramic refractory material that protect gas turbine components from high temperature exposure. TBCs improve efficiency by allowing gas turbine components to operate at higher temperatures and are critical to future advanced coal-based power generation systems. Next generation gas turbine engines must tolerate fuel compositions ranging from natural gas to a broad range of coal-derived synthesis gasses (syngas) with high hydrogen content. This will require TBCs to withstand surface temperatures much higher than those currently experienced by standard materials. In this project the University of Texas at El Paso (UTEP)

306

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

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Direct Utilization of Coal Syngas in High Direct Utilization of Coal Syngas in High Temperature Fuel Cells-West Virginia University Background The mission of the U.S. Department of Energy (DOE) National Energy Technology Laboratory (NETL) is to advance energy options to fuel our economy, strengthen our security, and improve our environment. With the Solid Oxide Fuel Cells (SOFCs) program and systems coordination from the Solid State Energy Conversion Alliance (SECA), DOE/ NETL is leading the research, development, and demonstration SOFCs for both domestic coal and natural gas fueled central generation power systems that enable low cost, high efficiency, near-zero emissions and water usage, and carbon dioxide (CO 2 ) capture. West Virginia University's (WVU) project will establish the tolerance limits of contaminant

307

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

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and Geotechnical Site and Geotechnical Site Investigations for the Design of a CO2 Rich Flue Gas Direct Injection and Storage Facility in an Underground Mine in the Keweenaw Basalts Background Fundamental and applied research on carbon capture, utilization and storage (CCUS) technologies is necessary in preparation for future commercial deployment. These technologies offer great potential for mitigating carbon dioxide (CO2) emissions into the atmosphere without adversely influencing energy use or hindering economic growth. Deploying these technologies in commercial-scale applications requires a significantly expanded workforce trained in various CCUS technical and non-technical disciplines that are currently under-represented in the United States. Education and training

308

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

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National Risk Assessment Partnership National Risk Assessment Partnership The Need for Quantitative Risk Assessment for Carbon Utilization and Storage Carbon utilization and storage-the injection of carbon dioxide (CO2) into permanent underground and terrestrial storage sites-is an important part of our nation's strategy for managing CO2 emissions. Several pilot- to intermediate-scale carbon storage projects have been performed in the U.S. and across the world. However, some hurdles still exist before carbon storage becomes a reality in the U.S. at a large scale. From a technical point of view, carbon storage risk analysis is complicated by the fact that all geologic storage sites are not created equally. Every potential site comes with an individual set of characteristics, including type of storage formation, mineral make-

309

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

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Model Development-LG Fuel Model Development-LG Fuel Cell Systems Background In this congressionally directed project, LG Fuel Cell Systems Inc. (LGFCS), formerly known as Rolls-Royce Fuel Cell Systems (US) Inc., is developing a solid oxide fuel cell (SOFC) multi-physics code (MPC) for performance calculations of their fuel cell structure to support product design and development. The MPC is based in the computational fluid dynamics software package STAR-CCM+ (from CD-adapco) which has been enhanced with new models that allow for coupled simulations of fluid flow, porous flow, heat transfer, chemical, electrochemical and current flow processes in SOFCs. Simulations of single cell, five-cell, substrate and bundle models have been successfully validated against experimental data obtained by LGFCS. The MPC is being

310

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

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of the Highest- of the Highest- Priority Geologic Formations for CO 2 Storage in Wyoming Background Carbon capture and storage (CCS) technologies offer the potential for reducing CO 2 emissions without adversely influencing energy use or hindering economic growth. Deploying these technologies in commercial-scale applications requires adequate geologic formations capable of (1) storing large volumes of CO 2 , (2) receiving injected CO 2 at efficient and economic rates, and (3) retaining CO 2 safely over extended periods. Research efforts are currently focused on conventional and unconventional storage formations within depositional environments such as: deltaic, fluvial, alluvial, strand- plain, turbidite, eolian, lacustrine, clastic shelf, carbonate shallow shelf, and reef.

311

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

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Assessment of Factors Influencing Assessment of Factors Influencing Effective CO2 Storage Capacity and Injectivity in Eastern Gas Shales Background The overall goal of the Department of Energy's (DOE) Carbon Storage Program is to develop and advance technologies that will significantly improve the effectiveness of geologic carbon storage, reduce the cost of implementation, and prepare for widespread commercial deployment between 2020 and 2030. Research conducted to develop these technologies will ensure safe and permanent storage of carbon dioxide (CO2) to reduce greenhouse gas (GHG) emissions without adversely affecting energy use or hindering economic growth. Geologic carbon storage involves the injection of CO2 into underground formations that have the ability to securely contain the CO2 permanently. Technologies being

312

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

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Reflection Reflection Seismic Monitoring and Reservoir Modeling for Geologic CO2 Sequestration Background Through its core research and development program administered by the National Energy Technology Laboratory (NETL), the U.S. Department of Energy (DOE) emphasizes monitoring, verification, and accounting (MVA), as well as computer simulation and risk assessment, of possible carbon dioxide (CO 2 ) leakage at CO 2 geologic storage sites. MVA efforts focus on the development and deployment of technologies that can provide an accurate accounting of stored CO 2 , with a high level of confidence that the CO 2 will remain stored underground permanently. Effective application of these MVA technologies will ensure the safety of geologic storage projects with respect to both

313

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

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Dry Sorbent Technology Dry Sorbent Technology for Pre-Combustion CO 2 Capture Background An important component of the Department of Energy (DOE) Carbon Capture Program is the development of carbon capture technologies for power systems. Capturing carbon dioxide (CO 2 ) from mixed-gas streams is a first and critical step in carbon sequestration. To be technically and economically viable, a successful separation method must be applicable to industrially relevant gas streams at realistic temperatures and practical CO 2 loading volumes. Current technologies that are effective at separating CO 2 from typical CO 2 -containing gas mixtures, such as coal-derived shifted synthesis gas (syngas), are both capital and energy intensive. Research and development is being conducted to identify technologies that will provide improved economics and

314

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

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Gas Turbine Thermal Gas Turbine Thermal Performance-Ames Laboratory Background Developing turbine technologies to operate on coal-derived synthesis gas (syngas), hydrogen fuels, and oxy-fuels is critical to the development of advanced power gener-ation technologies such as integrated gasification combined cycle and the deployment of near-zero-emission type power plants with capture and separation of carbon dioxide (CO 2 ). Turbine efficiency and service life are strongly affected by the turbine expansion process, where the working fluid's high thermal energy gas is converted into mechanical energy to drive the compressor and the electric generator. The most effective way to increase the efficiency of the expansion process is to raise the temperature of the turbine's

315

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

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Statistical Analysis of CO2 Exposed Wells Statistical Analysis of CO2 Exposed Wells to Predict Long Term Leakage through the Development of an Integrated Neural-Genetic Algorithm Background The overall goal of the Department of Energy's (DOE) Carbon Storage Program is to develop and advance technologies that will significantly improve the effectiveness of geologic carbon storage, reduce the cost of implementation, and prepare for widespread commercial deployment between 2020 and 2030. Research conducted to develop these technologies will ensure safe and permanent storage of carbon dioxide (CO2) to reduce greenhouse gas (GHG) emissions without adversely affecting energy use or hindering economic growth. Geologic carbon storage involves the injection of CO2 into underground formations that have the ability to securely contain the CO2 permanently. Technologies being

316

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

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Geological Sequestration Geological Sequestration Consortium-Development Phase Illinois Basin - Decatur Project Site Background The U.S. Department of Energy Regional Carbon Sequestration Partnership (RCSP) Initiative consists of seven partnerships. The purpose of these partnerships is to determine the best regional approaches for permanently storing carbon dioxide (CO2) in geologic formations. Each RCSP includes stakeholders comprised of state and local agencies, private companies, electric utilities, universities, and nonprofit organizations. These partnerships are the core of a nationwide network helping to establish the most suitable technologies, regulations, and infrastructure needs for carbon storage. The partnerships include more than 400 distinct organizations, spanning 43 states

317

Albany, OR * Fairbanks, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

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CONTACT CONTACT Cathy Summers Director, Process Development Division National Energy Technology Laboratory 1450 Queen Ave., SW Albany, OR 97321-2198 541-967-5844 cathy.summers@netl.doe.gov An Integrated Approach To Materials Development Traditional trial-and-error method in materials development is time consuming and costly. In order to speed up materials discovery for a variety of energy applications, an integrated approach for multi-scale materials simulations and materials design has

318

Albany, OR * Fairbanks, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

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Large Scale Simulations of the Large Scale Simulations of the Mechanical Properties of Layered Transition Metal Ternary Compounds for FE Power Systems Background The U.S. Department of Energy (DOE) promotes the advancement of computational capabilities to develop materials for advanced fossil energy power systems. The DOE's National Energy Technology Laboratory (NETL) Advanced Research (AR) Program is working to enable the next generation of Fossil Energy (FE) power systems. The goal of

319

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

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Investigations and Investigations and Rational Design of Durable High- Performance SOFC Cathodes- Georgia Institute of Technology Background The mission of the U.S. Department of Energy (DOE) National Energy Technology Laboratory (NETL) is to advance energy options to fuel our economy, strengthen our security, and improve our environment. With the Solid Oxide Fuel Cells (SOFCs) program and systems coordination from the Solid State Energy Conversion Alliance (SECA), DOE/ NETL is leading the research, development, and demonstration of solid SOFCs for both domestic coal and natural gas fueled central generation power systems that enable low cost, high efficiency, near-zero emissions and water usage, and carbon dioxide (CO 2 ) capture. Cathode durability is critical to long-term SOFC performance for commercial deployment.

320

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

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Oxygen Carriers for Coal-Fueled Oxygen Carriers for Coal-Fueled Chemical Looping Combustion Background Fundamental and applied research on carbon capture and storage (CCS) technologies is necessary to allow the current fleet of coal-fired power plants to comply with existing and emerging environmental regulations. These technologies offer great potential for mitigating carbon dioxide (CO 2 ) emissions into the atmosphere without adversely influencing energy use or hindering economic growth. Deploying these technologies in commercial-scale applications requires a significantly expanded workforce trained in various CCS technical and non-technical disciplines that are currently under-represented in the United States. Education and training activities are needed to develop a future generation of geologists, scientists, and engineers who

Note: This page contains sample records for the topic "ky wv tn" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


321

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

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Novel Supercritical Carbon Dioxide Novel Supercritical Carbon Dioxide Power Cycle Utilizing Pressurized Oxy-combustion in Conjunction with Cryogenic Compression Background The Advanced Combustion Systems (ACS) Program of the U.S. Department of Energy/ National Energy Technology Laboratory (DOE/NETL) is aiming to develop advanced oxy- combustion systems that have the potential to improve the efficiency and environmental impact of coal-based power generation systems. Currently available carbon dioxide (CO2) capture and storage technologies significantly reduce the efficiency of the power cycle. The ACS Program is focused on developing advanced oxy-combustion systems capable of achieving power plant efficiencies approaching those of air-fired systems without CO2 capture. Additionally, the program looks to accomplish this while maintaining near

322

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

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Geological & Environmental Sciences Geological & Environmental Sciences Subsurface Experimental Laboratories Autoclave and Core Flow Test Facilities Description Researchers at NETL study subsurface systems in order to better characterize and understand gas-fluid-rock and material interactions that impact environmental and resource issues related to oil, gas, and CO2 storage development. However, studying the wide variety of subsurface environments related to hydrocarbon and CO2 systems requires costly and technically challenging tools and techniques. As a result, NETL's Experimental Laboratory encompasses multi-functional, state-of-the-art facilities that perform a wide spectrum of geological studies providing an experimental basis for modeling of various subsurface phenomena and processes. This includes, but is not

323

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

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Improving Durability of Turbine Components through Trenched Film Cooling and Contoured Endwalls-University of Texas at Austin Background Gas turbine operation utilizing coal-derived high hydrogen fuels (synthesis gas, or syngas) requires new cooling configurations for turbine components. The use of syngas is likely to lead to degraded cooling performance resulting from rougher surfaces and partial blockage of film cooling holes. In this project the University of Texas at Austin (UT) in cooperation with The Pennsylvania State University (Penn State) will investigate the development of new film cooling and endwall cooling designs for maximum performance when subjected to high levels of contaminant depositions. This project was competitively selected under the University Turbine Systems Research

324

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

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Single-Crystal Sapphire Optical Fiber Single-Crystal Sapphire Optical Fiber Sensor Instrumentation for Coal Gasifiers Background Accurate temperature measurement inside a coal gasifier is essential for safe, efficient, and cost-effective operation. However, current sensors are prone to inaccurate readings and premature failure due to harsh operating conditions including high temperatures (1,200-1,600 degrees Celsius [°C]), high pressures (up to 1000 pounds per square inch gauge [psig]), chemical corrosiveness, and high flow rates, all of which lead to corrosion, erosion, embrittlement, and cracking of gasifier components as well as sensor failure. Temperature measurement is a critical gasifier control parameter because temperature is a critical factor influencing the gasification and it leads to impacts in efficiency and

325

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

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Unraveling the Role of Transport, Unraveling the Role of Transport, Electrocatalysis, and Surface Science in the SOFC Cathode Oxygen Reduction Reaction-Boston University Background The mission of the U.S. Department of Energy (DOE) National Energy Technology Laboratory (NETL) is to advance energy options to fuel our economy, strengthen our security, and improve our environment. With the Solid Oxide Fuel Cells (SOFCs) program and systems coordination from the Solid State Energy Conversion Alliance (SECA), DOE/NETL is leading the research, development, and demonstration of SOFCs for both domestic coal and natural gas fueled central generation power systems that enable low cost, high efficiency, near-zero emissions and water usage, and carbon dioxide (CO 2 ) capture The electrochemical performance of SOFCs can be substantially influenced by

326

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

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Low-Swirl Injectors for Hydrogen Gas Low-Swirl Injectors for Hydrogen Gas Turbines in Near-Zero Emissions Coal Power Plants-Lawrence Berkeley National Laboratory Background The U.S. Department of Energy Hy(DOE) Lawrence Berkeley National Laboratory (LBNL) is leading a project in partnership with gas turbine manufacturers and universities to develop a robust ultra-low emission combustor for gas turbines that burn high hydrogen content (HHC) fuels derived from gasification of coal. A high efficiency and ultra-low emissions HHC fueled gas turbine is a key component of a near-zero emis- sions integrated gasification combined cycle (IGCC) clean coal power plant. This project is managed by the DOE National Energy Technology Laboratory (NETL). NETL is researching advanced turbine technology with the goal of producing reliable,

327

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

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Demonstration of a Coal-Based Demonstration of a Coal-Based Transport Gasifier Background Coal is an abundant and indigenous energy resource and currently supplies almost 38 percent of the United States' electric power. Demand for electricity, vital to the nation's economy and global competitiveness, is projected to increase by almost 28 percent by 2040. The continued use of coal is essential for providing an energy supply that supports sustainable economic growth. Unfortunately, nearly half of the nation's electric power generating infrastructure is more than 30 years old and in need of substantial refurbishment or replacement. Additional capacity must also be put in service to keep pace with the nation's ever-growing demand for electricity. It is in the public interest

328

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

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Foamed Wellbore Cement Foamed Wellbore Cement Stability under Deep Water Conditions Background Foamed cement is a gas-liquid dispersion that is produced when an inert gas, typically nitrogen, is injected into a conventional cement slurry to form microscopic bubbles. Foamed cements are ultralow-density systems typically employed in formations that are unable to support annular hydrostatic pressure exerted by conventional cement slurries. More recently, the use of foamed cement has expanded into regions with high-stress environments, for example, isolating problem formations typical in the Gulf of Mexico. In addition to its light-weight application, foamed cement has a unique resistance to temperature and pressure-induced stresses. Foamed cement exhibits superior fluid

329

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Scale Computational Design and Scale Computational Design and Synthesis of Protective Smart Coatings for Refractory Metal Alloys Background The goal of the University Coal Research (UCR) Program within the Department of Energy (DOE) National Energy Technology Laboratory (NETL) is to further the understanding of coal utilization. Since the program's inception in 1979, its primary objectives have been to (1) improve understanding of the chemical and physical processes involved in the conversion and utilization of coal so it can be used in an environmentally acceptable manner, (2) maintain and upgrade the coal research capabilities of and facilities at U.S. colleges and universities, and (3) support the education of students in the area of coal science. The National Energy Technology Laboratory's Office of Coal and Power Systems supports

330

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Conversion of CO2 in Commercial Conversion of CO2 in Commercial Materials using Carbon Feedstocks Background The Department of Energy's (DOE) Carbon Storage Program encompasses five Technology Areas: (1) Geologic Storage and Simulation and Risk Assessment (GSRA), (2) Monitoring, Verification, Accounting and Assessment (MVAA), (3) Carbon Dioxide (CO2) Use and Re-Use, (4) Regional Carbon Sequestration Partnerships (RCSP), and (5) Focus Areas for Sequestration Science. The first three Technology Areas comprise the Core Research and Development (R&D), which includes studies ranging from applied laboratory to pilot-scale research focused on developing new technologies and systems for greenhouse gas (GHG) mitigation through carbon storage. This project is part of the Core R&D CO2 Use and Re-use Technology Area and focuses on developing pathways

331

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Experimental and Chemical Kinetics Experimental and Chemical Kinetics Study of the Combustion of Syngas and High Hydrogen Content Fuels- Pennsylvania State University Background Pennsylvania State University is teaming with Princeton University to enhance scientific understanding of the underlying factors affecting combustion for turbines in integrated gasification combined cycle (IGCC) plants operating on synthesis gas (syngas). The team is using this knowledge to develop detailed, validated combustion kinetics models that are useful to support the design and future research and development needed to transition to fuel flexible operations, including high hydrogen content (HHC) fuels derived from coal syngas, the product of gasification of coal. This project also funda- mentally seeks to resolve previously reported discrepancies between published ex-

332

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

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Coating Issues in Coal-Derived Synthesis Coating Issues in Coal-Derived Synthesis Gas/Hydrogen-Fired Turbines-Oak Ridge National Laboratory Background The Department of Energy (DOE) Oak Ridge National Laboratory (ORNL) is leading research on the reliable operation of gas turbines when fired with synthesis gas (syngas) and hydrogen-enriched fuel gases with respect to firing temperature and fuel impurity levels (water vapor, sulfur, and condensable species). Because syngas is derived from coal, it contains more carbon and more impurities than natural gas. In order to achieve the desired efficiency, syngas-fired systems need to operate at very high temperatures but under combustion conditions necessary to reduce nitrogen oxide (NO X ) emissions. ORNL's current project is focused on understanding the performance of high-

333

Albany, OR * Fairbanks, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

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Diode Laser Cladding of High Diode Laser Cladding of High Temperature Alloys Used in USC Coal- Fired Boilers Background The Advanced Research (AR) Materials Program addresses materials requirements for all fossil energy systems, including materials for advanced power generation and coal fuels technologies. Examples of these technologies include coal gasification, heat engines such as turbines, combustion systems, fuel cells, hydrogen production, and carbon capture

334

File:EIA-Appalach5-eastWV-GAS.pdf | Open Energy Information  

Open Energy Info (EERE)

Eastern West Virginia and Western Maryland By 2001 Gas Reserve Class Eastern West Virginia and Western Maryland By 2001 Gas Reserve Class Size of this preview: 776 × 600 pixels. Full resolution ‎(6,600 × 5,100 pixels, file size: 18.18 MB, MIME type: application/pdf) Description Appalachian Basin, Eastern West Virginia and Western Maryland By 2001 Gas Reserve Class Sources Energy Information Administration Authors Samuel H. Limerick; Lucy Luo; Gary Long; David F. Morehouse; Jack Perrin; Robert F. King Related Technologies Oil, Natural Gas Creation Date 2005-09-01 Extent Regional Countries United States UN Region Northern America States West Virginia, Maryland File history Click on a date/time to view the file as it appeared at that time. Date/Time Thumbnail Dimensions User Comment current 17:41, 20 December 2010 Thumbnail for version as of 17:41, 20 December 2010 6,600 × 5,100 (18.18 MB) MapBot (Talk | contribs) Automated bot upload

335

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Electrochemical Processes Electrochemical Processes for CO2 Capture and Conversion to Commodity Chemicals Background The Department of Energy's (DOE) Carbon Storage Program encompasses five Technology Areas: (1) Geologic Storage and Simulation and Risk Assessment (GSRA), (2) Monitoring, Verification, Accounting and Assessment (MVAA), (3) Carbon Dioxide (CO2) Use and Re-Use, (4) Regional Carbon Sequestration Partnerships (RCSP), and (5) Focus Areas for Sequestration Science. The first three Technology Areas comprise the Core Research and Development (R&D), which includes studies ranging from applied laboratory to pilot-scale research focused on developing new technologies and systems for greenhouse gas (GHG) mitigation through carbon storage. This project is part of the

336

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Preparation and Testing of Corrosion- Preparation and Testing of Corrosion- and Spallation-Resistant Coatings- University of North Dakota Background The life of turbine components is a significant issue in gas fired turbine power systems. In this project the University of North Dakota (UND) will advance the maturity of a process capable of bonding oxide-dispersion strengthened alloy coatings onto nickel-based superalloy turbine parts. This will substantially improve the lifetimes and maximum use temperatures of parts with and without thermal barrier coatings (TBCs). This project is laboratory research and development and will be performed by UND at their Energy & Environmental Research Center (EERC) facility and the Department of Mechanical Engineering. Some thermal cycle testing will occur at Siemens Energy

337

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Integrated Assessment Model for Predicting Integrated Assessment Model for Predicting Potential Risks to Groundwater and Surface Water Associated with Shale Gas Development Background The EPAct Subtitle J, Section 999A-999H established a research and development (R&D) program for ultra-deepwater and unconventional natural gas and other petroleum resources. This legislation identified three program elements to be administered by a consortium under contract to the U.S. Department of Energy. Complementary research performed by the National Energy Technology Laboratory's (NETL) Office of Research and Development (ORD) is a fourth program element of this cost-shared program. NETL was also tasked with managing the consortium: Research Partnership to Secure Energy for America (RPSEA). Historically, the Complementary R&D Program being carried out by NETL's ORD has focused

338

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Demonstration of Enabling Spar-Shell Demonstration of Enabling Spar-Shell Cooling Technology in Gas Turbines - Florida Turbine Technologies Background The Florida Turbine Technologies (FTT) spar-shell gas turbine airfoil concept has an internal structural support (the spar) and an external covering (the shell). This concept allows the thermal-mechanical and aerodynamic requirements of the airfoil design to be considered separately, thereby enabling the overall design to be optimized for the harsh environment these parts are exposed to during operation. Such optimization is one of the major advantages of the spar-shell approach that is not possible with today's conventional monolithic turbine components. The proposed design integrates a novel cooling approach based on Advanced Recircu-

339

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Los Alamos National Laboratory - Los Alamos National Laboratory - Advancing the State of Geologic Sequestration Technologies towards Commercialization and Pre-Combustion Capture Goals Background The U.S. Department of Energy's (DOE) National Energy Technology Laboratory (NETL) is helping to develop technologies to capture, separate, and store carbon dioxide (CO 2 ) to aid in reducing greenhouse gas (GHG) emissions without adversely influencing energy use or hindering economic growth. Carbon capture and sequestration (CCS) - the capture of CO 2 from large point sources and subsequent injection into deep geologic formations for permanent storage - is one option that is receiving considerable attention. NETL is devoted to improving geologic carbon sequestration technology by funding research projects aimed at removing barriers to commercial-scale

340

Albany, OR * Fairbanks, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Solid Oxide Fuel Cell Cathodes: Solid Oxide Fuel Cell Cathodes: Unraveling the Relationship among Structure, Surface Chemistry, and Oxygen Reduction-Boston University Background The mission of the U.S. Department of Energy (DOE) National Energy Technology Laboratory (NETL) is to advance energy options to fuel our economy, strengthen our security, and improve our environment. With the Solid Oxide Fuel Cells (SOFCs) program and systems coordination from the Solid State Energy Conversion Alliance (SECA), DOE/NETL is leading the research, development, and demonstration of SOFCs for both domestic coal and natural gas fueled central generation power systems that enable low cost, high efficiency, near-zero emissions and water usage, and carbon dioxide (CO 2 ) capture The Boston University (BU) project was competitively selected to acquire the fundamental

Note: This page contains sample records for the topic "ky wv tn" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


341

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Materials for Robust Repair Materials for Robust Repair of Leaky Wellbores in CO2 Storage Formations Background The overall goal of the Department of Energy's (DOE) Carbon Storage Program is to develop and advance technologies that will significantly improve the effectiveness of geologic carbon storage, reduce the cost of implementation, and prepare for widespread commercial deployment between 2020 and 2030. Research conducted to develop these technologies will ensure safe and permanent storage of carbon dioxide (CO2) to reduce greenhouse gas (GHG) emissions without adversely affecting energy use or hindering economic growth. Geologic carbon storage involves the injection of CO2 into underground formations that have the ability to securely contain the CO2 permanently. Technologies being

342

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Oxy-fired Pressurized Fluidized Bed Oxy-fired Pressurized Fluidized Bed Combustor Development and Scale-up for New and Retrofit Coal-fired Power Plants Background The Advanced Combustion Systems (ACS) Program of the U.S. Department of Energy/ National Energy Technology Laboratory (DOE/NETL) is aiming to develop advanced oxy-combustion systems that have the potential to improve the efficiency and environmental impact of coal-based power generation systems. Currently available carbon dioxide (CO2) capture and storage technologies significantly reduce the efficiency of the power cycle. The ACS Program is focused on developing advanced oxy-combustion systems capable of achieving power plant efficiencies approaching those of air-fired systems without CO2 capture. Additionally, the program looks to

343

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Quantification Quantification of Wellbore Leakage Risk Using Non-Destructive Borehole Logging Techniques Background Through its core research and development program administered by the National Energy Technology Laboratory (NETL), the U.S. Department of Energy (DOE) emphasizes monitoring, verification, and accounting (MVA), as well as computer simulation and risk assessment, of possible carbon dioxide (CO 2 ) leakage at CO 2 geologic storage sites. MVA efforts focus on the development and deployment of technologies that can provide an accurate accounting of stored CO 2 , with a high level of confidence that the CO 2 will remain stored underground permanently. Effective application of these MVA technologies will ensure the safety of geologic storage projects with respect to both human health and the

344

Albany, OR * Fairbanks, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Storage Research Storage Research Carbon capture and storage (CCS) is a key component of the U.S. carbon management portfolio. Numerous studies have shown that CCS can account for up to 55 percent of the emissions reductions needed to stabilize and ultimately reduce atmospheric concentrations of CO 2 . NETL's Carbon Storage Program is readying CCS technologies for widespread commercial deployment by 2020. The program's goals are:

345

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Sequestration Sequestration Training and Research Background Increased attention is being placed on research into technologies that capture and store carbon dioxide (CO2). Carbon capture and storage (CCS) technologies offer great potential for reducing CO2 emissions and, in turn, mitigating global climate change without adversely influencing energy use or hindering economic growth. Deploying these technologies in commercial-scale applications requires a significantly expanded workforce trained in various CCS specialties that are currently under- represented in the United States. Education and training activities are needed to develop a future generation of geologists, scientists, and engineers who possess the skills required for implementing and deploying CCS technologies.

346

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Gulf of Mexico Miocene CO Gulf of Mexico Miocene CO 2 Site Characterization Mega Transect Background Carbon capture and storage (CCS) technologies offer the potential for reducing CO 2 emissions without adversely influencing energy use or hindering economic growth. Deploying these technologies in commercial-scale applications requires adequate geologic formations capable of (1) storing large volumes of CO 2 , (2) receiving injected CO 2 at efficient and economic rates, and (3) retaining CO 2 safely over extended periods. Research efforts are currently focused on conventional and unconventional storage formations within depositional environments such as: deltaic, fluvial, alluvial, strandplain, turbidite, eolian, lacustrine, clastic shelf, carbonate shallow shelf, and reef. Conventional storage types are porous permeable clastic or carbonate rocks that have

347

Albany, OR * Fairbanks, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

DOE Leads Collaborative Effort DOE Leads Collaborative Effort to Quantify Environmental Changes that Coincide with Shale Gas Development Background DOE's National Energy Technology Laboratory (NETL) is leading a joint industry/ government research project to document environmental changes that occur during the lifecycle of shale gas development. The research plan calls for one year of environmental monitoring before development takes place to establish baseline conditions and account for seasonal variations. Monitoring then will continue through the different stages of unconventional shale gas development including: road and pad construction, drilling, and hydraulic fracturing, and for at least one year of subsequent production operations. The study will take place at a Range Resources-Appalachia

348

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

General Electric General Electric Background GE Power & Water, along with GE Global Research Center, has an ongoing U.S. Depart- ment of Energy (DOE) program to develop gas turbine technology for coal-based integrated gasification combined cycle (IGCC) power generation that will improve efficiency, reduce emissions, lower costs, and allow for carbon capture and storage (CCS). GE is broadening this development effort, along with expanding applicability to industrial applications such as refineries and steel mills under the American Recovery and Reinvestment Act (ARRA). ARRA funding will be utilized to facilitate a set of gas turbine technology advancements that will improve the efficiency, emissions, and cost performance of turbines with industrial CCS. ARRA industrial technology acceleration,

349

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Livermore National Laboratory Livermore National Laboratory - Advancing the State of Geologic Sequestration Technologies towards Commercialization Background The U.S. Department of Energy's (DOE) National Energy Technology Laboratory (NETL) is helping to develop carbon capture and storage (CCS) technologies to capture, separate, and store carbon dioxide (CO 2 ) in order to reduce green-house gas emissions without adversely influencing energy use or hindering economic growth. Carbon sequestration technologies capture and store CO 2 by injecting and permanently storing it in underground geologic formations. NETL is working to advance geologic carbon sequestration technology by funding research projects that aim to accelerate deployment and remove barriers to commercial-scale carbon sequestration. Lawrence Livermore National Laboratory

350

Albany, OR * Fairbanks, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

r r oj e c t Fac t s Advanced Research Micro-Structured Sapphire Fiber Sensors for Simultaneous Measurements of High Temperature and Dynamic Gas Pressure in Harsh Environments Background Securing a sustainable energy economy by developing affordable and clean energy from coal and other fossil fuels is central to the mission of the U.S. Department of Energy (DOE) National Energy Technology Laboratory (NETL). To further this mission, NETL funds research and development of novel sensors that can function under the

351

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Oxy-Fuel Turbo Machinery Oxy-Fuel Turbo Machinery Development for Energy Intensive Industrial Applications-Clean Energy Systems Background Clean Energy Systems (CES), with support from Siemens Energy and Florida Turbine Technologies (FTT), has an ongoing U.S. Department of Energy (DOE) program to develop an oxy-fuel combustor for highly efficient near zero emission power plants. CES is expanding this development for an industrial-scale, oxy-fuel reheat combustor- equipped intermediate-pressure oxy-fuel turbine (IP-OFT) under the American Recovery and Reinvestment Act (ARRA). Through the design, analysis, and testing of a modified Siemens SGT-900 gas turbine, the team will demonstrate a simple-cycle oxy-fuel system. ARRA funding is accelerating advancement in OFT technology for

352

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Passive Wireless Acoustic Wave Sensors Passive Wireless Acoustic Wave Sensors for Monitoring CO 2 Emissions for Geological Sequestration Sites Background The overall goal of the Department of Energy's (DOE) Carbon Storage Program is to develop and advance technologies that will significantly improve the effectiveness of geologic carbon storage, reduce the cost of implementation, and prepare for widespread commercial deployment between 2020 and 2030. Research conducted to develop these technologies will ensure safe and permanent storage of carbon dioxide (CO 2 ) to reduce greenhouse gas (GHG) emissions without adversely affecting energy use or hindering economic growth. Geologic carbon storage involves the injection of CO 2 into underground formations that have the ability to securely contain the CO

353

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Criteria for Flame- Criteria for Flame- holding Tendencies within Premixer Passages for High Hydrogen Content Fuels-University of California, Irvine Background The gas turbine community must develop low emissions systems while increasing overall efficiency for a widening source of fuels. In this work, the University of California, Irvine (UCI) will acquire the fundamental knowledge and understanding to facilitate the development of robust, reliable, and low emissions combustion systems with expanded high hydrogen content (HHC) fuel flexibility. Specifically, understanding flashback and the subsequent flameholding tendencies associated with geometric features found within combustor fuel/air premixers will enable the development of design guides to estimate flame holding tendencies for lean, premixed emission combustion systems

354

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Combining Space Geodesy, Seismology, Combining Space Geodesy, Seismology, and Geochemistry for MVA of CO2 in Sequestration Background Through its core research and development program administered by the National Energy Technology Laboratory (NETL), the U.S. Department of Energy (DOE) emphasizes monitoring, verification, and accounting (MVA), as well as computer simulation and risk assessment, of possible carbon dioxide (CO2) leakage at CO2 geologic storage sites. MVA efforts focus on the development and deployment of technologies that can provide an accurate accounting of stored CO2, with a high level of confidence that the CO2 will remain stored underground permanently. Effective application of these MVA technologies will ensure the safety of geologic storage projects with respect to both

355

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Enhanced Analytical Simulation Tool for Enhanced Analytical Simulation Tool for CO2 Storage Capacity Estimation and Uncertainty Quantification Background The overall goal of the Department of Energy's (DOE) Carbon Storage Program is to develop and advance technologies that will significantly improve the effectiveness of geologic carbon storage, reduce the cost of implementation, and prepare for widespread commercial deployment between 2020 and 2030. Research conducted to develop these technologies will ensure safe and permanent storage of carbon dioxide (CO2) to reduce greenhouse gas (GHG) emissions without adversely affecting energy use or hindering economic growth. Geologic carbon storage involves the injection of CO2 into underground formations that have the ability to securely contain the CO2 permanently. Technologies being

356

Microsoft Word - 2014 WVSB - WV HS letter (generic for PDF).docx  

NLE Websites -- All DOE Office Websites (Extended Search)

of the Secretary of Energy, I am pleased to announce the opening of the 2014 National Science Bowl, a tournament-style academic competition challenging students in the fields...

357

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Surface-Modified Electrodes: Enhancing Surface-Modified Electrodes: Enhancing Performance Guided by In-Situ Spectroscopy and Microscopy- Stanford University Background The mission of the U.S. Department of Energy (DOE) National Energy Technology Laboratory (NETL) is to advance energy options to fuel our economy, strengthen our security, and improve our environment. With the Solid Oxide Fuel Cells (SOFCs) program and systems coordination from the Solid State Energy Conversion Alliance (SECA), DOE/NETL is leading the research, development, and demonstration of SOFCs for both domestic coal and natural gas fueled central generation power systems that enable low cost, high efficiency, near-zero emissions and water usage, and carbon dioxide (CO 2 ) capture. The electrochemical performance of SOFCs can be substantially influenced by mass and

358

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Large Eddy Simulation Modeling of Large Eddy Simulation Modeling of Flashback and Flame Stabilization in Hydrogen-Rich Gas Turbines using a Hierarchical Validation Approach- University of Texas at Austin Background The focus of this project is the development of advanced large eddy simulation (LES)-based combustion modeling tools that can be used to design low emissions combustors burning high hydrogen content fuels. The University of Texas at Austin (UT) will develop models for two key topics: (1) flame stabilization, lift- off, and blowout when fuel-containing jets are introduced into a crossflow at high pressure, and (2) flashback dynamics of lean premixed flames with detailed description of flame propagation in turbulent core and near-wall flows. The jet- in-crossflow (JICF) configuration is widely used for rapid mixing of reactants

359

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Efficient Efficient Regeneration of Physical and Chemical Solvents for CO 2 Capture Background Fundamental and applied research on carbon capture and storage (CCS) technologies is necessary to allow the current fleet of coal-fired power plants to comply with existing and emerging environmental regulations. These technologies offer great potential for mitigating carbon dioxide (CO 2 ) emissions into the atmosphere without adversely influencing energy use or hindering economic growth. Deploying these technologies in commercial-scale applications requires a significantly expanded workforce trained in various CCS technical and non-technical disciplines that are currently under-represented in the United States. Education and training activities are needed to develop a future generation of geologists, scientists, and engineers who

360

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Commercial Scale CO2 Injection and Commercial Scale CO2 Injection and Optimization of Storage Capacity in the Southeastern United States Background The overall goal of the Department of Energy's (DOE) Carbon Storage Program is to develop and advance technologies that will significantly improve the effectiveness of geologic carbon storage, reduce the cost of implementation, and prepare for widespread commercial deployment between 2020 and 2030. Research conducted to develop these technologies will ensure safe and permanent storage of carbon dioxide (CO2) to reduce greenhouse gas (GHG) emissions without adversely affecting energy use or hindering economic growth. Geologic carbon storage involves the injection of CO2 into underground formations that have the ability to securely contain the CO2 permanently. Technologies being

Note: This page contains sample records for the topic "ky wv tn" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


361

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Turbine Thermal Management-NETL-RUA Turbine Thermal Management-NETL-RUA Background The U.S. Department of Energy (DOE) National Energy Technology Laboratory (NETL) is researching advanced turbine technology with the goal of producing reliable, affordable, and environmentally friendly electric power in response to the nation's increasing energy challenges. With the Hydrogen Turbine Program, NETL is leading the research, development, and demonstration of technologies to achieve power production from high-hydrogen-content fuels derived from coal that is clean, efficient, and cost-effective, and minimizes carbon dioxide (CO 2 ) emissions, and will help maintain the nation's leadership in the export of gas turbine equipment. The NETL Regional University Alliance (RUA) is an applied research collaboration that

362

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Scoping Studies to Evaluate the Benefits Scoping Studies to Evaluate the Benefits of an Advanced Dry Feed System on the Use of Low Rank Coal in Integrated Gasification Combined Cycle Background Gasification of coal or other solid feedstocks (biomass, petroleum coke, etc.) produces synthesis gas (syngas), which can be cleaned and used to produce electricity and a variety of commercial products that support the U.S. economy, decrease U.S. dependence on oil imports, and meet current and future environmental emission standards. The major challenge is cost, which needs to be reduced to make integrated gasification combined cycle (IGCC) technology competitive. An IGCC plant combines a combustion turbine operating on a gasified fuel stream--syngas--with a steam turbine to capture what would otherwise be waste heat. Currently, the estimated cost of power from IGCC is higher than

363

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Reliability and Durability of Materials Reliability and Durability of Materials and Components for SOFCs - Oak Ridge National Laboratory Background The U.S. Department of Energy (DOE) National Energy Technology Laboratory (NETL) has a mission to advance energy options to fuel our economy, strengthen our security, and improve our environment. With the Solid Oxide Fuel Cells (SOFCs) program and systems coordination from the Solid State Energy Conversion Alliance (SECA), DOE/NETL is leading the research, development, and demonstration of SOFCs for both domestic coal and natural gas fueled central generation power systems that enable low cost, high efficiency, near-zero emissions and water usage, and carbon dioxide (CO 2 ) capture. Oak Ridge National Laboratory's (ORNL) project was selected to acquire the fundamental

364

Albany, OR * Anchorage, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

SOFC Protection Coatings Based on a SOFC Protection Coatings Based on a Cost-Effective Aluminization Process- NexTech Materials Background To make solid oxide fuel cell (SOFC) systems easier to manufacture and reduce costs, less expensive stainless steels have been substituted into the stack design as alternatives to ceramic interconnects. Stainless has also been substituted for high-cost, nickel-based superalloys in balance of plant (BOP) components. For successful implementation of these steels, protective coatings are necessary to protect the air-facing metal surfaces from high-temperature corrosion/oxidation and chromium (Cr) volatilization. NexTech Materials Ltd. (NexTech) will develop an aluminide diffusion coating as a low- cost alternative to conventional aluminization processes and evaluate the ability of the

365

Albany, OR * Fairbanks, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Patricia Rawls Patricia Rawls Project Manager National Energy Technology Laboratory 626 Cochrans Mill Road Pittsburgh, PA 15236-0940 412-386-5882 patricia.rawls@netl.doe.gov Sankaran Sundaresan Principal Investigator Princeton University Department of Chemical Engineering Princeton, NJ 08544 609-258-4583 sundar@princeton.edu PROJECT DURATION Start Date 10/01/2011 End Date 09/30/2014 COST Total Project Value $420,366 DOE/Non-DOE Share $300,000 / $120,366 Implementation and Refinement

366

Albany, OR * Fairbanks, AK * Morgantown, WV * Pittsburgh, PA * Sugar Land, TX  

NLE Websites -- All DOE Office Websites (Extended Search)

Methanol Economy Methanol Economy Background Fossil fuels such as coal, oil, and natural gas are composed of hydrocarbons with varying ratios of carbon and hydrogen. Consumption of hydrocarbons derived from fossil fuels is integral to modern day life in the U.S. Hydrocarbons are used as fuels and raw materials in the transportation sector and in many industrial production processes including chemicals, petrochemicals, plastics, pharmaceuticals, agrochemicals, and rubber.

367

Building America Top Innovations Hall of Fame Profile … High Performance Without Increased Cost: Urbane Homes, Louiseville KY  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Urbane's first Urbane's first home, built for $36 per ft 2 in 2008, incorporated both energy efficiency and strategies to reduce building costs. The home won two EnergyValue Housing Awards, and homebuyers began seeking out the builder for energy-efficient, high-quality homes. Building America field projects that demonstrated minimal or cost-neutral impacts for high-performance homes have significantly influenced the housing industry to apply advanced technologies and best practices. In 2006, the U.S. Department of Energy's Building America program set a goal of proving that cost-neutral energy savings of 40% over code were possible at a production scale for new home builders in every U.S. climate zone. Between 2005 and 2010, Building America research partners worked with 34 builders to

368

NJ WY AK AL CA AR CO CT DE FL GA HI ID KS IL IN IA IA KY LA  

Gasoline and Diesel Fuel Update (EIA)

accomplishments accomplishments are impressive in themselves, and associ- ated with each milestone is the expansion of future produc- tion opportunities as another technical barrier is overcome. The extension of recovery opportunities into deep water has established the deep offshore as an area of considerable national significance. A second source of increased supply is gas from coalbed formations. Natural gas production from coalbed methane fields continued to grow in 1996 as projects initiated mainly in the early to mid 1990's matured through the dewatering phase into higher rates of gas production. Coalbed forma- tions contribute almost 1 trillion cubic feet, roughly 5 per- cent, to total U.S. production. Continued production growth from coalbeds is not likely in light of the precipitous drop in new wells completed in coalbed formations since the termination of the production tax

369

NJ WY AK AL CA AR CO CT DE FL GA HI ID KS IL IN IA IA KY LA  

Annual Energy Outlook 2012 (EIA)

857, "Monthly Report of Natural Gas Purchases and Deliveries to Consumers." 0.00-1.99 2.00-2.99 3.00-3.99 4.00-4.99 5.00-5.99 6.00-6.99 7.00+ 15. Average City Gate Price of Natural...

370

 

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

KY Kentucky Total Sum City, County, and SEO Allocations KY Kentucky Total Sum City, County, and SEO Allocations All $ 25,382,500 KY Kentucky State Energy Office $ 10,427,000 KY Bowling Green City $ 585,600 KY Covington City $ 188,500 KY Florence City $ 126,400 KY Frankfort City $ 132,100 KY Henderson City $ 123,100 KY Hopkinsville City $ 143,600 KY Lexington-Fayette City $ 2,753,800 KY Louisville/Jefferson City $ 7,000,400 KY Owensboro City $ 557,200 KY Richmond City $ 145,600 KY Boone County $ 368,100 KY Bullitt County $ 289,900 KY Campbell County $ 351,600 KY Hardin County $ 426,500 KY Kenton County $ 465,200

371

Microsoft PowerPoint - How To Do Business with DOE Charleston WV Nov 14 2011 BOS.pptx  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Office of Small and Disadvantaged Business Utilization (OSDBU) Office of Small and Disadvantaged Business Utilization (OSDBU) Presenter: Nickolas A. Demer Senior Procurement Analyst Business Opportunities Session Charleston, West Virginia November 14, 2011 EVOLUTION OF DOE EVOLUTION OF DOE EVOLUTION OF DOE EVOLUTION OF DOE Manhattan Project - August 1941 - Development of nuclear energy warheads Atomic Energy Act of 1946 - Established the Atomic Energy Commission (AEC) - Established the Atomic Energy Commission (AEC) - Civilian control of atomic energy weapons Atomic Energy Act of 1954 - Empowered AEC to also regulate commercial nuclear power industry 2 EVOLUTION OF DOE EVOLUTION OF DOE EVOLUTION OF DOE EVOLUTION OF DOE Energy Reorganization Act of 1974 - Established Energy Research and Development Administration (ERDA) to manage R&D for nuclear

372

Evaluation of 2 Percent CrMoWV HP/LP Rotor Gap Forging for Single Cylinder Steam Turbine Use  

Science Conference Proceedings (OSTI)

There has been considerable industry interest in developing a single shaft rotor configuration that uses the same rotor in the high-pressure (HP) as well as the Low Pressure (LP) sections of a steam turbine. This report evaluates an HP/LP rotor forging for single cylinder steam turbines.

1998-11-24T23:59:59.000Z

373

1WV Business & Economic Review 1 Summer 2009 Volume 17 Summer 2009 West Virginia University College of Business and Economics  

E-Print Network (OSTI)

Provisions), Article 6a (Motor Vehicle Dealers, Distributors, Wholesalers and Manufacturers), http small employment shares in manufacturing; financial activities; information; trade, transportation share at 1.6 percent. Manufacturing Manufacturing employment in West Virginia in 2008 was 2.4 percentage

Mohaghegh, Shahab

374

Feasibility study of wood-fired cogeneration at a Wood Products Industrial Park, Belington, WV. Phase II  

DOE Green Energy (OSTI)

Customarily, electricity is generated in a utility power plant while thermal energy is generated in a heating/cooling plant; the electricity produced at the power plant is transmitted to the heating/cooling plant to power equipments. These two separate systems waste vast amounts of heat and result in individual efficiencies of about 35%. Cogeneration is the sequential production of power (electrical or mechanical) and thermal energy (process steam, hot/chilled water) from a single power source; the reject heat of one process issued as input into the subsequent process. Cogeneration increases the efficiency of these stand-alone systems by producing these two products sequentially at one location using a small additional amount of fuel, rendering the system efficiency greater than 70%. This report discusses cogeneration technologies as applied to wood fuel fired system.

Vasenda, S.K.; Hassler, C.C.

1992-06-01T23:59:59.000Z

375

KENTUCKY - Energy Information Administration  

U.S. Energy Information Administration (EIA)

beech fork school db martin ky 159 004679 n 1941 beech grove mclean ky 149 051681 o 1948 beech grove east mclean ky 149 051712 o 1950

376

C:\Annual\VENTCHAP.V8\NGA02.vp  

Gasoline and Diesel Fuel Update (EIA)

2002 2002 0.00-1.99 2.00-3.99 4.00-5.99 6.00-7.99 8.00-9.99 10.00-11.99 12.00+ WA ID MT OR CA NV UT AZ NM CO WY ND SD MN WI NE IA KS MO TX IL IN OH MI OK AR TN W VA KY MD PA WI NY VT NH MA CT ME RI NJ DE DC NC SC GA AL MS LA FL HI AK Source: Energy Information Administration (EIA), Form EIA-176, "Annual Report of Natural and Supplemental Gas Supply and Disposition," and Form EIA 910, "Monthly Natural Gas Marketer Survey." 17. Average Price of Natural Gas Delivered to U.S. Commercial Consumers, 2002 (Dollars per Thousand Cubic Feet) Figure 0.00-1.99 2.00-3.99 4.00-5.99 6.00-7.99 8.00-9.99 10.00-11.99 12.00+ WA ID MT OR CA NV UT AZ NM CO WY ND SD MN WI NE IA KS MO TX IL IN OH MI OK AR TN W VA KY MD PA WI NY VT NH MA CT ME RI NJ DE DC NC SC GA AL MS LA FL HI AK 16. Average Price of Natural Gas Delivered to U.S. Residential Consumers, 2002 (Dollars per Thousand Cubic Feet) Figure Source: Energy Information Administration

377

C:\Annual\VENTCHAP.V8\NGA02.vp  

Gasoline and Diesel Fuel Update (EIA)

2 2 0.00-1.99 2.00-3.99 4.00-5.99 6.00-7.99 8.00-9.99 10.00-11.99 12.00+ WA ID MT OR CA NV UT AZ NM CO WY ND SD MN WI NE IA KS MO TX IL IN OH MI OK AR TN W VA KY MD PA WI NY VT NH MA CT ME RI NJ DE DC NC SC GA AL MS LA FL HI AK 18. Average Price of Natural Gas Delivered to U.S. Onsystem Industrial Consumers, 2002 (Dollars per Thousand Cubic Feet) Figure Source: Energy Information Administration (EIA), Form EIA-176, "Annual Report of Natural and Supplemental Gas Supply and Disposition." 0.00-1.99 2.00-3.99 4.00-5.99 6.00-7.99 8.00-9.99 10.00-11.99 12.00+ WA ID MT OR CA NV UT AZ NM CO WY ND SD MN WI NE IA KS MO TX IL IN OH MI OK AR TN W VA KY MD PA WI NY VT NH MA CT ME RI NJ DE DC NC SC GA AL MS LA FL HI AK 19. Average Price of Natural Gas Delivered to U.S. Electric Utilities, 2002 (Dollars per Thousand Cubic Feet) Figure Sources: Federal Energy Regulatory Commission (FERC), Form FERC-423, "Monthly Report of Cost

378

C:\ANNUAL\VENTCHAP.V8\NewNGA02.vp  

Gasoline and Diesel Fuel Update (EIA)

2001 2001 0.00-1.99 2.00-3.99 4.00-5.99 6.00-7.99 8.00-9.99 10.00-11.99 12.00+ WA ID MT OR CA NV UT AZ NM CO WY ND SD MN WI NE IA KS MO TX IL IN OH MI OK AR TN W VA KY MD PA WI NY VT NH MA CT ME RI NJ DE DC NC SC GA AL MS LA FL HI AK Source: Energy Information Administration (EIA), Form EIA-176, "Annual Report of Natural and Supplemental Gas Supply and Disposition." 28. Average Price of Natural Gas Delivered to U.S. Onsystem Residential Consumers, 2001 (Dollars per Thousand Cubic Feet) Figure 0.00-1.99 2.00-3.99 4.00-5.99 6.00-7.99 8.00-9.99 10.00-11.99 12.00+ WA ID MT OR CA NV UT AZ NM CO WY ND SD MN WI NE IA KS MO TX IL IN OH MI OK AR TN W VA KY MD PA WI NY VT NH MA CT ME RI NJ DE DC NC SC GA AL MS LA FL HI AK Note: Commercial prices include natural gas delivered for use as vehicle fuel. Source: Energy Information Administration (EIA), Form EIA-176, "Annual Report of Natural and Supplemental Gas Supply and Disposition."

379

C:\ANNUAL\VENTCHAP.V8\NewNGA02.vp  

Gasoline and Diesel Fuel Update (EIA)

2001 2001 0.00-1.99 2.00-3.99 4.00-5.99 6.00-7.99 8.00-9.99 10.00-11.99 12.00+ WA ID MT OR CA NV UT AZ NM CO WY ND SD MN WI NE IA KS MO TX IL IN OH MI OK AR TN W VA KY MD PA WI NY VT NH MA CT ME RI NJ DE DC NC SC GA AL MS LA FL HI AK Source: Energy Information Administration (EIA), Form EIA-176, "Annual Report of Natural and Supplemental Gas Supply and Disposition." 30. Average Price of Natural Gas Delivered to U.S. Onsystem Industrial Consumers, 2001 (Dollars per Thousand Cubic Feet) Figure 0.00-1.99 2.00-3.99 4.00-5.99 6.00-7.99 8.00-9.99 10.00-11.99 12.00+ WA ID MT OR CA NV UT AZ NM CO WY ND SD MN WI NE IA KS MO TX IL IN OH MI OK AR TN W VA KY MD PA WI NY VT NH MA CT ME RI NJ DE DC NC SC GA AL MS LA FL HI AK 31. Average Price of Natural Gas Delivered to U.S. Electric Utilities, 2001 (Dollars per Thousand Cubic Feet) Figure Sources: Federal Energy Regulatory Commission (FERC), Form FERC-423, "Monthly Report of

380

Microsoft Word - West TN Solar Farm_Final EA.doc  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

6 6 10-088(E)/010511 FINAL ENVIRONMENTAL ASSESSMENT WEST TENNESSEE SOLAR FARM PROJECT HAYWOOD COUNTY, TENNESSEE U.S. Department of Energy National Energy Technology Laboratory Pittsburgh, PA February 2011 DOE/EA-1706 10-088(E)/010511 FINAL ENVIRONMENTAL ASSESSMENT West Tennessee Solar Farm Project Haywood County, Tennessee February 2011 Environmental Assessment for the West Tennessee Solar Farm Project Table of Contents i Table of Contents 1 INTRODUCTION .............................................................................................................................. 1 1.1 VOLUNTEER STATE SOLAR INITIATIVE ....................................................................... 1 1.1.1 Tennessee Solar Institute ........................................................................................ 1

Note: This page contains sample records for the topic "ky wv tn" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


381

Linear Collider Collaboration Tech Notes LCC-0151 SLAC-TN-0-048  

NLE Websites -- All DOE Office Websites (Extended Search)

of whether or not it is reasonable to consider a conventional positron source for a Tesla formatted beam. The critical issue is that of energy deposition in the conversion...

382

Data Sharing Report Characterization of Isotope Row Facilities Oak Ridge National Laboratory Oak Ridge TN  

SciTech Connect

The U.S. Department of Energy (DOE) Oak Ridge Office of Environmental Management (EM-OR) requested that Oak Ridge Associated Universities (ORAU), working under the Oak Ridge Institute for Science and Education (ORISE) contract, provide technical and independent waste management planning support using funds provided by the American Recovery and Reinvestment Act (ARRA). Specifically, DOE EM-OR requested ORAU to plan and implement a survey approach, focused on characterizing the Isotope Row Facilities located at the Oak Ridge National Laboratory (ORNL) for future determination of an appropriate disposition pathway for building debris and systems, should the buildings be demolished. The characterization effort was designed to identify and quantify radiological and chemical contamination associated with building structures and process systems. The Isotope Row Facilities discussed in this report include Bldgs. 3030, 3031, 3032, 3033, 3033A, 3034, 3036, 3093, and 3118, and are located in the northeast quadrant of the main ORNL campus area, between Hillside and Central Avenues. Construction of the isotope production facilities was initiated in the late 1940s, with the exception of Bldgs. 3033A and 3118, which were enclosed in the early 1960s. The Isotope Row facilities were intended for the purpose of light industrial use for the processing, assemblage, and storage of radionuclides used for a variety of applications (ORNL 1952 and ORAU 2013). The Isotope Row Facilities provided laboratory and support services as part of the Isotopes Production and Distribution Program until 1989 when DOE mandated their shutdown (ORNL 1990). These facilities performed diverse research and developmental experiments in support of isotopes production. As a result of the many years of operations, various projects, and final cessation of operations, production was followed by inclusion into the surveillance and maintenance (S&M) project for eventual decontamination and decommissioning (D&D). The process for D&D and final dismantlement of facilities requires that the known contaminants of concern (COCs) be evaluated and quantified and to identify and quantify any additional contaminants in order to satisfy the waste acceptance criteria requirements for the desired disposal pathway. Known facility contaminants include, but are not limited to, asbestos-containing material (ACM), radiological contaminants, and chemical contaminants including polychlorinated biphenyls (PCBs) and metals.

Weaver, Phyllis C

2013-12-12T23:59:59.000Z

383

Approved for public release; distribution is unlimited. ERDC TN-DOER-E31  

E-Print Network (OSTI)

one of our most economically important pests in urban landscapes. Fire Ants cause extensive mounding (black dots show the location of each fire ant colony). Benefits · The ideal set of turf and landscape of landscape plants and turfgrasses can be identified that are repellent to Fire Ant foraging and mound

US Army Corps of Engineers

384

CASI 2011 Work Plan 1 ERDC/CERL TN-11-1 January 2011  

E-Print Network (OSTI)

by natural disasters, purposeful attack, or unusually high demand). When failures occur at various locations and thermal energy storage; n microgrids, ac and dc, including both self-contained, cellu- lar, and universal

US Army Corps of Engineers

385

Approved for public release; distribution is unlimited. ERDC/EL TN-11-4  

E-Print Network (OSTI)

the well was successfully capped (OSAT 2010). This is comparable in magnitude to previous oil spills in U.S due to releases of crude oil from tankers, offshore platforms, drilling rigs and wells. Spills was one of four large oil spills occurring along U.S. coastlines from 1976 to 2010. Depending

US Army Corps of Engineers

386

II United States Government DATE: REPLY TO Al-TN OF: SUBJECT...  

Office of Legacy Management (LM)

for Remedial Action at the Former Baker Brothers Inc. Site, Toledo, Ohio Manager, DOE Oak Ridge Field Office This is to notify you that the Former Baker Brothers, Inc. site...

387

ERDC/CERL TN-13-1 February 2013 Approved for public release; distribution is unlimited.  

E-Print Network (OSTI)

.sirsi.net/client/search/asset:asset?t:ac=$N/1006361 #12;CASI 2013 Work Plan 17 Operational Energy Base Camp Studies: Literature Review of Findings #12;CASI 2013 Work Plan 10 Energy and Water Conservation Assessments: A Field Guide outlines common: IMCOM POC: James Westervelt, CERL #12;CASI 2013 Work Plan 16 Sustainable Energy Solutions Lead: Franklin

US Army Corps of Engineers

388

TN-Gebhren fr Externe 2013/2014 Wir an der Uni  

E-Print Network (OSTI)

Garten: Sind sie noch zu retten? Bedrohte Pflanzen im Botanischen Garten 24.09.2013, von 12:00-13:30 Uhr Dr. Ute Becker kostenfrei 20140090 Besuch im Botanischen Garten: Die sinnliche Seite der Gewürze 09

van Straten, Duco

389

Analysts Grammar or Japanese tn the Nu-ProJect -A Procedural Approach to Analysts Grammar -  

E-Print Network (OSTI)

.Ten|gucht (Kyosera Co.). Hr. A.Kosaka (~EC Co.). Mr. H.Sakamoto (Ok1 Electr|c Co.), MtSS H.Kume (JCS). Hr. N

390

NIST TN 1297: Appen. D6. Uncert. units of the SI  

Science Conference Proceedings (OSTI)

... methods; simple calibration D.5 t p and the quantile t 1-? D.6 Uncertainty and units of the SI; proper use of the SI and quantity and unit symbols D.7 ...

391

The T.N. Thiele Centre for Mathematics in Natural Science,  

E-Print Network (OSTI)

We propose a new measure of risk, based entirely on downwards moves measured using high frequency data. Realised semivariances are shown to have important predictive qualities for future market volatility. The theory of these new measures is spelt out, drawing on some new results from probability theory. Keywords: Market frictions; Quadratic variation; Realised variance; Semimartingale; Semivariance. 1 It was understood that risk relates to an unfortunate event occurring, so for an investment this corresponds to a low, or even negative, return. Thus getting returns in the lower tail of the return distribution constitutes this downside risk. However, it is not easy to get a simple measure of this risk. Quoted from Granger (2008). 1

Ole E. Barndorff-nielsen; Silja Kinnebrock; Neil Shephard

2008-01-01T23:59:59.000Z

392

Microsoft PowerPoint - Camper, ORNL-TN CAB-04-2010-final, via...  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Chairs of the Environmental Management Site- Specific Advisory Board Specific Advisory Board Larry W. Camper, Director Division of Waste Management and Environmental Protection Off...

393

Approved for public release; distribution is unlimited. ERDC TN-DOER-E32  

E-Print Network (OSTI)

Report 262. Washington, DC: National Academy Press. Reine K. J., D. D. Dickerson, and D. G. Clarke. 1998EWsintendedtoprotecttheselectedspecies. BACKGROUND AND PROBLEM: Environmental windows (EWs) associated with dredging operations can be controversial, and monitoring environmental windows for dredging projects. Marine Board, Transportation Research Board. Special

US Army Corps of Engineers

394

Hybrid solar lighting systems and components - Energy ...  

... (Lenoir City, TN), Earl; Dennis D. (Knoxville, TN), Beshears; David L. (Knoxville, TN), Maxey; Lonnie C. (Powell, TN), Jordan; John K. (Oak Ridge, TN), ...

395

Slide 1  

NLE Websites -- All DOE Office Websites (Extended Search)

Summary Summary A composite cathode of a commercial cell was successfully modified with LSZ or LSCo infiltration. Infiltration methodology correlating dosage to structure was developed. Effects of electrocatalytic activity of infiltrated materials on cathode performance were demonstrated. Faradaic method system for ionic conductivity measurement was developed. a U.S. Dept of Energy, National Energy Technology Laboratory, Morgantown, WV 26507 b National Research Council Fellowship, Washington, DC 20001 c URS-Washington, Morgantown, WV 26507 d Oak Ridge Institute for Science and Education Fellowship, Oak Ridge ,TN 37831 2. Electrode overpotential variation for 200 hrs operation (750°C) No significant degradation in cell performance for 200 hrs operation

396

Agriculture and Natural Resources Family and Consumer Sciences 4-H Youth Development Community and Economic Development COOPERATIVE EXTENSION SERVICE UNIVERSITY OF KENTUCKY COLLEGE OF AGRICULTURE, LEXINGTON, KY, 40546  

E-Print Network (OSTI)

.S. gasoline supply is a blend of at least 10 percent ethanol. Bio- dieselisanotherbiofuelthatisbecoming more to heat a home or co-firing bales of biomass with coal in power plants to create electricity. Biomass also

Hayes, Jane E.

397

West Virginia University 1 Governance and Administration  

E-Print Network (OSTI)

, Chairman, Charleston, WV · Edward L. Robinson, Charleston, WV · J. Robert Rogers, Hurricane, WV · Charles M and the Arts, Charleston, WV · David K. Hendrickson, Chairman, Charleston, WV · Paul L. Hill, Chancellor

Mohaghegh, Shahab

398

NETL: News Release - Sonic Waves Help Recover Natural Gas from Clogged  

NLE Websites -- All DOE Office Websites (Extended Search)

19, 2002 19, 2002 Sonic Waves Help Recover Natural Gas from Clogged Storage Sites Could Mean More Gas for Consumers During Winter Sonic Tool The 10-pound sonic tool is intended to remove scale from gas storage wells. MORGANTOWN, WV - Natural gas companies looking for better ways to unclog the wells they use to withdraw gas from underground storage reservoirs may soon be getting "good vibes" from a low-cost sonic cleaning tool. A Department of Energy-sponsored team of companies led by Furness-Newburge Inc. of Versailles, KY, has produced a prototype of a system that uses sound waves to remove inorganic matter and other debris that clog the perforations of gas wells. The technology has the potential to increase significantly the efficiency at which natural gas is withdrawn from storage reservoirs, making a larger

399

EIA - Natural Gas Pipeline Network - Largest Natural Gas Pipeline Systems  

U.S. Energy Information Administration (EIA) Indexed Site

Interstate Pipelines Table Interstate Pipelines Table About U.S. Natural Gas Pipelines - Transporting Natural Gas based on data through 2007/2008 with selected updates Thirty Largest U.S. Interstate Natural Gas Pipeline Systems, 2008 (Ranked by system capacity) Pipeline Name Market Regions Served Primary Supply Regions States in Which Pipeline Operates Transported in 2007 (million dekatherm)1 System Capacity (MMcf/d) 2 System Mileage Columbia Gas Transmission Co. Northeast Southwest, Appalachia DE, PA, MD, KY, NC, NJ, NY, OH, VA, WV 1,849 9,350 10,365 Transcontinental Gas Pipeline Co. Northeast, Southeast Southwest AL, GA, LA, MD, MS, NC, NY, SC, TX, VA, GM 2,670 8,466 10,450 Northern Natural Gas Co. Central, Midwest Southwest IA, IL, KS, NE, NM, OK, SD, TX, WI, GM 1,055 7,442 15,874 Texas Eastern Transmission Corp.

400

,"Kentucky Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

1: Prices" "Sourcekey","N3050KY3","N3010KY3","N3020KY3","N3035KY3","N3045KY3" "Date","Natural Gas Citygate Price in Kentucky (Dollars per Thousand Cubic Feet)","Kentucky Price of...

Note: This page contains sample records for the topic "ky wv tn" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


401

The luxury second home market : an analysis of historical sales and property data at The Greenbrier Resort (White Sulphur Springs, WV)  

E-Print Network (OSTI)

The global economic expansion and subsequent creation of wealth as well as increased purchasing power and disposable income has contributed to the growth in the secondary home market. Over the past decade developers that ...

Kass, Hunter L. (Hunter Lindsay)

2011-01-01T23:59:59.000Z

402

FC Master List.vp:CorelVentura 7 - U.S. Energy Information ...  

U.S. Energy Information Administration (EIA)

022306 Appalachian KY 159 Martin Alias for: (063516) Big Sandy[ALTER] 022306 Appalachian KY 195 Pike Alias for: (116230) Canada DBS[ALTER] 024081 Argo KY 195 Pike 1956 N

403

Task Order Awarded for Environmental Technical Services | Department of  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Environmental Technical Services Environmental Technical Services Task Order Awarded for Environmental Technical Services January 16, 2013 - 12:00pm Addthis Media Contact Bill Taylor, 803-952-8564 bill.taylor@srs.gov Cincinnati - The Department of Energy (DOE) today awarded a task order for environmental technical services to Professional Project Services, Inc., of Oak Ridge, TN, for support services at the Paducah Gaseous Diffusion Plant located near Paducah, KY. The task order was a competitive small business set-aside for time-and-materials with an approximate value of $22.5 million, with a three-year performance period and two additional 1-year options. Services to be performed under the task order include: Project Controls & Baseline Support Quality Assurance Regulatory Compliance

404

Ohio | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

February 1, 2013 February 1, 2013 DOE Awards Small Business Contract for Support, Planning Services to Office of Environmental Management Cincinnati - The Department of Energy (DOE) today awarded a $1.5 million contact (task order) to Trinity Engineering Associates, Inc. of Cincinnati, Ohio for planning and support functions for the Office of Environmental Management. January 16, 2013 Task Order Awarded for Environmental Technical Services Cincinnati - The Department of Energy (DOE) today awarded a task order for environmental technical services to Professional Project Services, Inc., of Oak Ridge, TN, for support services at the Paducah Gaseous Diffusion Plant located near Paducah, KY. December 20, 2012 Researchers at The Ohio State University have developed a groundbreaking new hybrid membrane that could efficiently separate carbon dioxide (CO2) from the gas that comes from burning coal at power plants. | Photo courtesy of Office of Fossil Energy.

405

EM Utility Contracts  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

12 12 EM UTILITY CONTRACT Site State Supplier Executed Contract Type DOE Contract # East Tennessee Technology Park TN Tennessee Valley Authority 4/27/2007 Energy supply contract (retail) DE-AC05-07OR23242 Hanford WA Bonneville Power Administration 10/1/2001 Transmission Service Agreement Hanford WA Bonneville Power Administration 10/1/2011 Power Sales Agreement (retail) Moab UT Paducah KY Electric Energy, Inc. (EEI as agent for DOE) Original Power Contract Portsmouth OH Pike Natural Gas 2/28/2007 Negotiated contract Portsmouth OH Ohio Valley Electric Corporation (OVEC) 9/10/2008 Letter Agreement DE-AC05-03OR22988 Savannah River Site SC South Carolina Electric & Gas

406

DOE Selects 3 Small-Scale Biorefinery Projects for up to $86 Million of  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

3 Small-Scale Biorefinery Projects for up to $86 3 Small-Scale Biorefinery Projects for up to $86 Million of Federal Funding in Maine, Tennessee and Kentucky DOE Selects 3 Small-Scale Biorefinery Projects for up to $86 Million of Federal Funding in Maine, Tennessee and Kentucky April 18, 2008 - 10:49am Addthis Projects Demonstrate Continued Commitment to Advancing Development of Sustainable, Cost-Competitive Cellulosic Ethanol ALEXANDRIA, VA. - U.S. Department of Energy (DOE) Secretary Samuel W. Bodman today announced the competitive selection of three projects in which DOE plans to invest up to $86 million over four years (FY '08 - '11) to support the development of small-scale cellulosic biorefineries in Old Town, ME; Vonore, TN; and Washington County, KY. This funding will further President Bush's goal of making cellulosic ethanol cost-competitive by

407

DOE Seeking Input on Alternative Uses of Nickel Inventory | Department of  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Seeking Input on Alternative Uses of Nickel Inventory Seeking Input on Alternative Uses of Nickel Inventory DOE Seeking Input on Alternative Uses of Nickel Inventory March 9, 2007 - 10:28am Addthis WASHINGTON, DC - The U.S. Department of Energy (DOE) is seeking input from industry representatives on the safe disposition of approximately 15,300 tons of nickel scrap recovered from uranium enrichment process equipment at the Department's Oak Ridge, TN, and Paducah, KY, facilities. The Expression of Interest (EOI), released today, will assist in DOE's evaluation of restricted uses of its nickel material for controlled radiological applications. These restricted uses could include use in commercial nuclear power plants, DOE nuclear facilities, or by the U.S. Navy. The Department will solicit input through May 8, 2007.

408

DOE Seeking Input on Alternative Uses of Nickel Inventory | Department of  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

DOE Seeking Input on Alternative Uses of Nickel Inventory DOE Seeking Input on Alternative Uses of Nickel Inventory DOE Seeking Input on Alternative Uses of Nickel Inventory March 9, 2007 - 10:28am Addthis WASHINGTON, DC - The U.S. Department of Energy (DOE) is seeking input from industry representatives on the safe disposition of approximately 15,300 tons of nickel scrap recovered from uranium enrichment process equipment at the Department's Oak Ridge, TN, and Paducah, KY, facilities. The Expression of Interest (EOI), released today, will assist in DOE's evaluation of restricted uses of its nickel material for controlled radiological applications. These restricted uses could include use in commercial nuclear power plants, DOE nuclear facilities, or by the U.S. Navy. The Department will solicit input through May 8, 2007.

409

Community Reuse Organization | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Community Reuse Organization Community Reuse Organization Community Reuse Organization HANFORD Carl Adrian TRIDEC 7130 West Grandridge Blvd., Suite A Kennewick, WA 99336 (509) 735-1000, ext. 225 (509) 735-6609 (FAX) cadrian@tridec.org LOS ALAMOS Kathy Keith, Executive Director Regional Development Corporation 706 Bond Street Espanola, NM 87532 (505) 820-1226 (505) 983-8654 (FAX) info@rdcnm.org MOUND Mike Grauwelman, President MMCIC P.O. Box 232 Miamisburg, OH 45343-0232 (937) 865-4462 (937) 865-4431 (FAX) mikeg@mound.com OAK RIDGE Lawrence Young, President Community Reuse Organization of East Tennessee 107 Lea Way P.O. Box 2110 Oak Ridge, TN 37831-2110 (865) 482-9890 (865) 482-9891 (FAX) younglt@croet.com PADUCAH Vacant Paducah Area Community Reuse Organization P.O. Box 588 Mayfield, KY 42066 (270) 251-6119

410

2012 Congressional Nuclear Cleanup Caucus Briefings | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

2 Congressional Nuclear Cleanup Caucus Briefings 2 Congressional Nuclear Cleanup Caucus Briefings 2012 Congressional Nuclear Cleanup Caucus Briefings The Congressional Nuclear Cleanup Caucus serves as a way to brief members of Congress and their staff on EM headquarters and site activities, including budget, safety and project progress. 02/16/2012 - FY 2013 Budget Overview 03/07/2012 - Richland Operations Office, WA 03/21/2012 - Oak Ridge, TN 03/22/2012 - Portsmouth/Paducah Project Office, OH-KY 03/27/2012 - Safety Overview with Deputy Assistant Secretary for Safety & Security Program, Matthew Moury 03/28/2012 - Idaho Operations Office, ID 04/18/2012 - Savannah River Site, SC 04/19/2012 - Office of River Protection, WA More Documents & Publications Assistant Secretary Triay's FY 2012 EM Budget Rollout Presentation

411

Portsmouth and Paducah Construction Workers Needs Assessment  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Needs Assessment for Needs Assessment for Medical Screening of Construction Workers at the Portsmouth and Paducah Gaseous Diffusion Plants Introduction In 1993 the U.S. Congress enacted Section 3162 of the Defense Authorization Act, which directed the Department of Energy (DOE) to initiate programs to evaluate the health of former DOE defense nuclear facility workers. Consistent with the mandate to DOE from Congress, this project implements a notification, health evaluation (including medical screening) and intervention program for former building and construction trades workers at the DOE Oak Ridge, TN site and the Gaseous Diffusion Plants (GDP) at Portsmouth, OH and Paducah, KY, who may have been exposed to health hazards as a result of work at these sites. Based on congressional language, current workers at GDP's may request

412

EM SSAB Contributes Community Views to Clean-up Decisions  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Contributes Community Views to Clean-up Decisions Contributes Community Views to Clean-up Decisions 2011 Local Board Contributions The Environmental Management Site-Specific Advisory Board (EM SSAB) has a unique mandate to provide input regarding the cleanup of nuclear legacy sites to the Department of Energy's Office of Environmental Management (EM). Chartered under the Federal Advisory Committee Act, the EM SSAB today comprises eight local boards, located in Hanford, WA; Idaho Falls, ID: Los Alamos, NM; the Nevada National Security Site; Oak Ridge, TN; Paducah, KY; Portsmouth, OH; and the Savannah River Site, SC. EM has made public participation a fundamental component of its cleanup mission and has found that the EM SSAB, which draws upon diverse community

413

Success Story Harshaw Trane and Hardin County Schools  

NLE Websites -- All DOE Office Websites (Extended Search)

Story Service and Product Provider Partner Customer Harshaw Trane Hardin County Schools 12700 Plantside Drive 65 W. A. Jenkins Road Louisville, KY 40299 Elizabethtown, KY...

414

U.S. DEPARTMENT OF ENERGY - NETL CATEGORICAL EXCLUSION (CX) DESIGNATIO...  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

L. Duvall 042009-043012 Kentucky KY Rev2 - Kentucky Energy Efficiency Program for Schools (KEEPS) Helps KY school districts reduce energy consumption & operating expenses....

415

Statewide Systematic Evaluation of Sudden, Unexpected Infant Death Classification: Results from a National Pilot Project  

E-Print Network (OSTI)

of Public Health, University of Kentucky, 333 Waller Ave. ,and Biostatistics, University of Kentucky, Lexington, KY,of Public Health, University of Kentucky, Lexington, KY, USA

Walsh, Sabrina L.; Kryscio, Richard; Holsinger, James W.; Krous, Henry F.

2010-01-01T23:59:59.000Z

416

Energy Department Announces Student Teams, New Location for Solar...  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Calgary (Calgary, Alberta, Canada) University of Louisville, Ball State University and University of Kentucky (Louisville, Ky.; Muncie, Ind.; and Lexington, Ky.) University...

417

Notice of Intent to Prepare an Environmental Impact Statement for a Transuranic Waste Treatment Facility at Oak Ridge, TN  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

79 79 Federal Register / Vol. 64, No. 17 / Wednesday, January 27, 1999 / Notices format (e.g., Braille, large print, audiotape, or computer diskette) on request to the contact person listed in the preceding paragraph. Individuals with disabilities may obtain a copy of the application package in an alternate format, also, by contacting that person. However, the Department is not able to reproduce in an alternate format the standard forms included in the application package. Electronic Access to This Document You may view this document, as well as all other Department of Education documents published in the Federal Register, in text or portable document format (pdf) on the Internet at either of the following sites: http;//ocfo.ed.gov/fedreg.hmt http://www.ed.gov/news.html To use the pdf you must have the Adobe

418

Assessing the Environmental Impacts of Cellulosic Bioethanol Production: An Ongoing Case Study of Switchgrass Production around Vonore, TN  

E-Print Network (OSTI)

for the Vonore area, we will relate these changes in water quality to changes in economic criteria (e.g., target of Tennessee Biofuels Initiative. Managed by Genera Energy LLC and operated by DuPont Danisco Cellulosic

419

International Composites Expo ICE-98 Nashville, TN, January 19-21, 1998. Title: Strength, Durability and Health Monitoring of Composites  

E-Print Network (OSTI)

and utilization of composite overlays on civil infrastructures is also addressed. INTRODUCTION According to the US. The perspective and benefits of the repair, upgrade, retrofit, and rehabilitation of US civil infrastructure using capacity of concrete bridges. FRP repair technology offers a practical way to rehabilitate aging concrete

Giurgiutiu, Victor

420

Agenda for Sept 10-11 workshop in Oak Ridge, TN Sustainability of Bioenergy Systems: Cradle to Grave  

E-Print Network (OSTI)

Smith (EPA) Design of Sustainable Biofuel Supply Chains · Ozge Kaplan (EPA) - Emerging Biomass Production § 3 in 5 · Chris Impellitteri (EPA) - Biofuels:Water Resources, Reuse and Energy · Virginia Dale Analysis of Ecological Effects of Biofuels Crops § Questions and discussion · 3:00 Break · 3:30 Reconvene o

Note: This page contains sample records for the topic "ky wv tn" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


421

J. DALTON YORK 110 Sheffield Ct., Cookeville, TN 38506 | 931-854-1068 | dyork@tntech.edu  

E-Print Network (OSTI)

channel of a solid-oxide fuel cell (SOFC). Butane conversion and product formation were monitored hydrocarbons in the anode channels of a SOFC. Additional efforts are required to account for catalytic. Solid-oxide fuel cells (SOFC), in particular, offers a very promising method for direct production

Firoozabadi, Abbas

422

Results for the Independent Sampling and Analysis of Used Oil Drums at the Impact Services Facility in Oak Ridge, TN  

SciTech Connect

The U.S. Department of Energy (DOE) requested that Oak Ridge Associated Universities (ORAU), via the Oak Ridge Institute for Science and Education (ORISE) contract, perform independent sampling and analysis of used oils contained within eight 55 gallon drums stored at the former IMPACT Services facility, located at the East Tennessee Technology Park in Oak Ridge, Tennessee. These drums were originally delivered by LATA Sharp Remediation Services (LSRS) to IMPACT Services on January 11, 2011 as part of the Bldg. K-33 demolition project, and the drums plus contents should have been processed as non-hazardous non-radiological waste by IMPACT Services. LSRS received a certificate of destruction on August 29, 2012 (LSRS 2012a). However, IMPACT Services declared bankruptcy and abandoned the site later in 2012, and eight of the original eleven K-33 drums are currently stored at the facility. The content of these drums is the subject of this investigation. The original drum contents were sampled by LSRS in 2010 and analyzed for gross alpha, gross beta, and polychlorinated biphenyls (PCBs), using both compositing and grab sampling techniques. The objective of this 2013 sample and analysis effort was to duplicate, to the extent possible, the 2010 sampling and analysis event to support final disposition decisions. Part of that decision process includes either verifying or refuting the assertion that oils that are currently stored in drums at the IMPACT Services facility originated from Bldg. K-33 equipment.

none,

2013-04-25T23:59:59.000Z

423

Fast Wave Power Flow Along SOL Field Lines in NSTX and the Associated Power Deposition Profile Across the SOL in Front of the Antenna *  

E-Print Network (OSTI)

Ridge National Laboratory, Oak Ridge, TN 3 XCEL Engineering Inc., Oak Ridge, TN 4 Columbia University

Princeton Plasma Physics Laboratory

424

Adherence to Scheduled Sessions in a Randomized Field Trial of Case Management: The Criminal JusticeDrug Abuse Treatment Studies Transitional Case Management Study  

E-Print Network (OSTI)

Alcohol Research, University of Kentucky, Lexington, KY, USAAlcohol Studies; University of Kentucky, Center on Drug and

2009-01-01T23:59:59.000Z

425

Housing, Credit Constraints, and Macro Stability: The Secondary Mortgage Market and Reduced Cyclicality of Residential Investment  

E-Print Network (OSTI)

of Business & Economics University of Kentucky Lexington, KYBusiness & Economics, University of Kentucky, Lexington, KY

Peek, Joe; Wilcox, James A.

2006-01-01T23:59:59.000Z

426

,"Tennessee Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

1: Prices" "Sourcekey","N3050TN3","N3010TN3","N3020TN3","N3035TN3","N3045TN3" "Date","Natural Gas Citygate Price in Tennessee (Dollars per Thousand Cubic Feet)","Tennessee Price...

427

Louisville, KY Led by Debbie Grusenmeyer (Extension Associate/ PRO-DAIRY Youth Specialist) and Matt Young (Cornell Animal Science '02) a team of New York 4-H youth recently won the National 4-H  

E-Print Network (OSTI)

) and Matt Young (Cornell Animal Science '02) a team of New York 4-H youth recently won the National 4-H Dairy Quiz Bowl Championship title for the 10th time. The 33rd annual North American Invitational 4-H Dairy Quiz Bowl Contest was held at the North American International Livestock Exposition in Louisville

Keinan, Alon

428

Book2  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Activity Code Additional Activity Code Description of Activity Competed Type of Competition Location (State) # of FTE in study Source Selection Strategy Used (If Known) Incremental Costs of Conducting Studies Anticipated Savings or Quantifiable Description of Improvements in Service or Performance (if available) DOE D200 Data Collection and Analysis D704 Program Monitoring and Evaluation D707 Program Evaluation Albany Research Center Standard competition conducted under a deviation OR 72 cost-technical trade-off 0.000 72 0.000 72 0.000 DOE E120 Environmental and Natural Resource Services Environmental Engineering Services Competition was cancelled (N/A-C) MD,DC,NM,IL, CO,ID,PA,WV, CA,WY,NV,TN, WA,LA,SC 684 cost-technical trade-off 0.664 Competition Description STREAMLINED COMPETITIONS

429

Thermodynamic  

Science Conference Proceedings (OSTI)

... TN. Oak Ridge Metrology Center, Oak Ridge, TN [105000- 0] Oak Ridge National Laboratory - Metrology, Oak Ridge, TN [200659- 0] Transcat ...

2013-07-19T23:59:59.000Z

430

Electromagnetics - DC/Low Frequency  

Science Conference Proceedings (OSTI)

... TN. Oak Ridge Metrology Center, Oak Ridge, TN [105000- 0] Oak Ridge National Laboratory - Metrology, Oak Ridge, TN [200659- 0] Transcat ...

2013-07-19T23:59:59.000Z

431

,"West Virginia Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

1: Prices" "Sourcekey","N3050WV3","N3010WV3","N3020WV3","N3035WV3","N3045WV3" "Date","Natural Gas Citygate Price in West Virginia (Dollars per Thousand Cubic Feet)","West Virginia...

432

treephys.tps081.full.pdf  

NLE Websites -- All DOE Office Websites (Extended Search)

The Author 2012. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com The Author 2012. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com Tree Physiology 00, 1-8 doi:10.1093/treephys/tps081 5HYLVLWLQJ WKH VHTXHQFLQJ RI WKH ÀUVW WUHH JHQRPH Populus trichocarpa Stan D. Wullschleger 1,4 , D. J. Weston 2 , S. P. DiFazio 3 and G. A. Tuskan 2 1 Environmental Sciences Division, Oak Ridge National Laboratory, Oak Ridge, TN 37831-6301, USA; 2 Biosciences Division, Oak Ridge National Laboratory, Oak Ridge, TN 37831-6422, USA; 3 Department of Biology, West Virginia University, Morgantown, WV 26506-6057, USA; 4 Corresponding author (wullschlegsd@ornl.gov) Received March 5, 2012; accepted August 1, 2012; handling Editor Danielle Way 7HQ \HDUV DJR LW ZDV DQQRXQFHG WKDW WKH -RLQW *HQRPH ,QVWLWXWH ZLWK IXQGV SURYLGHG E\ WKH 'HSDUWPHQW RI (QHUJ\ 2IÀFH RI

433

NGA_99fin.vp  

Gasoline and Diesel Fuel Update (EIA)

Transmission Transmission Energy Information Administration / Natural Gas Annual 1999 25 6. Principal Interstate Natural Gas Flow Summary, 1999 Figure 2,000 1,000 3,000 4,000 5,000 0 Billion Cubic Feet = Less than 100 BCF Flow WASHINGTON MONTANA IDAHO WYOMING OREGON CALIFORNIA NEVADA UTAH COLORADO NORTH DAKOTA SOUTH DAKOTA NEBRASKA KANSAS ARIZONA NEW MEXICO OKLAHOMA ARKANSAS MISSOURI IOWA MINNESOTA WISCONSIN MICH PA MD DELAWARE CONNECTICUT RHODE ISLAND MASS NH NJ ILL INDIANA OHIO VIRGINIA WV MAINE NEW YORK VT KY TENN NORTH CAROLINA SOUTH CAROLINA MISS GEORGIA FLORIDA ALA TEXAS LA 26 Energy Information Administration / Natural Gas Annual 1999 1 9 7 2 1 9 7 4 1 9 7 6 1 9 7 8 1 9 8 0 1 9 8 2 1 9 8 4 1 9 8 6 1 9 8 8 1 9 9 0 1 9 9 2 1 9 9 4 1 9 9 6 1 9 9 8 0 2 4 6 8 10 12 14 16 18 Percent 7. Net Imports as a Percentage of Total Consumption of Natural Gas, 1972-1999 Figure Sources: 1972-1975: Bureau of Mines, Minerals Yearbook, "Natural Gas"

434

Coal surface control for advanced physical fine coal cleaning technologies. Final report, September 19, 1988--August 31, 1992  

SciTech Connect

This final report presents the research work carried out on the Coal Surface Control for Advanced Physical Fine Coal Cleaning Technologies project, sponsored by the US Department of Energy, Pittsburgh Energy Technology Center (DOE/PETC). The project was to support the engineering development of the selective agglomeration technology in order to reduce the sulfur content of US coals for controlling SO{sub 2} emissions (i.e., acid rain precursors). The overall effort was a part of the DOE/PETCs Acid Rain Control Initiative (ARCI). The overall objective of the project is to develop techniques for coal surface control prior to the advanced physical fine coal cleaning process of selective agglomeration in order to achieve 85% pyrite sulfur rejection at an energy recovery greater than 85% based on run-of-mine coal. The surface control is meant to encompass surface modification during grinding and laboratory beneficiation testing. The project includes the following tasks: Project planning; methods for analysis of samples; development of standard beneficiation test; grinding studies; modification of particle surface; and exploratory R&D and support. The coal samples used in this project include three base coals, Upper Freeport - Indiana County, PA, Pittsburgh NO. 8 - Belmont County, OH, and Illinois No. 6 - Randolph County, IL, and three additional coals, Upper Freeport - Grant County- WV, Kentucky No. 9 Hopkins County, KY, and Wyodak - Campbell County, WY. A total of 149 drums of coal were received.

Morsi, B.I.; Chiang, S.H.; Sharkey, A.; Blachere, J.; Klinzing, G.; Araujo, G.; Cheng, Y.S.; Gray, R.; Streeter, R.; Bi, H.; Campbell, P.; Chiarlli, P.; Ciocco, M.; Hittle, L.; Kim, S.; Kim, Y.; Perez, L.; Venkatadri, R.

1992-12-31T23:59:59.000Z

435

InGaAS detectors for miniature infrared instruments T.N. Krabach, C. Staller, S. Dejewski, T. Cunningham, M. Herring, and E.R. Fossum  

E-Print Network (OSTI)

. The spacecraft and mission limitations of solar power also apply to these alternative power systems. Coolers of peak solar illumination. In this region, the primary phenomenology of interest is the reflectance imaging system, of which some variant has been flown on virtually every scientific space mission. Imaging

Fossum, Eric R.

436

Separation of Flip and Non-Flip parst of Charge Exchange np->pn at energies Tn = 0.5 - 2.0 GeV  

E-Print Network (OSTI)

The new Delta-Sigma experimental data on the ratio $R_{dp}$ allowed separating the Flip and Non-Flip parts of the differential cross section of $np\\to pn$ charge exchange process at the zero angle by the Dean formula. The PSA solutions for the $np\\to np$ elastic scattering are transformed to the $np\\to pn$ charge exchange representation using unitary transition, and good agreement is obtain.

R. A. Shindin; A. A. Morozov; E. V. Chernykh; D. K. Guriev; A. A. Nomofilov; V. Yu. Prytkov; V. I. Sharov; L. I. Strunov

2008-12-16T23:59:59.000Z

437

Field-Scale Evaluation of Biostimulation for Remediation of Uranium-Contaminated Groundwater at a Proposed NABIR Field Research Center in Oak Ridge, TN  

DOE Green Energy (OSTI)

A hydrologic, geochemical and microbial characterization of the Area 3 field site has been completed. The formation is fairly impermeable, but there is a region of adequate flow approximately 50 feet bgs. The experiment will be undertaken within that depth interval. Groundwater from that depth is highly acidic (pH 3.2), and has high levels of nitrate, aluminum, uranium, and other heavy metals, as well as volatile chlorinated solvents (VOCs). Accordingly, an aboveground treatment train has been designed to remove these contaminants. The train consists of a vacuum stripper to remove VOCs, two chemical precipitation steps to adjust pH and remove metals, and a fluidized bed bioreactor to remove nitrate. The aboveground system will be coupled to a belowground recirculation system. The belowground system will contain an outer recirculation cell and a nested inner recirculation cell: the outer cells will be continuously flushed with nitrate-free treated groundwater. The inner cell will receive periodic inputs of uranium, tracer, and electron donor. Removal of uranium will be determined by comparing loss rates of conservative tracer and uranium within the inner recirculation cell. Over the past year, a detailed workplan was developed and submitted for regulatory approval. The workplan was presented to the Field Research Advisory Panel (FRAP), and after some extensive revision, the FRAP authorized implementation. Detailed design drawings and numerical simulations of proposed experiments have been prepared. System components are being prefabricated as skid-mounted units in Michigan and will be shipped to Oak Ridge for assembly. One manuscript has been submitted to a peer reviewed journal. This paper describes a novel technique for inferring subsurface hydraulic conductivity values. Two posters on this project were presented at the March 2002 NABIR PI meeting. One poster was presented at the Annual conference of the American Society for Microbiology in Salt Lake City, UT in May 2002.

Criddle, Craig S.

2003-06-01T23:59:59.000Z

438

CYCLE-BY-CYCLE COMBUSTION VARIATIONS IN SPARK-IGNITED ENGINES Engineering Technology Division, Oak Ridge National Laboratory, Oak Ridge TN 37831-8088 USA  

E-Print Network (OSTI)

CYCLE-BY-CYCLE COMBUSTION VARIATIONS IN SPARK-IGNITED ENGINES C.S. DAW Engineering Technology-2053 USA ABSTRACT Under constant nominal operating conditions, internal combustion engines can exhibit sub- stantial variation in combustion efficiency from one cycle to the next. Previous researchers have attempted

Tennessee, University of

439

Data Sharing Report for the Quantification of Removable Activity in Various Surveillance and Maintenance Facilities at the Oak Ridge National Laboratory Oak Ridge TN  

Science Conference Proceedings (OSTI)

The U.S. Department of Energy (DOE) Oak Ridge Office of Environmental Management (OR-EM) requested that Oak Ridge Associated Universities (ORAU), working under the Oak Ridge Institute for Science and Education (ORISE) contract, provide technical and independent waste management planning support using American Recovery and Reinvestment Act (ARRA) funds. Specifically, DOE OR-EM requested that ORAU plan and implement a sampling and analysis campaign targeting potential removable radiological contamination that may be transferrable to future personal protective equipment (PPE) and contamination control materialscollectively referred to as PPE throughout the remainder of this reportused in certain URS|CH2M Oak Ridge, LLC (UCOR) Surveillance and Maintenance (S&M) Project facilities at the Oak Ridge National Laboratory (ORNL). Routine surveys in Bldgs. 3001, 3005, 3010, 3028, 3029, 3038, 3042, 3517, 4507, and 7500 continuously generate PPE. The waste is comprised of Tyvek coveralls, gloves, booties, Herculite, and other materials used to prevent worker exposure or the spread of contamination during routine maintenance and monitoring activities. This report describes the effort to collect and quantify removable activity that may be used by the ORNL S&M Project team to develop radiation instrumentation screening criteria. Material potentially containing removable activity was collected on smears, including both masselin large-area wipes (LAWs) and standard paper smears, and analyzed for site-related constituents (SRCs) in an analytical laboratory. The screening criteria, if approved, may be used to expedite waste disposition of relatively clean PPE. The ultimate objectives of this effort were to: 1) determine whether screening criteria can be developed for these facilities, and 2) provide process knowledge information for future site planners. The screening criteria, if calculated, must be formally approved by Federal Facility Agreement parties prior to use for ORNL S&M Project PPE disposal at the Environmental Management Waste Management Facility (EMWMF). ORAU executed the approved sampling and analysis plan (SAP) (DOE 2013) while closely coordinating with ORNL S&M Project personnel and using guidelines outlined in the Waste Handling Plan for Surveillance and Maintenance Activities at the Oak Ridge National Laboratory, DOE/OR/01-2565&D2 (WHP) (DOE 2012). WHP guidelines were followed because the PPE waste targeted by this SAP is consistent with that addressed under the approved Waste Lot (WL) 108.1 profile for disposal at EMWMFthis PPE is a future waste stream as defined in the WHP. The SAP presents sampling strategy and methodology, sample selection guidelines, and analytical guidelines and requirements necessary for characterizing future ORNL S&M Project PPE waste. This report presents a review of the sample and analysis methods including data quality objectives (DQOs), required deviations from the original design, summary of field activities, radiation measurement data, analytical laboratory results, a brief presentation of results, and process knowledge summaries.

King, David A

2013-12-12T23:59:59.000Z

440

K-1435 Wastewater Treatment System for the Toxic Substances Control Act Incinerator Wastewater at the East Tennessee Technology Park, Oak Ridge, TN  

Science Conference Proceedings (OSTI)

This paper will discuss the design and performance of a wastewater treatment system installed to support the operation of a hazardous waste incinerator. The Oak Ridge Toxic Substances Control Act Incinerator (TSCAI), located at the East Tennessee Technology Park (ETTP), is designed and permitted to treat Resource Conservation and Recovery Act (RCRA) wastes including characteristic and listed wastes and polychlorinated biphenyl (PCB)-contaminated mixed waste. The incinerator process generates acidic gases and particulates which consist of salts, metals, and radionuclides. These off-gases from the incinerator are treated with a wet off-gas scrubber system. The recirculated water is continuously purged (blow down), resulting in a wastewater to be treated. Additional water sources are also collected on the site for treatment, including storm water that infiltrates into diked areas and fire water from the incinerator's suppression system. To meet regulatory requirements for discharge, a wastewater treatment system (WWTS) was designed, constructed, and operated to treat these water sources. The WWTS was designed to provide for periodic fluctuation of contaminant concentrations due to various feed streams to the incinerator. Blow down consists of total suspended solids (TSS) and total dissolved solids (TDS), encompassing metals, radionuclide contamination and trace organics. The system design flow rate range is 7.95 to 17 cubic meters per hour (m3/hr) (35 to 75 gallons per minute; gpm). The system is designed with redundancy to minimize time off-line and to reduce impacts to the TSCAI operations. A novel treatment system uses several unit operations, including chemical feed systems, two-stage chemical reaction treatment, micro-filtration, sludge storage and dewatering, neutralization, granular activated carbon, effluent neutralization, and a complete programmable logic controller (PLC) and human-machine interface (HMI) control system. To meet the space requirements and to provide portability of the WWTS to other applications, the system was installed in three, over-the-road semi trailers, and interconnected with piping and power. Trailers were oriented on a small site footprint to facilitate ease of installation. A remote sump pump skid was provided to convey water from two holding sumps adjacent to the treatment process. An accumulation tank and pump were also provided to receive miscellaneous wastewaters for treatment if they meet the waste acceptance criteria. The paper will include details of the technology used in the design, the requirements for compliance, and the initial performance demonstration and jar testing results. The WWTS successfully allowed for highly efficient, high-volume treatment with compliant discharge to off-site surface water. (authors)

Beck, Ch.A. [Senior Project Manager, Golder Associates Inc. (United Kingdom); Tiepel, E.W. [Principal, Golder Associates Inc. (United Kingdom); Swientoniewski, M.D. [P.E. Senior Project Engineer, Bechtel Jacobs Company LLC (United States); Crow, K.R. [P.E., Project Manager, CDM (United States)

2008-07-01T23:59:59.000Z

Note: This page contains sample records for the topic "ky wv tn" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


441

K-1435 Wastewater Treatment System for the Toxic Substances Control Act Incinerator Wastewater at the East Tennessee Technology Park, Oak Ridge, TN  

SciTech Connect

This paper discusses the design and performance of a wastewater treatment system installed to support the operation of a hazardous waste incinerator. The Oak Ridge Toxic Substances Control Act Incinerator (TSCAI), located at the East Tennessee Technology Park (ETTP), is designed and permitted to treat Resource ConservatioN and Recovery Act (RCRA) wastes including characteristic and listed wastes and polychlorinated biphenyl (PCB)-contaminated mixed waste. the incinerator process generates acidic gases and particulates which consist of salts, metals, and radionuclides. These off-gases from the incinerator are treated with a wet off-gas scrubber system. The recirculated water is continuously purged (below down), resulting in a wastewater to be treated. Additional water sources are also collected on the site for treatment, including storm water that infiltrates into diked areas and fire water from the incinerator's suppression system. To meet regulatory requirements for discharge, a wastewater treatment system (WWTS) was designed, constructed, and operated to treat these water sources. The WWTS was designed to provide for periodic fluctuation of contaminant concentrations due to various feed streams to the incinverator. Blow down consists of total suspended solids (TSS) and total dissolved solids (TDS), encompassing metals, radionuclide contamination and trace organics. The system design flow rate range is 35 to 75 gallons per minute (gpm). The system is designed with redundancy to minimize time off-line and to reduce impacts to the TSCAI operations. A novel treatment system uses several unit operations, including chemical feed systems, two-stage chemical reaction treatment, microfiltration, sludge storage and dewatering, neutralization, granular activated carbon, effluent neutralization, and a complete programmable logic controller (PLC) and human-machine interface (HMI) control system. To meet the space requirements and to provide portability of the WWTS to other applications, the system was installed in three, over-the-road semi trailers, and interconnected with piping and power. Trailers were oriented on a small site footprint to facilitate ease of installation. A remote sump pump skid was provided to convey water from two holding sumps adjacent to the treatment process. An accumulation tank and pump were also provided to receive miscellaneous wastewaters for treatment if they meet the waste acceptance criteria. The paper includes details of the technology used in the design, the requirements for compliance, and the initial performance demonstration and jar testing results. The WWTS successfully allowed for highly efficient, high-volume treatment with compliant discharge to off-site surface water.

Swientoniewski M.D.

2008-02-24T23:59:59.000Z

442

ION GNSS+ 2013, Session F1, Nashville, TN, 16-20 September 2013 Page 1/10 Stereo-Vision Aided GNSS for Automotive  

E-Print Network (OSTI)

estimation of position, velocity and time of user equipment at a fairly low cost for most positioning-motion. In combination with a low-cost GNSS receiver, the system can provide more robust estimation while having good. His research ranges from precise positioning to GNSS signal processing. More information is available

Calgary, University of

443

file://C:\Documents%20and%20Settings\rma\My%20Documents\CSEQ\we  

NLE Websites -- All DOE Office Websites (Extended Search)

Full data base of agricultural experiments used in this study. Full data base of agricultural experiments used in this study. Site ID 1 Tillage 2 Crop 3 Fertilizer (kg/ha/yr) Sample year Sampling Depth (cm) Depth increment (cm) 4 SOC (%) 4 SOC (g/m^2) KY01 n/a sod n/a 1975 0-5 5 2.70 KY01 n/a sod n/a 1975 5-15 10 1.39 KY01 n/a sod n/a 1975 15-30 15 0.79 KY01 n/a sod n/a 1980 0-5 5 3.81 KY01 n/a sod n/a 1980 5-15 10 1.73 KY01 n/a sod n/a 1980 15-30 15 0.90 KY01 n/a sod n/a 1989 0-5 5 3.11 KY01 n/a sod n/a 1989 5-15 10 1.41 KY01 n/a sod n/a 1989 15-30 15 1.11 KY01 CT corn 0 1975 0-5 5 1.33 KY01 CT corn 0 1975 5-15 10 1.24 KY01 CT corn 0 1975 15-30 15 0.68 KY01 CT corn 0 1980 0-5 5 1.25 KY01 CT corn 0 1980 5-15 10 1.38 KY01 CT corn 0 1980 15-30 15 0.78 KY01 CT corn 0 1989 0-5 5 1.31 KY01 CT corn 0 1989 5-15 10 1.55

444

A novel finding of a low-molecular-weight compound, SMTP-7 ...  

Science Conference Proceedings (OSTI)

of Tris-HCl, pH 6.8, 4% (w/v) sodium dodecyl sulfate. (SDS), 0.04% (w/v) bromophenol blue, and 20% (w/v) sucrose. ... Treatment protocol. The mice with...

445

Distributed Surveillance and Control on Freeways  

E-Print Network (OSTI)

surveillance, Response time can be given as, RTd = Tw + Tc +T'n + Td + Tr Where, RTd = response time under distributeddecision processes. Hence, RTd - RTc = T'n - Tn T'n is the

Coifman, Benjamin

2004-01-01T23:59:59.000Z

446

U.S. DEPARTMENT OF ENERGY - NETL CATEGORICAL EXCLUSION (CX) DESIGNATIO...  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Kentucky EE SEP ARRA PMC 2009 Vicki L. Duvall 042009-043012 Kentucky KY Rev2 Green Bank of KY Revolving loan program for EE measures in buildings. Corrected NEPA determination...

447

UTILITYID","UTILNAME","STATE","YEAR","MONTH","RES_REV (Thousand...  

U.S. Energy Information Administration (EIA) Indexed Site

City of","KY",91,1,907,15235,455,6879,1517,26862,55,774,2934,49750 5748,"Electric Energy Inc","KY",91,1,0,0,0,0,12926,698742,0,0,12926,698742 6708,"Frankfort City...

448

DOE Solar Decathlon: 2009 University of Kentucky  

NLE Websites -- All DOE Office Websites (Extended Search)

logo on the left chest. Behind the team is a promotional sign for the s*ky blue house. Kentucky team members say their s*ky blue house is designed by Kentucky but for the...

449

UTILITYID","UTILNAME","STATE","YEAR","MONTH","RES_REV (Thousand...  

U.S. Energy Information Administration (EIA) Indexed Site

","KY",97,1,45204,811671,10520,195006,19029,468302,729,14444,75483,1489422 5748,"Electric Energy Inc","KY",97,1,0,0,0,0,14568,813077,0,0,14568,813077 7604,"Green River Electric...

450

Workbook Contents  

U.S. Energy Information Administration (EIA) Indexed Site

,"Next Release Date:","11292013" ,"Excel File Name:","n9050ky2a.xls" ,"Available from Web Page:","http:tonto.eia.govdnavnghistn9050ky2a.htm" ,"Source:","Energy Information...

451

FetterGroup: Award Recipient for the ENERGY STAR Challenge for...  

NLE Websites -- All DOE Office Websites (Extended Search)

Award Recipient for the ENERGY STAR Challenge for Industry FetterGroup Headquarters Facility 700 Locust Lane Louisville, KY 40217 Fetter was founded in Louisville, KY in 1888, and...

452

Oak Ridge National Laboratory (ORNL) Source List of Subcontractors  

E-Print Network (OSTI)

Middlesboro Road Lafollette TN 37766 423-201-0635 XCEL Engineering, Inc. 1066 Commerce Park Oak Ridge TN 37830

Pennycook, Steve

453

Time & Frequency  

Science Conference Proceedings (OSTI)

... Oak Ridge, TN [105000- 0] Oak Ridge National Laboratory - Metrology, Oak Ridge, TN [200659 ... of Virginia Metrology Lab, Richmond, VA ...

2013-08-09T23:59:59.000Z

454

JOURNALOF NEUROPHYSIOLOGY Vol. 76, No. 2, August 1996. Printed in U.S.A.  

E-Print Network (OSTI)

;GERVAIS, KLEINFELD. DELANEY, AND GELPERIN Depol. 0 - .Ww,t) F(KY) Hyperpol. 12 3456 7 Spatial Uniform

Kleinfeld, David

455

Superalloy Recycling 1976-1986  

Science Conference Proceedings (OSTI)

NY, Princeton,. KY ........ Spectrum Alloys Inc., Los Angeles, CA ........................ Stoody Deloro Stellite,. Inc., Industry,. CA ................... Suissman and Blumenthal,

456

Is U3Ni3Sn4 best described as near a quantum critical point?  

E-Print Network (OSTI)

and Astronomy, University of Kentucky, Lexington, KY 40506-76SF00098. Work at the University of Kentucky was supported

Booth, C.H.; Shlyk, L.; Nenkov, K.; Huber, J.G.; De Long, L.E.

2003-01-01T23:59:59.000Z

457

Predicting the Service-Life of Concrete Structures Exposed to ...  

Laval University CEMENTITIOUS MATERIALS FOR WASTE TREATMENT, ... KY) Questions? Multi-ionic model. Transport properties Modeling the effect of ...

458

Tuesday Morning Sessions - TMS  

Science Conference Proceedings (OSTI)

February 6, 1996 Location: Anaheim Convention Center. Session Chairperson: James G. Morris, 175 Anderson Hall, University of Kentucky, Lexington, KY...

459

Wednesday Afternoon Sessions  

Science Conference Proceedings (OSTI)

Program Organizer: Professor James G. Morris, Chemical & Materials Engineering, Director, Light Metals Research Labs., University of Kentucky, Lexington, KY...

460

C:\ANNUAL\VENTCHAP.V8\NewNGA02.vp  

Gasoline and Diesel Fuel Update (EIA)

1 1 55 0 2 4 6 8 10 Residential Onsystem Commercial Onsystem Industrial Onsystem Vehicle Fuel Electric Utilities Dollars per Thousand Cubic Feet 0 30 60 90 120 150 180 210 240 270 300 330 Dollars per Thousand Cubic Meters 1997 1998 1999 2000 2001 25. Average Price of Natural Gas Delivered to Consumers in the United States, 1997-2001 Figure Note: Prices are calculated from onsystem sales. Sources: Energy Information Administration (EIA), Form EIA-176, "Annual Report of Natural and Supplemental Gas Supply and Disposition" and Federal Energy Regulatory Commission (FERC), Form FERC- 423, "Monthly Report of Cost and Quality of Fuels for Electric Plants." Energy Information Administration / Natural Gas Annual 2001 56 0.00-1.99 2.00-3.99 4.00-5.99 6.00-7.99 8.00-9.99 10.00-11.99 12.00+ WA ID MT OR CA NV UT AZ NM CO WY ND SD MN WI NE IA KS MO TX IL IN OH MI OK AR TN W VA KY MD PA

Note: This page contains sample records for the topic "ky wv tn" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


461

C:\ANNUAL\VENTCHAP.V8\NewNGA02.vp  

Gasoline and Diesel Fuel Update (EIA)

6 6 0.00-1.99 2.00-3.99 4.00-5.99 6.00-7.99 8.00-9.99 10.00-11.99 12.00+ WA ID MT OR CA NV UT AZ NM CO WY ND SD MN WI NE IA KS MO TX IL IN OH MI OK AR TN W VA KY MD PA WI NY VT NH MA CT ME RI NJ DE DC NC SC GA AL MS LA FL HI AK 27. Average City Gate Price of Natural Gas in the United States, 2001 (Dollars per Thousand Cubic Feet) Figure Sources: Energy Information Administration (EIA), Form EIA-857, "Monthly Report of Natural Gas Purchases and Deliveries to Consumers." 0 2 4 6 8 10 1980 1982 1984 1986 1988 1990 1992 1994 1996 1998 2000 Dollars per Thousand Cubic Feet 0 40 80 120 160 200 240 280 320 Dollars per Thousand Cubic Meters Constant Dollars Nominal Dollars Sources: Nominal dollars: Energy Information Administration (EIA), Form EIA-176, "Annual Report of Natural and Supplemental Gas Supply and Disposition." Constant dollars: Prices were converted to 2001 dollars using the chain-type

462

C:\ANNUAL\VENTCHAP.V8\NewNGA02.vp  

Gasoline and Diesel Fuel Update (EIA)

18 18 Energy Information Administration / Natural Gas Annual 2001 Sources: Energy Information Administration (EIA), Form EIA-895, "Monthly Quantity and Value of Natural Gas Report," and the United States Minerals Management Service. 0 1 2 3 4 5 6 7 T e x a s L o u i s i a n a N e w M e x i c o O k l a h o m a W y o m i n g C o l o r a d o A l a b a m a K a n s a s A l a s k a C a l i f o r n i a A l l O t h e r S t a t e s Trillion Cubic Feet 0 30 60 90 120 150 180 Billion Cubic Meters 1997 1998 1999 2000 2001 2001 16. Marketed Production of Natural Gas in Selected States, 1997-2001 Figure Sources: Energy Information Administration (EIA), Form EIA-895, "Monthly Quantity and Value of Natural Gas Report," and the United States Minerals Management Service. None 1-15,000 15,001-100,000 100,001-200,000 200,001-500,000 500,001-and over WA ID MT OR CA NV UT AZ NM CO WY ND SD MN WI NE IA KS MO TX IL IN OH MI OK AR TN W VA KY MD PA WI NY VT NH MA CT ME RI

463

Including environmental concerns in management strategies for depleted uranium hexafluoride  

Science Conference Proceedings (OSTI)

One of the major programs within the Office of Nuclear Energy, Science, and Technology of the US Department of Energy (DOE) is the depleted uranium hexafluoride (DUF{sub 6}) management program. The program is intended to find a long-term management strategy for the DUF{sub 6} that is currently stored in approximately 46,400 cylinders at Paducah, KY; Portsmouth, OH; and Oak Ridge, TN, USA. The program has four major components: technology assessment, engineering analysis, cost analysis, and the environmental impact statement (EIS). From the beginning of the program, the DOE has incorporated the environmental considerations into the process of strategy selection. Currently, the DOE has no preferred alternative. The results of the environmental impacts assessment from the EIS, as well as the results from the other components of the program, will be factored into the strategy selection process. In addition to the DOE`s current management plan, other alternatives continued storage, reuse, or disposal of depleted uranium, will be considered in the EIS. The EIS is expected to be completed and issued in its final form in the fall of 1997.

Goldberg, M. [Argonne National Laboratory, Washington, DC (United States); Avci, H.I. [Argonne National Lab., IL (United States); Bradley, C.E. [USDOE, Washington, DC (United States)

1995-12-31T23:59:59.000Z

464

DOE Solar Decathlon: University of Kentucky: Constructing a 3D Textbook  

NLE Websites -- All DOE Office Websites (Extended Search)

s*ky blue and the Administration Building on the University of Kentucky campus. s*ky blue and the Administration Building on the University of Kentucky campus. Enlarge image s*ky blue returned to the University of Kentucky for further research and monitoring. (Courtesy of Stephen Patton) Who: University of Kentucky What: s*ky blue House Where: The University of Kentucky Administration Drive Lexington, KY 40506 Map This House Public tours: Visit the s*ky blue Web site for updates on public tours. Solar Decathlon 2009 University of Kentucky: Constructing a 3D Textbook After competing in the U.S. Department of Energy Solar Decathlon 2009, s*ky blue returned home to the University of Kentucky (UK). It was reconstructed in front of the Administration Building on the campus' main lawn-a location that juxtaposes the university's oldest building with one

465

untitled  

Gasoline and Diesel Fuel Update (EIA)

Table 18. Domestic Crude Oil First Purchase Prices Table 18. Domestic Crude Oil First Purchase Prices (Dollars per Barrel) Year Month U.S. Average PAD District I PAD District II U.S. Average Less AK North Slope Average NY PA WV Average IL IN KS KY MI NE 1983 ..................... 26.19 28.00 28.32 28.19 28.28 27.27 29.17 29.12 29.06 28.45 28.60 28.93 28.58 1984 ..................... 25.88 27.59 27.76 27.70 27.71 26.90 28.62 28.76 28.72 27.99 28.24 28.54 27.83 1985 ..................... 24.09 25.74 25.88 25.19 25.05 24.35 25.94 26.90 26.82 25.33 26.20 26.16 25.42 1986 ..................... 12.51 14.13 14.76 16.03 15.77 14.68 14.30 14.70 14.55 14.02 14.20 14.61 13.70 1987 ..................... 15.40 16.83 16.52 17.40 17.43 16.56 17.42 17.53 17.49 17.37 17.19 17.63 17.08 1988 ..................... 12.58 13.97 14.21 W 15.26 14.35 14.65 14.79 14.78 14.55 14.58 14.92 14.08 1989 .....................

466

untitled  

Gasoline and Diesel Fuel Update (EIA)

21. Domestic Crude Oil First Purchase Prices 21. Domestic Crude Oil First Purchase Prices (Dollars per Barrel) Year Month U.S. Average PAD District I PAD District II U.S. Average Less AK North Slope Average NY PA WV Average IL IN KS KY MI NE 1978 ..................... 9.00 9.56 12.25 W 14.72 14.48 11.91 13.81 13.70 13.20 13.73 11.86 11.40 1979 ..................... 12.64 13.01 14.30 W 24.13 23.35 18.33 23.49 23.28 21.57 22.55 14.47 18.13 1980 ..................... 21.59 22.65 22.66 W 37.46 36.92 30.12 35.78 35.91 34.20 34.98 23.54 30.60 1981 ..................... 31.77 33.71 35.22 W 36.03 35.63 35.63 36.03 36.07 35.80 35.90 35.74 35.32 1982 ..................... 28.52 30.43 31.77 30.91 30.77 29.98 31.65 31.69 31.66 30.79 31.19 31.80 30.98 1983 ..................... 26.19 28.00 28.32 28.19 28.28 27.27 29.17 29.12 29.06 28.45 28.60 28.93 28.58 1984 ..................... 25.88

467

RESTORING SUSTAINABLE FORESTS ON APPALACHIAN MINED LANDS FOR WOOD PRODUCTS, RENEWABLE ENERGY, CARBON SEQUESTRATION, AND OTHER ECOSYSTEM SERVICES  

DOE Green Energy (OSTI)

The overall purpose of this project is to evaluate the biological and economic feasibility of restoring high-quality forests on mined land, and to measure carbon sequestration and wood production benefits that would be achieved from forest restoration procedures. We are currently estimating the acreage of lands in VA, WV, KY, OH, and PA mined under SMCRA and reclaimed to non-forested post-mining land uses that are not currently under active management, and therefore can be considered as available for carbon sequestration. To determine actual sequestration under different forest management scenarios, a field study was installed as a 3 x 3 factorial in a random complete block design with three replications at each of three locations, Ohio, West Virginia, and Virginia. The treatments included three forest types (white pine, hybrid poplar, mixed hardwood) and three silvicultural regimes (competition control, competition control plus tillage, competition control plus tillage plus fertilization). Each individual treatment plot is 0.5 acres. Each block of nine plots requires 4.5 acres, and the complete installation at each site requires 13.5 acres. The plots at all three locations have been installed and the plot corners marked with PVC stakes. GPS coordinates of each plot have been collected. Soil samples were collected from each plot to characterize the sites prior to treatment. Baseline soil carbon was determined for each of the eighty-one plots. Fertility analysis of soil samples was completed and these data were used to prepare fertilizer prescriptions and the pre-designated plots were fertilized. We also evaluated economic-based policy instruments that are designed to mitigate the reforestation burden borne by the owner of reclaimed mined land. Results suggest that although profitability of reforestation of these previously reclaimed mine lands may be achievable on better sites under lower interest rates, substantial payments would be required to reach ''profitability'' under many conditions.

J. Burger; J. Galbraith; T. Fox; G. Amacher; J. Sullivan; C. Zipper

2004-08-04T23:59:59.000Z

468

pmm.vp  

U.S. Energy Information Administration (EIA) Indexed Site

1 1 U.S. Energy Information Administration/Petroleum Marketing Monthly December 2013 Table 18. Domestic Crude Oil First Purchase Prices (Dollars per Barrel) Year Month U.S. Average PAD District I PAD District II U.S. Average Less AK North Slope Average NY PA WV Average IL IN KS KY MI NE 1985 .............. 24.09 25.74 25.88 25.19 25.05 24.35 25.94 26.90 26.82 25.33 26.20 26.16 25.42 1986 .............. 12.51 14.13 14.76 16.03 15.77 14.68 14.30 14.70 14.55 14.02 14.20 14.61 13.70 1987 .............. 15.40 16.83 16.52 17.40 17.43 16.56 17.42 17.53 17.49 17.37 17.19 17.63 17.08 1988 .............. 12.58 13.97 14.21 W 15.26 14.35 14.65 14.79 14.78 14.55 14.58 14.92 14.08 1989 .............. 15.86 17.13 17.16 W 18.15 17.18 18.04 18.36 18.37 18.18 18.36 18.06 17.36 1990 .............. 20.03 21.57 22.06 23.32 23.00 22.16 22.88 23.36 23.46 23.21 23.20

469

U.S. Department of Energy NEPA Categorical Exclusion Determination Form  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

KY-County-Kenton KY-County-Kenton Location: County Kenton KY American Recovery and Reinvestment Act: Proposed Action or Project Description: Conduct energy efficient retrofits to county buildings-retrofits would include direct digital controls to county facilities, investigate connecting facilities to a web-based controls monitoring system, add "smart" local controls, upgrade aging primary controls, add night temperature setbacks and other energy savings strategies; electrical upgrades; HVAC upgrades/replacements; building envelope improvements which

470

Site Safety and Health Plan (Phase 3) for the treatability study for in situ vitrification at Seepage Pit 1 in Waste Area Grouping 7, Oak Ridge National Laboratory, Oak Ridge, TN  

SciTech Connect

This plan is to be implemented for Phase III ISV operations and post operations sampling. Two previous project phases involving site characterization have been completed and required their own site specific health and safety plans. Project activities will take place at Seepage Pit 1 in Waste Area Grouping 7 at ORNL, Oak Ridge, Tennessee. Purpose of this document is to establish standard health and safety procedures for ORNL project personnel and contractor employees in performance of this work. Site activities shall be performed in accordance with Energy Systems safety and health policies and procedures, DOE orders, Occupational Safety and Health Administration Standards 29 CFR Part 1910 and 1926; applicable United States Environmental Protection Agency requirements; and consensus standards. Where the word ``shall`` is used, the provisions of this plan are mandatory. Specific requirements of regulations and orders have been incorporated into this plan in accordance with applicability. Included from 29 CFR are 1910.120 Hazardous Waste Operations and Emergency Response; 1910.146, Permit Required - Confined Space; 1910.1200, Hazard Communication; DOE Orders requirements of 5480.4, Environmental Protection, Safety and Health Protection Standards; 5480.11, Radiation Protection; and N5480.6, Radiological Control Manual. In addition, guidance and policy will be followed as described in the Environmental Restoration Program Health and Safety Plan. The levels of personal protection and the procedures specified in this plan are based on the best information available from reference documents and site characterization data. Therefore, these recommendations represent the minimum health and safety requirements to be observed by all personnel engaged in this project.

Spalding, B.P.; Naney, M.T.

1995-06-01T23:59:59.000Z

471

Resilience of Alaska's boreal forest to climatic F.S. Chapin III, A.D. McGuire, R.W. Ruess, T.N. Hollingsworth, M.C. Mack,  

E-Print Network (OSTI)

that are disproportionately important relative to their biomass) or dominant species, including white spruce, alder, Sphagnum biomass and palatability) (Kielland et al. 2006). These changes indirectly reduce recruitment of white spruce (Angell and Kielland 2009). Although the data record is too short and the connections to climate

McGuire, A. David

472

Ectoparasites reduce long-term survival of their avian C H A R L E S R. BROWN1, M A R Y B O M B E R C E R BROL4TN1  

E-Print Network (OSTI)

h;td no rft'ect oil the extent to wllicl~ ectop;~r;~sitesrctlucctl ;tdult clill' swallow srrrvivorsllip (figure 2). 7'11is is uillikr the 11;~ttcrnfnr 11rst-I);~srd cc:top;~r;~"tisrrl,primarily by SWEctoparasites reduce long-term survival of their avian host C H A R L E S R. BROWN1, M A R Y B O M

473

Fast Faraday cup with high bandwidth - Energy Innovation ...  

Deibele; Craig E. (Knoxville, TN) Assignee: UT-Battelle, LLC (Oak Ridge, TN) Application Number: 10/ 810,088: Application Publication Number: ...

474

ORISE: Career Opportunities  

NLE Websites -- All DOE Office Websites (Extended Search)

Director Cytogenetics Oak Ridge, TN 12-098 Administrative Assistant Lorton, VA 12-018 Medical & Tech Dir Radiation Emergency Medicine Oak Ridge, TN Ready to Apply? To...

475

Open Data Sites | Data.gov  

NLE Websites -- All DOE Office Websites (Extended Search)

Kentucky - Open Door Kentucky: http:opendoor.ky.govtransparencyPagesdefault.aspx Kenya - Kenya: http:opendata.go.ke Louisiana - Louisiana: http:wwwprd.doa.louisiana.gov...

476

Schmidt  

NLE Websites -- All DOE Office Websites (Extended Search)

Carbon Sequestration Program Charles E. Schmidt National Energy Technology Laboratory Regional Partnerships in Terrestrial Carbon Sequestration Lexington, KY November 6-7, 2001...

477

CX-000554: Categorical Exclusion Determination | Department of...  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

CX-000554: Categorical Exclusion Determination Ogallala Substation KY1A Transformer Replacement CX(s) Applied: B4.6 Date: 11162009 Location(s): Ogallala, Nebraska...

478

Browse wiki | Open Energy Information  

Open Energy Info (EERE)

200 Fair Oaks L., 2nd Floor, Frankfort, KY, 40601 + IncentiveContDept Department for Environmental Protection + IncentiveContDiv Division of Waste Management + Incentive...

479

Browse wiki | Open Energy Information  

Open Energy Info (EERE)

200 Fair Oaks Ln., 2nd Floor, Frankfort, KY, 40601 + IncentiveContDept Department for Environmental Protection + IncentiveContDiv Division of Waste Management + Incentive...

480

Upcoming Natural Gas Storage Facilities.  

U.S. Energy Information Administration (EIA)

Kentucky Energy Hub Project Orbit Gas Storage Inc KY Leader One Gas Storage Project Peregrine Midstream Partners WY Tricor Ten Section Storage Project

Note: This page contains sample records for the topic "ky wv tn" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


481

2 [ABB  

E-Print Network (OSTI)

Version 1.116 Title word cross-reference (?1, 1) [MY65]. (0, 1) [GS72a]. (b, k) [AC84]. (E,kx,ky) [ZVW + 11].

Nelson H. F. Beebe

2013-01-01T23:59:59.000Z

482

2 [ABB  

E-Print Network (OSTI)

Version 1.115 Title word cross-reference (?1, 1) [MY65]. (0, 1) [GS72a]. (b, k) [AC84]. (E,kx,ky) [ZVW + 11].

Nelson H. F. Beebe

2013-01-01T23:59:59.000Z

483

2 [ABB  

E-Print Network (OSTI)

Version 1.113 Title word cross-reference (?1, 1) [MY65]. (0, 1) [GS72a]. (b, k) [AC84]. (E,kx,ky) [ZVW + 11].

Nelson H. F. Beebe

2013-01-01T23:59:59.000Z

484

Experiments with Oval: A Radically Tailorable Tool for Cooperative Work  

E-Print Network (OSTI)

-333), Cambridge, MA 02139; email: malone@eagle.mit. edu; K.-Y. Lai, McKinsey & Company, 18/F Two Exchange Square

485

Regioselective Synthesis of the Tricyclic Core of Lateriflorone  

E-Print Network (OSTI)

, S.-G.; Sng, V. H. L.; Wu, X.-H.; Sim, K.-Y.; Tan, B. H. K.; Pereira, J. T.. Goh, S. H. Tetrahedron

Theodorakis, Emmanuel

486

Insurance Coverage for Biomedical & Traditional  

E-Print Network (OSTI)

) S.-G. Gao, V. H. L. Sng, X.-H. Wu, K.-Y. Sim, B. H. K. Tan, J. T. Pereira and S. H. Goh, Tetrahedron

Peterson, Blake R.

487

NETL: News Release - NETL Technologies Earn Prestigious R&D 100...  

NLE Websites -- All DOE Office Websites (Extended Search)

preparations of the sorbent has been demonstrated in cooperation with Sud-Chemie of Louisville, Ky., using NETL- developed technology. Thief Process for the Removal of...

488

BFRL: HVAC&R - Publications  

Science Conference Proceedings (OSTI)

... International Appliance Technical Conference , March 2002 , Lexington, KY - March 01 ... These tests included two small units a ducted 1.75 kW (0.5 ...

489

Wednesday Morning Sessions  

Science Conference Proceedings (OSTI)

... ARCO Aluminum, Inc., 2900 First National Tower, P.O. Box 32860, Louisville, KY 40232 ... Comparison of a single- step versus two- step (controlled cooling)...

490

Final_Tech_Session_Schedule_and_Location.xls  

NLE Websites -- All DOE Office Websites (Extended Search)

IN, KY * Unique - smallest region, single geology (1 basin and 1 stratigraphic column) * History of oil production, interest in EOR, background familiarity with drilling, mining,...

491

Department of Energy Honors 50 ENERGY STAR Partners that Saved...  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Mass.) The Saunders Hotel Group (Boston, Mass.) Servidyne Systems, LLC (Atlanta, Ga.) Toyota Motor Manufacturing North America Inc. (Erlanger, Ky.) Transwestern Commercial...

492

NETL F 451.1/1-1, Categorical Exclusion Designation Form  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

SCNGO FY1324 months Gary Covatch Erlanger, KY Cost-Effective Treatment of Flowback & Produced Water via an Integrated Precipitative Supercritical P Provide oversight of UV...

493

Building and Fire Publications  

Science Conference Proceedings (OSTI)

... (ASHRAE). October 6-8, 1996, Baltimore, MD, ASHRAE, Atlanta, GA, Teichman, KY, Editor(s), 139-150 pp, 1996. Keywords: ...

494

NETL F 451.1-1/1 Categorical Exclusion (CX) Designation Form  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

259 Cherry Blossom Way, Georgetown, KY I-75 Green Corridor Project Install retail biofuel (E85) fueling infrastructure along the Interstate 75 corridor. 02 16 2010 Steven W....

495

NETL F 451.1-1/1 Categorical Exclusion (CX) Designation Form  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

- 92013 2291 Elkhorn Dr, Lexington, KY I-75 Green Corridor Project Install retail biofuel (E85) fueling infrastructure along the Interstate 75 corridor. 02 16 2010 Steven W....

496

Slide 1  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Radiation Specialist Course Louisville Fire Department Fire Training Center Louisville, KY, March 4-8, 2013 J. Curt Pendergrass, PhD Supervisor, Radioactive Materials Section...

497

Translation Services  

Science Conference Proceedings (OSTI)

... of commercial products within NIST web pages is for information only; it ... 812 East Market Street Suite 201 Louisville, KY 40206 Phone: 502-213 ...

498

NETL F 451.1-1/1 Categorical Exclusion (CX) Designation Form  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Electric Appliances EE BETD 2009 Paul Giles x4811 Pgh. 7110 - 63012 Louisville, KY Advanced Magnetic Refrigerant Materials GE Appliance will assist GE Global Research in...

499

NETL F 451.1-1/1 Categorical Exclusion (CX) Designation Form  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

DE-FE0000699 University of Kentucky FE DE-FE0000699 315 10 Donald Krastman 5110 -10112 Lexington, Fayette County, KY COMPUTATIONAL FLUID DYNAMICS (CFD) ANALYSIS DENSITY...

500

24 Universities Receiving Funding to Train Next Generation of...  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Bradley University Peoria, IL 999,981 Indiana University Indianapolis, IN 1,323,532 University of Kentucky Research Foundation Lexington, KY 1,500,000 University of...