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1

VT Nuclear Services ltd | Open Energy Information  

Open Energy Info (EERE)

VT Nuclear Services ltd Jump to: navigation, search Name: VT Nuclear Services ltd Place: Warrington, United Kingdom Zip: WA4 4BP Sector: Services Product: VT Nuclear Services...

2

VT PowerPoint Template  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

EMBEDDED ACTIVE FIBER OPTIC SENSING EMBEDDED ACTIVE FIBER OPTIC SENSING NETWORK FOR STRUCTURAL HEALTH MONITORING IN HARSH ENVIRONMENTS DE-FE0007405 Anbo Wang, Cheng Ma Virginia Tech Center for Photonics Technology Blacksburg, VA 24061 awang@vt.edu, cma1@vt.edu http://photonics.ece.vt.edu/ 1 Advanced Research Sensor and Controls Project Review Meeting DOE NETL Morgantown, WV 03/12/2012 Outline * Motivation, Overview & Objectives * Background and Fundamentals of Proposed Technology * Project Scope and Work Plan 2 MOTIVATION AND OBJECTIVES 3 Motivation * Non-Destructive Evaluation (NDE) of structural health in advanced energy systems. Examples: * Ultra Supercritical (USC) systems: * Steam temperature 760 o C, pressure 5000 psi. * Integrated Gasification Combined Cycle (IGCC):

3

VT PowerPoint Template  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

DISTRIBUTED FIBER OPTIC SENSOR FOR DISTRIBUTED FIBER OPTIC SENSOR FOR ON-LINE MONITORING OF COAL GASIFIER REFRACTORY HEALTH DE-FE0005703 Anbo Wang, Cheng Ma Virginia Tech Center for Photonics Technology Blacksburg, VA 24061 awang@vt.edu, cma1@vt.edu http://photonics.ece.vt.edu/ 1 Advanced Research Sensor and Controls Project Review Meeting DOE NETL Morgantown, WV 03/12/2012 Outline * Motivation, Overview & Objectives * Background and Fundamentals of Proposed Technology * Project Scope and Work Plan * Project Progress 2 MOTIVATION AND OBJECTIVES 3 Motivation * Refractory health monitoring in slagging coal gasifiers: * Rapid corrosion of refractory materials. * High-temperature reducing environment. * Difficult to predict remaining refractory life. * Localized thinning, spallation, cracking.

4

VT PowerPoint Template  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

SINGLE-CRYSTAL SAPPHIRE OPTICAL SINGLE-CRYSTAL SAPPHIRE OPTICAL FIBER SENSOR DE-FC26-99FT40685 Anbo Wang, Gary Pickrell, Ke Wang, Cheng Ma, Brian Scott Virginia Tech Center for Photonics Technology Blacksburg, VA 24061 awang@vt.edu http://photonics.ece.vt.edu/ 1 Advanced Research Sensor and Controls Project Review Meeting DOE NETL Morgantown, WV 03/12/2012 Outline * Motivation & Objective * Background and Fundamentals of Proposed Technology * Project Scope and Work Plan * Project Progress 2 MOTIVATION AND OBJECTIVE 3 Motivation 4 * Temperature sensor for harsh-environments: * Coal gasifier (major focus of prior work). * Gas turbine. * Temperature measurement is critical for: * Gasifier start-up. * Process optimization. * Event/failure detection.

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

Listing of Virginia Tech Internal Vendors VT Academic Enrichment & Excellence  

E-Print Network [OSTI]

& Wildlife VT Fisheries & Wildlife Copier Charges VT Forestry Vehicles Service Center VT FourDesign VT Fralin VT Soil Testing Lab Fertility Analysis for VCE Clients VT Stability Wind Tunnel VT Student Affairs

Buehrer, R. Michael

8

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

9

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

10

West Virginia Smart Grid Implementation Plan (WV SGIP) Project  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

11

NETL: 2010 WV Science Bowl Information  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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.

12

Category:Burlington, VT | Open Energy Information  

Open Energy Info (EERE)

VT VT Jump to: navigation, search Go Back to PV Economics By Location Media in category "Burlington, VT" The following 16 files are in this category, out of 16 total. SVFullServiceRestaurant Burlington VT Central Vermont Pub Serv Corp.png SVFullServiceRestauran... 67 KB SVMidriseApartment Burlington VT Central Vermont Pub Serv Corp.png SVMidriseApartment Bur... 68 KB SVQuickServiceRestaurant Burlington VT Central Vermont Pub Serv Corp.png SVQuickServiceRestaura... 68 KB SVStandAloneRetail Burlington VT Central Vermont Pub Serv Corp.png SVStandAloneRetail Bur... 68 KB SVHospital Burlington VT Central Vermont Pub Serv Corp.png SVHospital Burlington ... 64 KB SVLargeHotel Burlington VT Central Vermont Pub Serv Corp.png SVLargeHotel Burlingto... 63 KB SVLargeOffice Burlington VT Central Vermont Pub Serv Corp.png

13

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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,

14

Category:Seattle, WA | Open Energy Information  

Open Energy Info (EERE)

Seattle, WA Seattle, WA Jump to: navigation, search Go Back to PV Economics By Location Media in category "Seattle, WA" The following 16 files are in this category, out of 16 total. SVFullServiceRestaurant Seattle WA Puget Sound Energy Inc.png SVFullServiceRestauran... 60 KB SVHospital Seattle WA Puget Sound Energy Inc.png SVHospital Seattle WA ... 58 KB SVLargeHotel Seattle WA Puget Sound Energy Inc.png SVLargeHotel Seattle W... 57 KB SVLargeOffice Seattle WA Puget Sound Energy Inc.png SVLargeOffice Seattle ... 57 KB SVMediumOffice Seattle WA Puget Sound Energy Inc.png SVMediumOffice Seattle... 61 KB SVMidriseApartment Seattle WA Puget Sound Energy Inc.png SVMidriseApartment Sea... 58 KB SVOutPatient Seattle WA Puget Sound Energy Inc.png SVOutPatient Seattle W... 63 KB

15

WA_1993_040_REGENTS_OF_THE_UNIVERSITY_OF_CALIFORNIA_Waiver_o...  

Broader source: Energy.gov (indexed) [DOE]

WA1993040REGENTSOFTHEUNIVERSITYOFCALIFORNIAWaivero.pdf WA1993040REGENTSOFTHEUNIVERSITYOFCALIFORNIAWaivero.pdf WA1993040REGENTSOFTHEUNIVERSITYOFCALIFORNI...

16

WA_00_030_ASE_AMERICAS_Request_to_Assign_Title_to_Waiver-Inv...  

Broader source: Energy.gov (indexed) [DOE]

WA1995019DONNELLYCORPORATIONWaiverofDomesticandFore.pdf WA1995018OPTICALCOATINGLABORATORYINCWaiverofDomesti.pdf WA03032RWESCHOTTSOLARINCWaiverof...

17

Category:Yakima, WA | Open Energy Information  

Open Energy Info (EERE)

Yakima, WA Yakima, WA Jump to: navigation, search Go Back to PV Economics By Location Media in category "Yakima, WA" The following 16 files are in this category, out of 16 total. SVFullServiceRestaurant Yakima WA Puget Sound Energy Inc.png SVFullServiceRestauran... 61 KB SVHospital Yakima WA Puget Sound Energy Inc.png SVHospital Yakima WA P... 58 KB SVLargeHotel Yakima WA Puget Sound Energy Inc.png SVLargeHotel Yakima WA... 58 KB SVLargeOffice Yakima WA Puget Sound Energy Inc.png SVLargeOffice Yakima W... 58 KB SVMediumOffice Yakima WA Puget Sound Energy Inc.png SVMediumOffice Yakima ... 57 KB SVMidriseApartment Yakima WA Puget Sound Energy Inc.png SVMidriseApartment Yak... 59 KB SVOutPatient Yakima WA Puget Sound Energy Inc.png SVOutPatient Yakima WA... 63 KB SVPrimarySchool Yakima WA Puget Sound Energy Inc.png

18

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Collins Ferry Road Morgantown, WV 26507-0880 412-386-6571 george.guthrie@netl.doe.gov Kelly Rose Technical Coordinator, Ultra-Deepwater Resources Portfolio Office of Research and...

19

Guidelines for Vocal Tract Development Lab (VT Lab) team members to access the VT Lab WebSpace via the VT Lab website  

E-Print Network [OSTI]

Guidelines for Vocal Tract Development Lab (VT Lab) team members to access the VT Lab WebSpace via the VT Lab website The VTLab WebSpace is a new and improved mechanism for VT lab team members to share files. We are replacing the former Member Login section of our website with MyWeb Space (developed by Do

Vorperian, Houri K.

20

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

Note: This page contains sample records for the topic "vt wa wv" 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

Advance Patent Waiver W(A)2013-013 | Department of Energy  

Broader source: Energy.gov (indexed) [DOE]

& Publications WA98023McDERMOTTTECHNOLOGYINCWaiverofDomesticandFo.pdf WA96016AIRPRODUCTSANDCHEMICALSINCWaiverofDomestic.pdf WA96004GECORPORATERESEARCHand...

22

WA_1995_018_OPTICAL_COATING_LABORATORY_INC_Waiver_of_Domesti...  

Broader source: Energy.gov (indexed) [DOE]

Publications WA1995019DONNELLYCORPORATIONWaiverofDomesticandFore.pdf WA1994034AIRPRODUCTSANDCHEMICALSINCWaiverofDomesti.pdf WA1995009AIRPRODUCTSANDCHEMICAL...

23

WA_04_057_CHEMICAL_RESEARCH_AND_LICENSING_CO_Waiver_of_Paten...  

Broader source: Energy.gov (indexed) [DOE]

& Publications WA04064VELOCYSINCWaiverofPatentRgithsUnderaDOECo.pdf WA04063AIRPRODUCTSANDCHEMICALSWaiverofPatentRights.pdf WA04028AIRPRODUCTSANDCHEMICAL...

24

WA_98_023_McDERMOTT_TECHNOLOGY_INC_Waiver_of_Domestic_and_Fo...  

Office of Energy Efficiency and Renewable Energy (EERE) Indexed Site

WA06013McDERMOTTTECHNOLOGYINCWaiverofPatentRightst.pdf WA00018PRAXAIRWaiveofDomesticandForeignInventionRi.pdf WA00007COMBUSTIONENGINEERINGINCW...

25

WA_02_021_H2GEN_INNOVATIONS_Waiver_of_Domestic_and_Foreign_P...  

Broader source: Energy.gov (indexed) [DOE]

WA02046QUESTAAIRTECHNOLOGIESWaiverofDomesticandFor.pdf WA02055PRAXAIRWaiverofDomesticandForeignPatentRigh.pdf WA04034NUVERAFUELCELLSINCWaiver...

26

WA_04_009_ROCKWELL_SCIENTIFIC_CO_Wailve_of_Domestic_And_Fore...  

Broader source: Energy.gov (indexed) [DOE]

WA1995019DONNELLYCORPORATIONWaiverofDomesticandFore.pdf WA1995018OPTICALCOATINGLABORATORYINCWaiverofDomesti.pdf WA00030ASEAMERICASRequesttoAssign...

27

WA_1995_019_DONNELLY_CORPORATION_Waiver_of_Domestic_and_Fore...  

Broader source: Energy.gov (indexed) [DOE]

WA00030ASEAMERICASRequesttoAssignTitletoWaiver-Inv.pdf WA1995018OPTICALCOATINGLABORATORYINCWaiverofDomesti.pdf WA04009ROCKWELLSCIENTIFICCOWailve...

28

Parallel MATLAB at VT Gene Cliff (AOE/ICAM -ecliff@vt.edu )  

E-Print Network [OSTI]

Parallel MATLAB at VT Gene Cliff (AOE/ICAM - ecliff@vt.edu ) Justin Krometis (ARC/ICAM - jkrometis Mathematics 1 / 35 #12;MATLAB Parallel Computing Introduction Programming Models Execution Example: Quadrature Conclusion 2 / 35 #12;INTRO: Parallel MATLAB Parallel MATLAB is an extension of MATLAB that takes advantage

Crawford, T. Daniel

29

West Virginia Smart Grid Implementation Plan (WV SGIP) Project  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

30

RAPID/Roadmap/11-WA-a | Open Energy Information  

Open Energy Info (EERE)

Toolkit About Bulk Transmission Geothermal Solar Tools Contribute Contact Us 11-WA-a State Cultural Considerations Overview 11-WA-a - State Cultural Considerations Overview.pdf...

31

W.A. Parish Post-Combustion CO2 Capture and Sequestration Project, Final Environmental Impact Statement (DOE/EIS-0473)  

Broader source: Energy.gov (indexed) [DOE]

W.A. W.A. Parish Post-Combustion CO 2 Capture and Sequestration Project Final Environmental Impact Statement Summary February 2013 DOE/EIS-0473 Office of Fossil Energy National Energy Technology Laboratory INTENTIONALLY LEFT BLANK COVER SHEET Responsible Federal Agency: U.S. Department of Energy (DOE) Title: W.A. Parish Post-Combustion CO 2 Capture and Sequestration Project, Final Environmental Impact Statement (DOE/EIS-0473) Location: Southeastern Texas, including Fort Bend, Wharton, and Jackson counties Contacts: For further information about this Environmental Impact Statement, contact: For general information on the DOE process for implementing the National Environmental Policy Act, contact: Mark W. Lusk U.S. Department of Energy National Energy Technology Laboratory 3610 Collins Ferry Road Morgantown, WV 26507-0880 (304) 285-4145 or Mark.Lusk@netl.doe.gov

32

WA_1995_009_AIR_PRODUCTS_AND_CHEMICALS_INC_Waiver_of_Domesti...  

Broader source: Energy.gov (indexed) [DOE]

9AIRPRODUCTSANDCHEMICALSINCWaiverofDomesti.pdf WA1995009AIRPRODUCTSANDCHEMICALSINCWaiverofDomesti.pdf WA1995009AIRPRODUCTSANDCHEMICALSINCWaiverofDomesti...

33

WA_96_016_AIR_PRODUCTS_AND_CHEMICALS_INC_Waiver_of_Domestic_...  

Office of Energy Efficiency and Renewable Energy (EERE) Indexed Site

16AIRPRODUCTSANDCHEMICALSINCWaiverofDomestic.pdf WA96016AIRPRODUCTSANDCHEMICALSINCWaiverofDomestic.pdf WA96016AIRPRODUCTSANDCHEMICALSINCWaiverofDomest...

34

WA_1995_014_AIR_PRODUCTS_AND_CHEMICALS_INC_Waiver_of_Domesti...  

Broader source: Energy.gov (indexed) [DOE]

14AIRPRODUCTSANDCHEMICALSINCWaiverofDomesti.pdf WA1995014AIRPRODUCTSANDCHEMICALSINCWaiverofDomesti.pdf WA1995014AIRPRODUCTSANDCHEMICALSINCWaiverofDomest...

35

WA_1994_034_AIR_PRODUCTS_AND_CHEMICALS_INC_Waiver_of_Domesti...  

Broader source: Energy.gov (indexed) [DOE]

4034AIRPRODUCTSANDCHEMICALSINCWaiverofDomesti.pdf WA1994034AIRPRODUCTSANDCHEMICALSINCWaiverofDomesti.pdf WA1994034AIRPRODUCTSANDCHEMICALSINCWaiverofDom...

36

WA_99_017_AIR_PRODUCTS_AND_CHEMICALS_Waiver_of_Domestic_and_...  

Broader source: Energy.gov (indexed) [DOE]

9017AIRPRODUCTSANDCHEMICALSWaiverofDomesticand.pdf WA99017AIRPRODUCTSANDCHEMICALSWaiverofDomesticand.pdf WA99017AIRPRODUCTSANDCHEMICALSWaiverofDomesti...

37

WA_04_028_AIR_PRODUCTS_AND_CHEMICALS_Waiver_of_patent_Rights...  

Broader source: Energy.gov (indexed) [DOE]

8AIRPRODUCTSANDCHEMICALSWaiverofpatentRights.pdf WA04028AIRPRODUCTSANDCHEMICALSWaiverofpatentRights.pdf WA04028AIRPRODUCTSANDCHEMICALSWaiverofpatentRigh...

38

WA_1993_028_ALLIANCE_ELECTRIC_COMPANY_Waiver_of_Domestic_and...  

Broader source: Energy.gov (indexed) [DOE]

3028ALLIANCEELECTRICCOMPANYWaiverofDomesticand.pdf WA1993028ALLIANCEELECTRICCOMPANYWaiverofDomesticand.pdf WA1993028ALLIANCEELECTRICCOMPANYWaiverofDomestic...

39

WA_98_006_WESTINGHOUSE_POWER_GENERATION_A_FORMER_DIVISION_OF...  

Broader source: Energy.gov (indexed) [DOE]

6WESTINGHOUSEPOWERGENERATIONAFORMERDIVISIONOF.pdf WA98006WESTINGHOUSEPOWERGENERATIONAFORMERDIVISIONOF.pdf WA98006WESTINGHOUSEPOWERGENERATIONAFORMERDIVISION...

40

WA_98_005_WESTINGHOUSE_POWER_GENERATION_A_FORMER_DIVISION_OF...  

Broader source: Energy.gov (indexed) [DOE]

5WESTINGHOUSEPOWERGENERATIONAFORMERDIVISIONOF.pdf WA98005WESTINGHOUSEPOWERGENERATIONAFORMERDIVISIONOF.pdf WA98005WESTINGHOUSEPOWERGENERATIONAFORMERDIVISION...

Note: This page contains sample records for the topic "vt wa wv" 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

VT Electric Services VTES 601 Energy Dr.  

E-Print Network [OSTI]

VT Electric Services Location VTES 601 Energy Dr. Blacskburg, VA 24061 (540) 231-6437 Office Hours Electric Services is to provide adequate, reliable and economical electric service to the buildings; Street & Sidewalk Illumination Annual Operating Budget $38 million (approx.) Electric Services

Buehrer, R. Michael

42

Parallel MATLAB at VT: Parallel For Loops  

E-Print Network [OSTI]

Parallel MATLAB at VT: Parallel For Loops John Burkardt (FSU) Gene Cliff (AOE/ICAM - ecliff Research Computing ICAM: Interdisciplinary Center for Applied Mathematics 1 / 72 #12;MATLAB Parallel Example ODE SWEEP Example FMINCON Example Conclusion 2 / 72 #12;INTRO: Parallel MATLAB Parallel MATLAB

Crawford, T. Daniel

43

Parallel MATLAB at VT: Parallel For Loops  

E-Print Network [OSTI]

Parallel MATLAB at VT: Parallel For Loops John Burkardt (FSU) Gene Cliff (AOE/ICAM - ecliff Research Computing ICAM: Interdisciplinary Center for Applied Mathematics 1 / 71 #12;MATLAB Parallel Example ODE SWEEP Example FMINCON Example Conclusion 2 / 71 #12;INTRO: Parallel MATLAB Parallel MATLAB

Crawford, T. Daniel

44

Parallel MATLAB at VT: Parallel For Loops  

E-Print Network [OSTI]

Parallel MATLAB at VT: Parallel For Loops John Burkardt (FSU) Gene Cliff (AOE/ICAM - ecliff Research Computing ICAM: Interdisciplinary Center for Applied Mathematics 1 / 56 #12;Matlab Parallel ODE SWEEP Example MD Example Conclusion 2 / 56 #12;INTRO: Parallel Matlab In a previous lecture we

Crawford, T. Daniel

45

WA-TRIBE-STILLAGUAMISH TRIBE OF INDIANS  

Broader source: Energy.gov (indexed) [DOE]

WA-TRIBE-STILLAGUAMISH TRIBE OF INDIANS WA-TRIBE-STILLAGUAMISH TRIBE OF INDIANS Energy Efficiency and Conservation Block Grant Program Location: Tribe WA-TRIBE- STILLAGUAMISH TRIBE OF INDIANS WA American Recovery and Reinvestment Act: Proposed Action or Project Description The Stillaguamish Tribe proposes to expand its Stillaguamish Tribe Transit Services (STTS). For the past three years, the STTS has employed 14-passenger buses to transport clients to and from the tribal medical, dental, behavioral health and massage clinics. Often the demand-response requests that come to STTS are for one to three passengers at a time; therefore, funds are being requested to purchase a hybrid sedan to transport clients. Conditions: None Categorical Exclusion(s) Applied: A1, B1.32, B5.1 *-For the complete DOE National Environmental Policy Act regulations regarding categorical exclusions, see Subpart D of 10 CFR10 21

46

WA_98_016_ABB_POWER_T_AND_D_COMPANY_Waiver_of_Domestic_and_F...  

Broader source: Energy.gov (indexed) [DOE]

More Documents & Publications Advance Patent Waiver W(A)2011-046 Advance Patent Waiver W(A)2009-016 WA96016AIRPRODUCTSANDCHEMICALSINCWaiverofDomestic...

47

Advance Patent Waiver W(A)2009-030 | Department of Energy  

Office of Energy Efficiency and Renewable Energy (EERE) Indexed Site

public. Advance Patent Waiver W(A)2009-030 More Documents & Publications WA97030AIRPRODUCTSWaiverofDomesticandForeignPaten.pdf WA98001REYNOLDSMETALSCOMPANYW...

48

WA_04_085_THE_BOEING_COMPANY_Waiver_of_domestic_and_Foreign_...  

Broader source: Energy.gov (indexed) [DOE]

More Documents & Publications Advance Patent Waiver W(A)2010-018 Advance Patent Waiver W(A)2007-012 WA99017AIRPRODUCTSANDCHEMICALSWaiverofDomesticand...

49

WA_00_025_PRAXAIR_INC_Waiver_Request.pdf | Department of Energy  

Broader source: Energy.gov (indexed) [DOE]

25PRAXAIRINCWaiverRequest.pdf WA00025PRAXAIRINCWaiverRequest.pdf WA00025PRAXAIRINCWaiverRequest.pdf More Documents & Publications WA00001PRAXAIRINCWaiverofDo...

50

WA_00_035_ALCOA_INC_Waiver_of_Domestic_and_Foreign_Rights_in...  

Broader source: Energy.gov (indexed) [DOE]

& Publications WA03054HEILTRAILERINTERNATIONALWaiverofDomesticand.pdf WA00011HONEYWELLINTERNATIONALWaiverofDomesticandFor.pdf Advance Patent Waiver W(A)2010-051...

51

WA_03_054_HEIL_TRAILER_INTERNATIONAL_Waiver_of_Domestic_and_...  

Broader source: Energy.gov (indexed) [DOE]

& Publications WA00035ALCOAINCWaiverofDomesticandForeignRightsin.pdf WA00011HONEYWELLINTERNATIONALWaiverofDomesticandFor.pdf Advance Patent Waiver W(A)2010-051...

52

VIRGINIA BUSINESS Advertising SupplementVIRGINIA BUSINESSVIRGINIA BUSINESS Advertising Supplement INNINNOOVATIVATIVATIVATIVATIVATIVATIVATIVATIVATIVATIVATIOwww.vt.edu  

E-Print Network [OSTI]

VIRGINIA BUSINESS Advertising SupplementVIRGINIA BUSINESSVIRGINIA BUSINESS Advertising Supplement.vt.edu Owww.vt.edu OOwww.vt.edu Owww.vt.edu ONN #12;VIRGINIA BUSINESS Advertising Supplement IDEASATWORK VT2-added byproducts and,in the process,reducing pollutants flowing into the Chesapeake Bay; and improving automated

Buehrer, R. Michael

53

RAPID/Roadmap/4-WA-a | Open Energy Information  

Open Energy Info (EERE)

4-WA-a State Exploration Process 4-WA-a State Exploration Process.pdf Click to View Fullscreen Permit Overview Developers desiring to conduct geothermal exploration activities on...

54

RAPID/Roadmap/3-WA-b | Open Energy Information  

Open Energy Info (EERE)

needs access to state lands for exploratory purposes, then they should begin the State Exploration Process. Green arrow.PNG 4-WA-a: State Exploration Process 3-WA-b.3 to...

55

RAPID/Roadmap/19-WA-f | Open Energy Information  

Open Energy Info (EERE)

9-WA-f Water Well NOI for Replacement or Additional Wells 19-WA-f - Water Well NOI for Replacement or Additional Wells.pdf Click to View Fullscreen Permit Overview A developer...

56

RECIPIENT:WA Dept. of Commerce STATE: WA PROJECT SEP ARRA SIRTI -  

Broader source: Energy.gov (indexed) [DOE]

WA Dept. of Commerce STATE: WA WA Dept. of Commerce STATE: WA PROJECT SEP ARRA SIRTI - Demand Energy - Energy Storage System Tied to Solar on Commercial Facility TITLE: Funding Opportunity Announcement Number Procurement Instrument Number NEPA Control Number cm Number DE-FOA-0000052 DE-EEOOO0139 GFO-o000139-031 Based on my review ofthe information concerning the proposed action, as NEPA Compliance Officer (authorized under DOE Order 4S1.1A), I have made the following determination: CX, EA, EIS APPENDIX AND NUMBER: Description: A9 Information gathering (including, but not limited to, literature surveys, inventories, audits), data analysis (including computer modeling), document preparation (such as conceptual design or feasibility studies, analytical energy supply and demand studies), and dissemination (including, but not limited to, document mailings, publication, and distribution;

57

Advance Patent Waiver W(A)2011-011 | Department of Energy  

Broader source: Energy.gov (indexed) [DOE]

W(A)2011-011 More Documents & Publications Advance Patent Waiver W(A)2008-011 Advance Patent Waiver W(A)2008-045 WA07038POETPROJECTLIBERTYLLCWaiverofDomesticandFo...

58

Advance Patent Waiver W(A)2005-006 | Department of Energy  

Broader source: Energy.gov (indexed) [DOE]

W(A)2005-006 More Documents & Publications Advance Patent Waiver W(A)2008-022 WA04079PRAXAIRINCWaiverofPatentRightsUnderaSubcon.pdf Advance Patent Waiver W(A)2011-063...

59

Advance Patent Waiver W(A)2002-023 | Department of Energy  

Broader source: Energy.gov (indexed) [DOE]

2-023 Advance Patent Waiver W(A)2002-023 Advance Patent Waiver W(A)2002-023 More Documents & Publications Advance Patent Waiver W(A)2006-028 WA05056IBMWATSONRESEARCHCENTERWa...

60

WA_-01_001_PHILLIPS_PETROLEUM_Waiver_of_Domestic_and_Foreign...  

Broader source: Energy.gov (indexed) [DOE]

-01001PHILLIPSPETROLEUMWaiverofDomesticandForeign.pdf WA-01001PHILLIPSPETROLEUMWaiverofDomesticandForeign.pdf WA-01001PHILLIPSPETROLEUMWaiverofDomesticand...

Note: This page contains sample records for the topic "vt wa wv" 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

WA_07_038_POET_PROJECT_LIBERTY_LLC_Waiver_of_Domestic_and_Fo...  

Broader source: Energy.gov (indexed) [DOE]

7038POETPROJECTLIBERTYLLCWaiverofDomesticandFo.pdf WA07038POETPROJECTLIBERTYLLCWaiverofDomesticandFo.pdf WA07038POETPROJECTLIBERTYLLCWaiverofDomestic...

62

WA_1993_041_ROCKETDYNE_AND_LLNL_Waiver_of_the_Governments_U.pdf...  

Broader source: Energy.gov (indexed) [DOE]

1ROCKETDYNEANDLLNLWaiveroftheGovernmentsU.pdf WA1993041ROCKETDYNEANDLLNLWaiveroftheGovernmentsU.pdf WA1993041ROCKETDYNEANDLLNLWaiveroftheGovernmentsU.pd...

63

WA_1993_042_UNITED_TECHNOLOGIES_CORPORATION_Waiver_of_the_Go...  

Broader source: Energy.gov (indexed) [DOE]

TIONWaiveroftheGo.pdf More Documents & Publications WA1993040REGENTSOFTHEUNIVERSITYOFCALIFORNIAWaivero.pdf WA1993041ROCKETDYNEANDLLNLWaiveroftheGovernmentsU...

64

WA_99_015_FORD_MOTOR_COMPANY_Waiver_of_Domestic_and_Foreign_...  

Broader source: Energy.gov (indexed) [DOE]

COMPANYWaiverofDomesticandForeign.pdf More Documents & Publications WA97038FORDMOTORCOMPANYWaiverofDomesticandForeign.pdf WA98008GENERALELECTRICCOMPANYWaive...

65

WA_99_022_AIR_PRODUCTS_AND_CHEMICAL_Waiver_of_Domestic_and_F...  

Broader source: Energy.gov (indexed) [DOE]

9022AIRPRODUCTSANDCHEMICALWaiverofDomesticandF.pdf WA99022AIRPRODUCTSANDCHEMICALWaiverofDomesticandF.pdf WA99022AIRPRODUCTSANDCHEMICALWaiverofDomestic...

66

WA_02_015_AIR_PRODUCTS_AND_CHEMICALS_INC_Waiver_of_Patent_Ri...  

Broader source: Energy.gov (indexed) [DOE]

15AIRPRODUCTSANDCHEMICALSINCWaiverofPatentRi.pdf WA02015AIRPRODUCTSANDCHEMICALSINCWaiverofPatentRi.pdf WA02015AIRPRODUCTSANDCHEMICALSINCWaiverofPatent...

67

WA_04_063_AIR_PRODUCTS_AND_CHEMICALS_Waiver_of_Patent_Rights...  

Broader source: Energy.gov (indexed) [DOE]

63AIRPRODUCTSANDCHEMICALSWaiverofPatentRights.pdf WA04063AIRPRODUCTSANDCHEMICALSWaiverofPatentRights.pdf WA04063AIRPRODUCTSANDCHEMICALSWaiverofPatentRig...

68

WA_04_083_AIR_PRODUCTS_AND_CHEMICALS_Waiver_of_Patent_Rights...  

Broader source: Energy.gov (indexed) [DOE]

83AIRPRODUCTSANDCHEMICALSWaiverofPatentRights.pdf WA04083AIRPRODUCTSANDCHEMICALSWaiverofPatentRights.pdf WA04083AIRPRODUCTSANDCHEMICALSWaiverofPatentRig...

69

WA_01_005__PRAXAIR_INC_Waiver_of_Domestic_and_Foreign_patent...  

Broader source: Energy.gov (indexed) [DOE]

1005PRAXAIRINCWaiverofDomesticandForeignpatent.pdf WA01005PRAXAIRINCWaiverofDomesticandForeignpatent.pdf WA01005PRAXAIRINCWaiverofDomesticandForeign...

70

WA_01_022_PRAXAIR_INC_AND_BP_AMOCO_Waiver_of_Domestic_and_Fo...  

Broader source: Energy.gov (indexed) [DOE]

1022PRAXAIRINCANDBPAMOCOWaiverofDomesticandFo.pdf WA01022PRAXAIRINCANDBPAMOCOWaiverofDomesticandFo.pdf WA01022PRAXAIRINCANDBPAMOCOWaiverofDomestic...

71

WA_03_018_HONEYWELL_INTERNATIONAL_Waiver_of_Domestic_and_For...  

Broader source: Energy.gov (indexed) [DOE]

3018HONEYWELLINTERNATIONALWaiverofDomesticandFor.pdf WA03018HONEYWELLINTERNATIONALWaiverofDomesticandFor.pdf WA03018HONEYWELLINTERNATIONALWaiverofDomestica...

72

WA_02_028_TRANE_CO__Waiver_of_Domestic_and_Foreign_Rights_in...  

Broader source: Energy.gov (indexed) [DOE]

5YORKINTERNATIONALCORPORATIONWaiverofDomesti.pdf WA01034INGERSOLL-RANDENERGYSYSTEMSWaiverofDomestica.pdf WA01011HONEYWELLLABORATORIESWaiverofDomesticandFore...

73

WA_04_040_HONEYWELL_INTERNATIONAL_INC_Waiver_of_Patent_Right...  

Broader source: Energy.gov (indexed) [DOE]

40HONEYWELLINTERNATIONALINCWaiverofPatentRight.pdf WA04040HONEYWELLINTERNATIONALINCWaiverofPatentRight.pdf WA04040HONEYWELLINTERNATIONALINCWaiverofPatentRi...

74

WA_03_041_HONEYWELL_INTERNATIONAL_Waiver_of_Domestic_and_For...  

Broader source: Energy.gov (indexed) [DOE]

3041HONEYWELLINTERNATIONALWaiverofDomesticandFor.pdf WA03041HONEYWELLINTERNATIONALWaiverofDomesticandFor.pdf WA03041HONEYWELLINTERNATIONALWaiverofDomestica...

75

WA_01_011_HONEYWELL_LABORATORIES_Waiver_of_Domestic_and_Fore...  

Broader source: Energy.gov (indexed) [DOE]

11HONEYWELLLABORATORIESWaiverofDomesticandFore.pdf WA01011HONEYWELLLABORATORIESWaiverofDomesticandFore.pdf WA01011HONEYWELLLABORATORIESWaiverofDomesticandF...

76

WA_00_011_HONEYWELL_INTERNATIONAL_Waiver_of_Domestic_and_For...  

Broader source: Energy.gov (indexed) [DOE]

0011HONEYWELLINTERNATIONALWaiverofDomesticandFor.pdf WA00011HONEYWELLINTERNATIONALWaiverofDomesticandFor.pdf WA00011HONEYWELLINTERNATIONALWaiverofDomestica...

77

WA_00_010_ROCKWELL_SCIENCE_CENTER_A_Subcontractor_of_SILICON...  

Broader source: Energy.gov (indexed) [DOE]

NTERASubcontractorofSILICON.pdf More Documents & Publications WA03011ROCKWELLAUTOMATIONWaiverofPatentRightsUnder.pdf WA01034INGERSOLL-RANDENERGYSYSTEMSWaiverof...

78

WA_04_034_NUVERA_FUEL_CELLS_INC_Waiver_of_Domestic_and_Forei...  

Broader source: Energy.gov (indexed) [DOE]

34NUVERAFUELCELLSINCWaiverofDomesticandForei.pdf WA04034NUVERAFUELCELLSINCWaiverofDomesticandForei.pdf WA04034NUVERAFUELCELLSINCWaiverofDomesticandFo...

79

WA_04_041_NUVERA_FUEL_CELLS_INC_Waiver_of_Domestic_and_Forei...  

Broader source: Energy.gov (indexed) [DOE]

41NUVERAFUELCELLSINCWaiverofDomesticandForei.pdf WA04041NUVERAFUELCELLSINCWaiverofDomesticandForei.pdf WA04041NUVERAFUELCELLSINCWaiverofDomesticandFo...

80

VT Exchange Program in South Africa University of  

E-Print Network [OSTI]

VT Exchange Program in South Africa University of the Free State Jim McKenna jamckenn@vt.edu http://www.ufs.ac.za/ #12;Republic of South Africa South African Provinces Fly into Bloemfontein in the Free State #12;Kruger National Park #12;Travels in South Africa Cape Town & Stellenbosch #12;

Buehrer, R. Michael

Note: This page contains sample records for the topic "vt wa wv" 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

BayWa Group | Open Energy Information  

Open Energy Info (EERE)

BayWa Group BayWa Group Jump to: navigation, search Name BayWa Group Place Munich, Germany Zip 81925 Sector Services, Solar Product Germany-based company with international operations specialised in wholesale and retail and in providing services. The company is also active in the biofuel and solar sectors. Coordinates 48.136415°, 11.577531° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":48.136415,"lon":11.577531,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

82

BayWa Sunways JV | Open Energy Information  

Open Energy Info (EERE)

Sunways JV Jump to: navigation, search Name: BayWa & Sunways JV Place: Germany Sector: Solar Product: Germany-based JV that specialises in developing, planning and realizing...

83

RAPID/Roadmap/14-WA-b | Open Energy Information  

Open Energy Info (EERE)

RAPID Regulatory and Permitting Information Desktop Toolkit BETA RAPID Toolkit About Bulk Transmission Geothermal Solar Tools Contribute Contact Us 14-WA-b NPDES Permit...

84

RAPID/Roadmap/9-WA-a | Open Energy Information  

Open Energy Info (EERE)

(EIS) is necessary. Contact Information Agency Washington State Department of Ecology Position State Environmental Issues Contact Name Fran Sant Email fran.sant@ecy.wa.gov...

85

Fourth Annual SECA Meeting - Seattle, WA  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Fourth Annual SECA Meeting - Seattle, WA Fourth Annual SECA Meeting - Seattle, WA April 15-16, 2003 Table of Contents Disclaimer Papers and Presentations Expanded Applications of SECA Fuel Cells SECA Industrial Team Reports Military Applications of Fuel Cells Technology Highlights Environmental Considerations Disclaimer This report was prepared as an account of work sponsored by an agency of the United States Government. Neither the United States Government or any agency thereof, nor any of their employees, makes any warranty, express or implied, or assumes any legal liability or responsibility for the accuracy, completeness, or usefulness of any information, apparatus, product, or process disclosed, or represents that its use would not infringe privately owned rights. Reference herein to any specific commercial product, process, or service by trade name, trademark, manufacturer, or otherwise does not necessarily constitute or imply its endorsement, recommendation, or favoring by the United States Government or any agency thereof. The views and opinions of authors expressed herein do not necessarily state or reflect those of the United States Government or any agency thereof.

86

NREL: Wind Research - Ventera's VT 10 Turbine Testing and Results  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Ventera's VT 10 Turbine Testing and Results Ventera's VT 10 Turbine Testing and Results Ventera's VT10 wind turbine. Text Version As part of the National Renewable Energy Laboratory and U.S. Department of Energy (NREL/DOE) Independent Testing project, NREL is testing Ventera's VT10 small wind turbine at the National Wind Technology Center (NWTC). The VT10 is a horizontal-axis downwind, three-bladed turbine rated at 10 kilowatts (kW). Its diameter is 6.7 meters, and it is mounted on a lattice tower with a hub height of 21.7 meters. The VT10 uses a single-phase, grid-connected, permanent-magnet generator that operates at 240 volts AC. Testing Summary The summary of the tests is listed below, along with the final reports. Cumulative Energy Production 3/22/2010: 0; 3/29/2010: 26; 3/31/2010: 74; 4/1/2010: 75; 4/2/2010: 174;

87

waTer economics. environmenTand Policy  

E-Print Network [OSTI]

41 cenTre for waTer economics. environmenTand Policy "Men and nature must work hand in hand and public policy insights for the supply, demand, management, and governance of water CWEEP pronounced `sweep' as in to survey so as to obtain a whole and continuous view of the world #12;42 waTer is a cri

Botea, Adi

88

RECIPIENT:WA Department of Commerce STATE: WA PROJECT Van Dyk Dairy Anaerobic Digester  

Broader source: Energy.gov (indexed) [DOE]

of5 of5 RECIPIENT:WA Department of Commerce STATE: WA PROJECT Van Dyk Dairy Anaerobic Digester TITLE: Funding Opportunity Announcement Number Procurement Instrument Number NEPA Control Number cm Number DE-EE0000139 GF0-10-604 Based on my review oftbe information concerning the proposed action, as NEPA CompUance Officer (authorized under DOE Order 451.1A), I have made the foUowing determination: cx, EA, EIS APPENDIX AND NUMBER: Description: A9 Information gathering (including, but not limited to, literature surveys, inventories, audits), data analysis (including computer modeling), document preparation (such as conceptual design or feasibility studies, analytical energy supply and demand studies), and dissemination (including, but not limited to, document mailings, publication, and distribution;

89

Hanford, WA Selected as Plutonium Production Facility | National Nuclear  

National Nuclear Security Administration (NNSA)

Hanford, WA Selected as Plutonium Production Facility | National Nuclear Hanford, WA Selected as Plutonium Production Facility | National Nuclear Security Administration Our Mission Managing the Stockpile Preventing Proliferation Powering the Nuclear Navy Emergency Response Recapitalizing Our Infrastructure Continuing Management Reform Countering Nuclear Terrorism About Us Our Programs Our History Who We Are Our Leadership Our Locations Budget Our Operations Media Room Congressional Testimony Fact Sheets Newsletters Press Releases Speeches Events Social Media Video Gallery Photo Gallery NNSA Archive Federal Employment Apply for Our Jobs Our Jobs Working at NNSA Blog Home > About Us > Our History > NNSA Timeline > Hanford, WA Selected as Plutonium Production Facility Hanford, WA Selected as Plutonium Production Facility January 16, 1943 Hanford, WA

90

Advance Patent Waiver W(A)2008-035 | Department of Energy  

Broader source: Energy.gov (indexed) [DOE]

public. Advance Patent Waiver W(A)2008-035 More Documents & Publications WA07038POETPROJECTLIBERTYLLCWaiverofDomesticandFo.pdf Advance Patent Waiver W(A)2008-022...

91

Advance Patent Waiver W(A)2010-042 | Department of Energy  

Broader source: Energy.gov (indexed) [DOE]

Waiver W(A)2010-042 More Documents & Publications Advance Patent Waiver W(A)2005-023 WA02055PRAXAIRWaiverofDomesticandForeignPatentRigh.pdf ClassWaiverWC-2003-001.pdf...

92

WA_00_008_PLUG_POWER_Waiver_of_Patent_Rights_in_Performance_...  

Broader source: Energy.gov (indexed) [DOE]

POWERWaiverofPatentRightsinPerformance.pdf More Documents & Publications WA99012AIRPRODUCTSWaiverofPatentRightsUnderANNVO.pdf WA99022AIRPRODUCTSANDCHEMICAL...

93

WA_99_012_AIR_PRODUCTS_Waiver_of_Patent_Rights_Under_AN_NVO_...  

Broader source: Energy.gov (indexed) [DOE]

2AIRPRODUCTSWaiverofPatentRightsUnderANNVO.pdf WA99012AIRPRODUCTSWaiverofPatentRightsUnderANNVO.pdf WA99012AIRPRODUCTSWaiverofPatentRightsUnderANNV...

94

WA_1994_027_FORD_MOTOR_COMPANY_Waiver_of_Domestic_and_Foreig...  

Broader source: Energy.gov (indexed) [DOE]

2FORDMOTORCOMPANYWaiverofDomesticandForeig.pdf WA97038FORDMOTORCOMPANYWaiverofDomesticandForeign.pdf WA99012AIRPRODUCTSWaiverofPatentRightsUnderANNVO...

95

WA_00_018_PRAXAIR_Waive_of_Domestic_and_Foreign_Invention_Ri...  

Broader source: Energy.gov (indexed) [DOE]

18PRAXAIRWaiveofDomesticandForeignInventionRi.pdf WA00018PRAXAIRWaiveofDomesticandForeignInventionRi.pdf WA00018PRAXAIRWaiveofDomesticandForeignInvention...

96

WA_02_046_QUESTA_AIR_TECHNOLOGIES_Waiver_of_Domestic_and_For...  

Broader source: Energy.gov (indexed) [DOE]

IRTECHNOLOGIESWaiverofDomesticandFor.pdf More Documents & Publications WA02055PRAXAIRWaiverofDomesticandForeignPatentRigh.pdf WA02021H2GENINNOVATIONSWaiverof...

97

WA_03_024_PRAXAIR_Waiver_of_Domestic_and_Foreign_Invention_R...  

Broader source: Energy.gov (indexed) [DOE]

24PRAXAIRWaiverofDomesticandForeignInventionR.pdf WA03024PRAXAIRWaiverofDomesticandForeignInventionR.pdf WA03024PRAXAIRWaiverofDomesticandForeignInventio...

98

WA_01_039_PRAXAIR_INC_Waiver_of_Domestic_and_Foreign_Patent_...  

Broader source: Energy.gov (indexed) [DOE]

1039PRAXAIRINCWaiverofDomesticandForeignPatent.pdf WA01039PRAXAIRINCWaiverofDomesticandForeignPatent.pdf WA01039PRAXAIRINCWaiverofDomesticandForeignP...

99

WA_02_055_PRAXAIR_Waiver_of_Domestic_and_Foreign_Patent_Righ...  

Broader source: Energy.gov (indexed) [DOE]

2055PRAXAIRWaiverofDomesticandForeignPatentRigh.pdf WA02055PRAXAIRWaiverofDomesticandForeignPatentRigh.pdf WA02055PRAXAIRWaiverofDomesticandForeignPaten...

100

WA_00_001_PRAXAIR_INC_Waiver_of_Domestic_and_Foreign_Inventi...  

Broader source: Energy.gov (indexed) [DOE]

01PRAXAIRINCWaiverofDomesticandForeignInventi.pdf WA00001PRAXAIRINCWaiverofDomesticandForeignInventi.pdf WA00001PRAXAIRINCWaiverofDomesticandForeignInve...

Note: This page contains sample records for the topic "vt wa wv" 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.


101

WA_04_079_PRAXAIR_INC_Waiver_of_Patent_Rights_Under_a_Subcon...  

Broader source: Energy.gov (indexed) [DOE]

04079PRAXAIRINCWaiverofPatentRightsUnderaSubcon.pdf WA04079PRAXAIRINCWaiverofPatentRightsUnderaSubcon.pdf WA04079PRAXAIRINCWaiverofPatentRightsUndera...

102

WA_02_022_HONEYWELL_INC_Waiver_of_Domestic_and_Foreign_Inven...  

Broader source: Energy.gov (indexed) [DOE]

22HONEYWELLINCWaiverofDomesticandForeignInven.pdf WA02022HONEYWELLINCWaiverofDomesticandForeignInven.pdf WA02022HONEYWELLINCWaiverofDomesticandForeignIn...

103

WA_02_045_KENNAMETAL_INC_Waiver_of_Domestic_and_Foreign_Righ...  

Broader source: Energy.gov (indexed) [DOE]

LINCWaiverofDomesticandForeignRigh.pdf More Documents & Publications WA00011HONEYWELLINTERNATIONALWaiverofDomesticandFor.pdf WA01034INGERSOLL-RANDENERGYSYSTEMS...

104

WA_04_039_HONEYWELL_INTERNATIONAL_Waiver_of_Patent_Rights_Un...  

Broader source: Energy.gov (indexed) [DOE]

9HONEYWELLINTERNATIONALWaiverofPatentRightsUn.pdf WA04039HONEYWELLINTERNATIONALWaiverofPatentRightsUn.pdf WA04039HONEYWELLINTERNATIONALWaiverofPatentRights...

105

WA_04_007_OSHKOSH_TRUCK_CORP_Waiver_of_Patent_Rights_Under_N...  

Broader source: Energy.gov (indexed) [DOE]

WaiverofPatentRightsUnderN.pdf More Documents & Publications WA03011ROCKWELLAUTOMATIONWaiverofPatentRightsUnder.pdf WA04008GENERALMOTORSCORPWaiverofPatentRi...

106

WA_03_011_ROCKWELL_AUTOMATION_Waiver_of_Patent_Rights_Under_...  

Broader source: Energy.gov (indexed) [DOE]

3011ROCKWELLAUTOMATIONWaiverofPatentRightsUnder.pdf WA03011ROCKWELLAUTOMATIONWaiverofPatentRightsUnder.pdf WA03011ROCKWELLAUTOMATIONWaiverofPatentRights...

107

Isotopic Studies of Contaminant Transport at the Hanford Site, WA  

E-Print Network [OSTI]

MR-0132. Westinghouse Hanford Company, Richland WA. Bretz,in recharge at the Hanford Site. Northwest Science. 66:237-M.J. , ed. 2000. Hanford Site groundwater Monitoring

Christensen, J.N.; Conrad, M.E.; DePaolo, D.J.; Dresel, P.E.

2008-01-01T23:59:59.000Z

108

RAPID/Roadmap/18-WA-b | Open Energy Information  

Open Energy Info (EERE)

period in which the WSDE has to respond to the Demonstration of Compliance. 18-WA-b.17 - Conduct Public Meeting, if Requested If the public requests a public meeting on the...

109

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

110

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.

111

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

112

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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)

113

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

114

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

115

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.

116

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.

117

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

118

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

Broader source: Energy.gov (indexed) [DOE]

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

119

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

120

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

Annual Energy Outlook 2013 [U.S. Energy Information Administration (EIA)]

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 SC NC WV PA NJ MD DE NY CT ME RI MA NH VA WI MI OH NE SD MN ND AR LA OR CA VT...

Note: This page contains sample records for the topic "vt wa wv" 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

F-7 U.S. Energy Information Administration | Annual Energy Outlook...  

Annual Energy Outlook 2013 [U.S. Energy Information Administration (EIA)]

2014 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...

122

F-5 U.S. Energy Information Administration | Annual Energy Outlook...  

Gasoline and Diesel Fuel Update (EIA)

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 SC NC WV PA NJ MD DE NY CT ME RI MA NH VA WI MI OH NE SD MN ND AR LA OR CA VT...

123

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

Annual Energy Outlook 2013 [U.S. Energy Information Administration (EIA)]

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...

124

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

Annual Energy Outlook 2013 [U.S. Energy Information Administration (EIA)]

2013 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...

125

padd map  

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

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

126

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

Gasoline and Diesel Fuel Update (EIA)

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 MA NH VT NY ME RI...

127

Microsoft Word - figure_99.doc  

Gasoline and Diesel Fuel Update (EIA)

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

128

Gaseous Detonation-Driven Fracture of Tubes Tong Wa Chao  

E-Print Network [OSTI]

Gaseous Detonation-Driven Fracture of Tubes Thesis by Tong Wa Chao In Partial Fulfillment An experimental investigation of fracture response of aluminum 6061-T6 tubes under internal gaseous detonation on the detonation velocity, strain history, blast pressure from the crack opening, and crack speeds. The curved

129

EIS-0397: Lyle Falls Fish Passage Project, WA  

Broader source: Energy.gov [DOE]

This EIS analyzes BPA's decision to modify funding to the existing Lyle Falls Fishway on the lower Klickitat River in Klickitat County, WA. The proposed project would help BPA meet its off-site mitigation responsibilities for anadromous fish affected by the development of the Federal Columbia River Power System and increase overall fish production in the Columbia Basin.

130

DOE - Office of Legacy Management -- University of Washington - WA 0-01  

Office of Legacy Management (LM)

Washington - WA 0-01 Washington - WA 0-01 FUSRAP Considered Sites Site: UNIVERSITY OF WASHINGTON (WA.0-01) Eliminated from further consideration under FUSRAP Designated Name: Not Designated Alternate Name: None Location: Seattle , Washington WA.0-01-1 Evaluation Year: 1987 WA.0-01-1 Site Operations: Research activities involving small quantities of radioactive materials in a controlled environment. WA.0-01-1 Site Disposition: Eliminated - Potential for residual radioactive contamination considered remote - Operating under active NRC license WA.0-01-1 Radioactive Materials Handled: Yes Primary Radioactive Materials Handled: None Indicated WA.0-01-1 Radiological Survey(s): None Indicated Site Status: Eliminated from further consideration under FUSRAP Also see

131

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

132

VrnVtR^iTY OF CALIFOKKIA L  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

VrnVtR^iTY OF CALIFOKKIA VrnVtR^iTY OF CALIFOKKIA L a w r e n c s BadidUon L a b o r a t o r y B e r k e l e y , Calift^raia Contract rto "*'-740n-.e,ig~48 THE EARLY ANJ'IPROTON WORK Owen GharBDeriair. DecetDfter 15, 195.9 L i G A L N O T I C E - This report was prepared as an account ot <: I nor any person acUng on beliflU of the C DISCLAIMER This report was prepared as an account of work sponsored by an agency of the United States Government. Neither the United States Government nor any agency Thereof, nor any of their employees, makes any warranty, express or implied, or assumes any legal liability or responsibility for the accuracy, completeness, or usefulness of any information, apparatus, product, or process disclosed, or represents that its use would not infringe privately owned rights. Reference herein to any specific commercial product,

133

The Regulatory Assistance Project 50 State Street, Suite 3 Montpelier, VT 05602  

E-Print Network [OSTI]

Loads to Resources (and Resources to Loads) 1. Targeted energy efficiency 2. Orient solar panels 3. Use State Street, Suite 3 Montpelier, VT 05602 Phone: 802-223-8199 web: www.raponline.org Resource MaterialsThe Regulatory Assistance Project 50 State Street, Suite 3 Montpelier, VT 05602 Phone: 802

California at Davis, University of

134

File:INL-geothermal-wa.pdf | Open Energy Information  

Open Energy Info (EERE)

wa.pdf wa.pdf Jump to: navigation, search File File history File usage Washington Geothermal Resources Size of this preview: 699 × 600 pixels. Full resolution ‎(4,835 × 4,147 pixels, file size: 3.28 MB, MIME type: application/pdf) Description Washington Geothermal Resources Sources Idaho National Laboratory Authors Patrick Laney; Julie Brizzee Related Technologies Geothermal Creation Date 2003-11-01 Extent State Countries United States UN Region Northern America States Washington File history Click on a date/time to view the file as it appeared at that time. Date/Time Thumbnail Dimensions User Comment current 12:45, 16 December 2010 Thumbnail for version as of 12:45, 16 December 2010 4,835 × 4,147 (3.28 MB) MapBot (Talk | contribs) Automated upload from NREL's "mapsearch" data

135

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

136

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

137

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

138

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

139

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

140

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

Note: This page contains sample records for the topic "vt wa wv" 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

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

142

GRR/Section 15-WA-a - Air Quality Notice of Construction Permit | Open  

Open Energy Info (EERE)

5-WA-a - Air Quality Notice of Construction Permit 5-WA-a - Air Quality Notice of Construction Permit < GRR Jump to: navigation, search GRR-logo.png GEOTHERMAL REGULATORY ROADMAP Roadmap Home Roadmap Help List of Sections Section 15-WA-a - Air Quality Notice of Construction Permit 15-WA-a - Air Quality Notice of Construction Permit.pdf Click to View Fullscreen Contact Agencies Washington State Department of Ecology Regulations & Policies WAC 173-400-110 WAC 173-400-111 WAC 173-400-171 Triggers None specified This flowchart illustrates the process for obtaining an Air Quality Notice of Construction Permit. The Washington State Department of Ecology (WSDE) oversees the permitting process under WAC 173-400. 15-WA-a - Air Quality Notice of Construction Permit.pdf 15-WA-a - Air Quality Notice of Construction Permit.pdf 15-WA-a - Air Quality Notice of Construction Permit.pdf

143

Albany, OR Anchorage, AK Morgantown, WV Pittsburgh, PA Sugar Land, TX Website: www.netl.doe.gov  

E-Print Network [OSTI]

Albany, OR · Anchorage, AK · Morgantown, WV · Pittsburgh, PA · Sugar Land, TX Website: www.netl-285-5437 briggs.white@netl.doe.gov Neil Nofziger Principal Investigator seM-coM company, Inc. 1040 North Westwood 304-285-4717 daniel.driscoll@netl.doe.gov PARTNERS University of Toledo Ceramatec, Inc. PROJECT

Azad, Abdul-Majeed

144

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

145

GRR/Section 9-WA-b - State Environmental Review | Open Energy Information  

Open Energy Info (EERE)

GRR/Section 9-WA-b - State Environmental Review GRR/Section 9-WA-b - State Environmental Review < GRR Jump to: navigation, search GRR-logo.png GEOTHERMAL REGULATORY ROADMAP Roadmap Home Roadmap Help List of Sections Section 9-WA-b - State Environmental Review 9-WA-b - State Environmental Review.pdf Click to View Fullscreen Triggers None specified Once the lead agency is determined they are responsible for continuing forward with environmental review. In Washington, environmental review is effectuated through the developer completing an Environmental Checklist which assists the lead agency in determining whether the proposal will likely result in negative impacts on the environment. 9-WA-b - State Environmental Review.pdf 9-WA-b - State Environmental Review.pdf Error creating thumbnail: Page number not in range.

146

W(A)94-022 STATEMENT OF CONSIDERATIONS  

Broader source: Energy.gov (indexed) [DOE]

4-022 4-022 STATEMENT OF CONSIDERATIONS Request by Cummins Power Generation, Inc., for an Advance Waiver of Domestic and Foreign Patent Rights to Inventions made under a contract entitled "Utility Scale Joint Venture Project," between Cummins Power Generation, Inc. and Sandia National Laboratories (Contract No. AB- 8717B) under Management and Operations Contract DE-AL04-84AL85000, DOE Docket No. W(A)94-022. The petitioner, Cummins Power Generation, Inc., (CPG) has requested a waiver of all domestic and foreign patent rights to inventions which it may conceive or first actually reduce to practice in the course of work under the Utility Scale Joint Venture Project between Petitioner and Sandia National Laboratories (Sandia) under contract No. AB- 8717B. Sandia is operated by Sandia Corporation for the U.S. Department of Energy (DOE).

147

W(A)93-013 STATEMENT OF CONSIDERATIONS  

Broader source: Energy.gov (indexed) [DOE]

13 13 STATEMENT OF CONSIDERATIONS Request by AlliedSignal, Inc. for Waiver of Domestic and Foreign Patent Rights to inventions that may arise under Contract No. DE-FC04-93AL94462 between the United States Department of Energy (DOE) and AlliedSignal, Inc. DOE Docket: W(A)93-013 The Petitioner, AlliedSignal, Inc. (AlliedSignal), has requested a waiver of all domestic and foreign patent rights to inventions which it may conceive or reduce to practice in the course of work under Contract No. DE-FC04-93AL94462, a Cooperative Agreement with DOE. The project period is May 14, 1993 through May 13, 1996. The Cooperative Agreement covers work in designing a biological/chemical production process for caprolactam using microbial bioprocesses that convert cyclohexane to

148

W(A)93-039 STATEMENT OF CONSIDERATIONS  

Broader source: Energy.gov (indexed) [DOE]

39 39 STATEMENT OF CONSIDERATIONS Request by Air Products and Chemicals, Inc. for Waiver of Domestic and Foreign Patent Rights to inventions that may arise under Contract No. DE-FC04-93AL94461 between the United States Department of Energy (DOE) and Air Products and Chemicals, Inc. DOE Docket: W(A)93-039. The Petitioner, Air Products and Chemicals, Inc., (Air Products) has requested a waiver of all domestic and foreign patent rights to inventions which it may conceive or reduce to practice in the course of work under Contract No. DE-FC04-93AL94461 a Cooperative Agreement with DOE. The contract covers a four phase development program for a recently patented technology developed at Air Products entitled "Novel Selective Surface Flow (SSF T ) Membranes for the

149

GRR/Section 12-WA-a - Live Wildlife Taking Permit | Open Energy Information  

Open Energy Info (EERE)

GRR/Section 12-WA-a - Live Wildlife Taking Permit GRR/Section 12-WA-a - Live Wildlife Taking Permit < GRR Jump to: navigation, search GRR-logo.png GEOTHERMAL REGULATORY ROADMAP Roadmap Home Roadmap Help List of Sections Section 12-WA-a - Live Wildlife Taking Permit 12-WA-a - Live Wildlife Taking Permit.pdf Click to View Fullscreen Contact Agencies Washington State Department of Fish and Wildlife Regulations & Policies WAC 232-12-064 Triggers None specified In Washington, it is unlawful to take wildlife from the wild without permission from the Washington State Department of Fish and Wildlife (WDFW). The WDFW issues Live Wildlife Taking Permits under WAC 232-12-064. 12-WA-a - Live Wildlife Taking Permit.pdf Error creating thumbnail: Page number not in range. Error creating thumbnail: Page number not in range.

150

EIS-0473: W.A. Parish Post-Combustion CO2 Capture and Sequestration Project  

Broader source: Energy.gov (indexed) [DOE]

73: W.A. Parish Post-Combustion CO2 Capture and Sequestration 73: W.A. Parish Post-Combustion CO2 Capture and Sequestration Project (PCCS), Fort Bend County, TX EIS-0473: W.A. Parish Post-Combustion CO2 Capture and Sequestration Project (PCCS), Fort Bend County, TX SUMMARY This EIS evaluates the environmental impacts of a proposal to provide financial assistance for a project proposed by NRG Energy, Inc (NRG). DOE selected NRG's proposed W.A. Parish Post-Combustion CO2 Capture and Sequestration Project for a financial assistance award through a competitive process under the Clean Coal Power Initiative Program. NRG would design, construct and operate a commercial-scale carbon dioxide (CO2) capture facility at its existing W.A. Parish Generating Station in Fort Bend County, Texas; deliver the CO2 via a new pipeline to the existing West Ranch oil field in Jackson

151

Fisher & Paykel Appliances: ENERGY STAR Referral (WA42T26GW1) | Department  

Broader source: Energy.gov (indexed) [DOE]

Fisher & Paykel Appliances: ENERGY STAR Referral (WA42T26GW1) Fisher & Paykel Appliances: ENERGY STAR Referral (WA42T26GW1) Fisher & Paykel Appliances: ENERGY STAR Referral (WA42T26GW1) June 12, 2013 DOE referred the matter of Fisher & Paykel Appliances residential clothes washer, model WA42T26GW1, to the U.S. Environmental Protection Agency, brand manager for the ENERGY STAR Program, for appropriate action after DOE testing showed that the model does not meet the ENERGY STAR specification. Fisher & Paykel Appliances: ENERGY STAR Referral (WA42T26GW1) More Documents & Publications Regulatory Burden RFI DOE response to questions from AHAM on the supplemental proposed test procedure for residential clothes washers Scoping Study to Evaluate Feasibility of National Databases for EM&V Documents and Measure Savings: Appendices

152

EIS-0473: W.A. Parish Post-Combustion CO2 Capture and Sequestration Project  

Broader source: Energy.gov (indexed) [DOE]

EIS-0473: W.A. Parish Post-Combustion CO2 Capture and Sequestration EIS-0473: W.A. Parish Post-Combustion CO2 Capture and Sequestration Project (PCCS), Fort Bend County, TX EIS-0473: W.A. Parish Post-Combustion CO2 Capture and Sequestration Project (PCCS), Fort Bend County, TX SUMMARY This EIS evaluates the environmental impacts of a proposal to provide financial assistance for a project proposed by NRG Energy, Inc (NRG). DOE selected NRG's proposed W.A. Parish Post-Combustion CO2 Capture and Sequestration Project for a financial assistance award through a competitive process under the Clean Coal Power Initiative Program. NRG would design, construct and operate a commercial-scale carbon dioxide (CO2) capture facility at its existing W.A. Parish Generating Station in Fort Bend County, Texas; deliver the CO2 via a new pipeline to the existing West Ranch oil field in Jackson

153

GRR/Section 3-WA-b - Land Access Overview | Open Energy Information  

Open Energy Info (EERE)

GRR/Section 3-WA-b - Land Access Overview GRR/Section 3-WA-b - Land Access Overview < GRR Jump to: navigation, search GRR-logo.png GEOTHERMAL REGULATORY ROADMAP Roadmap Home Roadmap Help List of Sections Section 3-WA-b - Land Access Overview 3-WA-b - Land Access Overview.pdf Click to View Fullscreen Contact Agencies Washington State Department of Natural Resources Triggers None specified Any developer that needs access to or through state lands must obtain the appropriate permit or lease. The developer will obtain such permit or lease through the Washington State Department of Natural Resources. 3-WA-b - Land Access Overview.pdf Error creating thumbnail: Page number not in range. Error creating thumbnail: Page number not in range. Error creating thumbnail: Page number not in range. Flowchart Narrative

154

Microbial community changes during sustained Cr(VI) reduction at the 100H site in Hanford, WA  

E-Print Network [OSTI]

at the 100H site in Hanford, WA Romy Chakraborty 1 , Eoin Lcontaminated aquifer at the Hanford (WA) 100H site in 2004.Cr(VI) reduction at Hanford, and a comparison of the

Chakraborty, Romy

2010-01-01T23:59:59.000Z

155

EIS-0467: Hanford Site Natural Gas Pipeline, Richland, WA | Department of  

Broader source: Energy.gov (indexed) [DOE]

7: Hanford Site Natural Gas Pipeline, Richland, WA 7: Hanford Site Natural Gas Pipeline, Richland, WA EIS-0467: Hanford Site Natural Gas Pipeline, Richland, WA Summary This EIS will evaluate the environmental impacts of a proposal to enter into a contract with a licensed natural gas supplier in Washington State to construct, operate, and maintain a natural gas pipeline. The pipeline would deliver natural gas to support the Waste Treatment Plant and the 242-A Evaporator operations in the 200 East Area of the Hanford Site. Public Comment Opportunities None available at this time. For more information, contact: Mr. Douglas Chapin, NEPA Document Manager U.S. Department of Energy Richland Operations Office P.O. Box 550, MSIN A5-11 Richland, WA 99352 Documents Available for Download January 23, 2012 EIS-0467: Notice of Intent to Prepare an Environmental Impact Statement and

156

GRR/Section 9-WA-c - State Environmental Impact Statement | Open Energy  

Open Energy Info (EERE)

GRR/Section 9-WA-c - State Environmental Impact Statement GRR/Section 9-WA-c - State Environmental Impact Statement < GRR Jump to: navigation, search GRR-logo.png GEOTHERMAL REGULATORY ROADMAP Roadmap Home Roadmap Help List of Sections Section 9-WA-c - State Environmental Impact Statement 9-WA-c - State Environmental Impact Statement.pdf Click to View Fullscreen Triggers None specified The primary purpose of an Environmental Impact Statement (EIS) is to ensure that the Washington State Environmental Policy Act (SEPA) policies are an integral part of the ongoing programs and actions of state and local government. An EIS must provide impartial discussion of significant environmental impacts and must inform decision makers and the public of reasonable alternatives, including mitigation measures that would avoid or minimize adverse impacts or enhance environmental quality. WAC 197-11-400.

157

GRR/Section 19-WA-f - Water Well NOI for Replacement or Additional Wells |  

Open Energy Info (EERE)

GRR/Section 19-WA-f - Water Well NOI for Replacement or Additional Wells GRR/Section 19-WA-f - Water Well NOI for Replacement or Additional Wells < GRR Jump to: navigation, search GRR-logo.png GEOTHERMAL REGULATORY ROADMAP Roadmap Home Roadmap Help List of Sections Section 19-WA-f - Water Well NOI for Replacement or Additional Wells 19-WA-f - Water Well NOI for Replacement or Additional Wells.pdf Click to View Fullscreen Contact Agencies Washington State Department of Ecology Regulations & Policies Revised Code of Washington 90.44.100 Revised Code of Washington 18.104.048 Washington Administrative Code 173-160-151 Triggers None specified A developer seeking to use ground water for an activity may need to drill a new well in a different location than a previous well, drill an additional well at an existing location, or drill a replacement well at the same

158

GRR/Section 11-WA-a - State Cultural Considerations Overview | Open Energy  

Open Energy Info (EERE)

GRR/Section 11-WA-a - State Cultural Considerations Overview GRR/Section 11-WA-a - State Cultural Considerations Overview < GRR Jump to: navigation, search GRR-logo.png GEOTHERMAL REGULATORY ROADMAP Roadmap Home Roadmap Help List of Sections Section 11-WA-a - State Cultural Considerations Overview 11-WA-a - State Cultural Considerations Overview.pdf Click to View Fullscreen Triggers None specified The developer will be required to comply with Washington state law when human remains or other cultural resources are discovered on a project site. Cultural resources include both historic and archaeological resources and sites. The discovery of cultural resources may require obtaining a permit and providing public notice and notice to Indian Tribes. Once the necessary procedures have been followed, the developer may continue with the project.

159

GRR/Section 14-WA-c - Underground Injection Control Permit | Open Energy  

Open Energy Info (EERE)

GRR/Section 14-WA-c - Underground Injection Control Permit GRR/Section 14-WA-c - Underground Injection Control Permit < GRR Jump to: navigation, search GRR-logo.png GEOTHERMAL REGULATORY ROADMAP Roadmap Home Roadmap Help List of Sections Section 14-WA-c - Underground Injection Control Permit 14-WA-c - Underground Injection Control Permit.pdf Click to View Fullscreen Contact Agencies Washington State Department of Ecology Regulations & Policies Chapter 173-218 WAC Non-endangerment Standard Triggers None specified The Safe Drinking Water Act requires Washington to implement technical criteria and standards to protect underground sources of drinking water from contamination. Under Chapter 173-218 WAC, the Washington State Department of Ecology (WSDE) regulates and permits underground injection control (UIC) wells in Washington. The Environmental Protection Agency

160

GRR/Section 18-WA-a - Underground Storage Tank Process | Open Energy  

Open Energy Info (EERE)

GRR/Section 18-WA-a - Underground Storage Tank Process GRR/Section 18-WA-a - Underground Storage Tank Process < GRR Jump to: navigation, search GRR-logo.png GEOTHERMAL REGULATORY ROADMAP Roadmap Home Roadmap Help List of Sections Section 18-WA-a - Underground Storage Tank Process 18-WA-a - Underground Storage Tank Process.pdf Click to View Fullscreen Contact Agencies Washington State Department of Ecology Regulations & Policies Revised Code of Washington Chapter 90.76 Washington Administrative Code Chapter 173-360 Triggers None specified Washington has a federally-approved state Underground Storage Tank (UST) program regulated by the Washington State Department of Ecology (WSDE) under Revised Code of Washington Chapter 90.76 and Washington Administrative Code Chapter 173-360. Washington defines an "Underground

Note: This page contains sample records for the topic "vt wa wv" 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.


161

GRR/Section 5-WA-a - Drilling and Well Development | Open Energy  

Open Energy Info (EERE)

GRR/Section 5-WA-a - Drilling and Well Development GRR/Section 5-WA-a - Drilling and Well Development < GRR Jump to: navigation, search GRR-logo.png GEOTHERMAL REGULATORY ROADMAP Roadmap Home Roadmap Help List of Sections Section 5-WA-a - Drilling and Well Development 5-WA-a.pdf Click to View Fullscreen Contact Agencies Washington State Department of Natural Resources Regulations & Policies Geothermal Act 78.60 RCW Geothermal Rules 332-17 WAC Triggers None specified In Washington geothermal drilling and well development are regulated by the Washington State Department of Natural Resources (WSDNR). Geothermal production wells and core holes deeper than 750ft require the developer go through the whole WSDNR permitting process (which requires a public hearing) and require that the developer complete the State Environmental

162

GRR/Section 3-WA-e - State Right of Way Process | Open Energy Information  

Open Energy Info (EERE)

GRR/Section 3-WA-e - State Right of Way Process GRR/Section 3-WA-e - State Right of Way Process < GRR Jump to: navigation, search GRR-logo.png GEOTHERMAL REGULATORY ROADMAP Roadmap Home Roadmap Help List of Sections Section 3-WA-e - State Right of Way Process 3-WA-e - State Right of Way Process.pdf Click to View Fullscreen Contact Agencies Washington State Department of Natural Resources Regulations & Policies RCW 79-36-350 RCW 79-36-520 RCW 79-36-530 Triggers None specified This flowchart illustrates the process for obtaining a right of way over state lands in Washington. The right of way process is overseen by the Washington State Department of Natural Resources (WSDNR). The right of way process is regulated under Revised Code of Washington (RCW) 79-36-350. The developer may apply for an easement, permit or license for a right of

163

GRR/Section 14-WA-d - Section 401 Water Quality Certification | Open Energy  

Open Energy Info (EERE)

GRR/Section 14-WA-d - Section 401 Water Quality Certification GRR/Section 14-WA-d - Section 401 Water Quality Certification < GRR Jump to: navigation, search GRR-logo.png GEOTHERMAL REGULATORY ROADMAP Roadmap Home Roadmap Help List of Sections Section 14-WA-d - Section 401 Water Quality Certification 14-WA-d - 401 Water Quality Certification.pdf Click to View Fullscreen Contact Agencies U S Army Corps of Engineers Washington State Department of Ecology Regulations & Policies Revised Statute of Washington Chapter 90.48 Washington Administrative Code Chapter 173-201A Washington Administrative Code 173-225-030 Triggers None specified Developers requiring a Section 404 Dredge and Fill Permit from the U S Army Corps of Engineers (Corps) are required to obtain a Section 401 Water Quality Certification from the state of Washington. The Washington State

164

GRR/Section 19-WA-d - Water Conservancy Board Transfer or Change of Water  

Open Energy Info (EERE)

19-WA-d - Water Conservancy Board Transfer or Change of Water 19-WA-d - Water Conservancy Board Transfer or Change of Water Right < GRR Jump to: navigation, search GRR-logo.png GEOTHERMAL REGULATORY ROADMAP Roadmap Home Roadmap Help List of Sections Section 19-WA-d - Water Conservancy Board Transfer or Change of Water Right 19-WA-d - Water Conservancy Board Transfer or Change of Water Right.pdf Click to View Fullscreen Contact Agencies Washington State Department of Ecology Regulations & Policies Revised Code of Washington Chapter 90.80 RCW 90.03.380 90.03.390 RCW 90.44.100 Triggers None specified In 1997, the Washington Legislature authorized the creation of water conservancy boards through the enactment of Revised Code of Washington Chapter 90.80 to expedite the administrative process for voluntary water right transfers within individual counties. In counties where a water

165

GRR/Section 19-WA-e - Water Well Notice of Intent for New Well | Open  

Open Energy Info (EERE)

GRR/Section 19-WA-e - Water Well Notice of Intent for New Well GRR/Section 19-WA-e - Water Well Notice of Intent for New Well < GRR Jump to: navigation, search GRR-logo.png GEOTHERMAL REGULATORY ROADMAP Roadmap Home Roadmap Help List of Sections Section 19-WA-e - Water Well Notice of Intent for New Well 19-WA-e - Water Well Notice of Intent for New Well.pdf Click to View Fullscreen Contact Agencies Washington State Department of Ecology Regulations & Policies Revised Code of Washington 18.104.048 Washington Administrative Code 173-160-151 Triggers None specified A developer seeking to use ground water for an activity may need to drill a new well to access the ground water. When a developer needs to drill a new well, the developer must complete the Notice of Intent (NOI) to Drill a Well form and submit the form to the Washington State Department of Ecology

166

GRR/Section 14-WA-b - State NPDES Permitting Process | Open Energy  

Open Energy Info (EERE)

GRR/Section 14-WA-b - State NPDES Permitting Process GRR/Section 14-WA-b - State NPDES Permitting Process < GRR Jump to: navigation, search GRR-logo.png GEOTHERMAL REGULATORY ROADMAP Roadmap Home Roadmap Help List of Sections Section 14-WA-b - State NPDES Permitting Process 14-WA-b - State NPDES Permitting Process.pdf Click to View Fullscreen Contact Agencies Washington State Department of Ecology United States Environmental Protection Agency Regulations & Policies Clean Water Act Chapter 90.48 RCW Chapter 173-216 WAC Triggers None specified Section 402 of the Clean Water Act (CWA) required the Environmental Protection Agency (EPA) to establish the National Pollutant Discharge Elimination System (NPDES) to regulate discharge of pollutants from point sources. In Washington, the EPA has delegated responsibility of NPDES to

167

GRR/Section 4-WA-a - State Exploration Process | Open Energy Information  

Open Energy Info (EERE)

GRR/Section 4-WA-a - State Exploration Process GRR/Section 4-WA-a - State Exploration Process < GRR Jump to: navigation, search GRR-logo.png GEOTHERMAL REGULATORY ROADMAP Roadmap Home Roadmap Help List of Sections Section 4-WA-a - State Exploration Process 4-WA-a State Exploration Process.pdf Click to View Fullscreen Contact Agencies Washington State Department of Natural Resources Regulations & Policies Geothermal Act 78.60 RCW Geothermal Rules 332-17 WAC Triggers None specified Geothermal exploration in Washington requires a Geothermal Exploration Permit from the Washington State Department of Natural Resources (WSDNR) for invasive exploration or drilling. Operations that require an exploration or drilling permit will also require the developer to initiate the State Environmental Policy Act (SEPA). In Washington geothermal resources are regulated under Chapter 78.60 RCW

168

GRR/Section 3-WA-d - State Land Lease | Open Energy Information  

Open Energy Info (EERE)

GRR/Section 3-WA-d - State Land Lease GRR/Section 3-WA-d - State Land Lease < GRR Jump to: navigation, search GRR-logo.png GEOTHERMAL REGULATORY ROADMAP Roadmap Home Roadmap Help List of Sections Section 3-WA-d - State Land Lease 3-WA-d - State Land Lease.pdf Click to View Fullscreen Contact Agencies Washington State Department of Natural Resources Regulations & Policies RCW 79-13-020 RCW 79-13-140 RCW 79-13-150 WAC 332-22-030 WAC 332-22-105 WAC 332-22-110 Triggers None specified This flowchart illustrates the process used to lease state lands in Washington. The Washington State Department of Natural Resources (WSDNR) oversees the land leasing process through the Commissioner of Public Lands ("commissioner"). The WSDNR may lease state lands for purposes it deems advisable, including commercial, industrial, residential, agricultural, and

169

GRR/Section 3-WA-c - Utility Franchise or Permit Process | Open Energy  

Open Energy Info (EERE)

GRR/Section 3-WA-c - Utility Franchise or Permit Process GRR/Section 3-WA-c - Utility Franchise or Permit Process < GRR Jump to: navigation, search GRR-logo.png GEOTHERMAL REGULATORY ROADMAP Roadmap Home Roadmap Help List of Sections Section 3-WA-c - Utility Franchise or Permit Process 3-WA-c - Utility Franchise or Permit Process (1).pdf Click to View Fullscreen Contact Agencies Washington State Department of Transportation Regulations & Policies WAC 468-34-060 WAC 468-34-080 WAC 468-34-110 WAC 468-34-160 WAC 468-34-170 Triggers None specified This flowchart illustrates the process of obtaining a franchise or permit through a state highway right of way in Washington State. A utility permit or franchise is required for occupancy of a highway right of way by utility facilities, including private lines. WAC 468-34-160. The process is

170

GRR/Section 19-WA-b - New Water Right Permit Process | Open Energy  

Open Energy Info (EERE)

GRR/Section 19-WA-b - New Water Right Permit Process GRR/Section 19-WA-b - New Water Right Permit Process < GRR Jump to: navigation, search GRR-logo.png GEOTHERMAL REGULATORY ROADMAP Roadmap Home Roadmap Help List of Sections Section 19-WA-b - New Water Right Permit Process 19-WA-b - New Water Right Permit Process.pdf Click to View Fullscreen Contact Agencies Washington State Department of Ecology Regulations & Policies Revised Code of Washington Chapter 90.03 Revised Code of Washington Chapter 90.44 Triggers None specified Washington uses a prior appropriation system for the distribution of both surface water and ground water rights in which water users receive the right to use water on a "first in time, first in right" basis. Under Washington law, the waters of Washington belong collectively to the public

171

GRR/Section 19-WA-c - Transfer or Change of Water Right | Open Energy  

Open Energy Info (EERE)

9-WA-c - Transfer or Change of Water Right 9-WA-c - Transfer or Change of Water Right < GRR Jump to: navigation, search GRR-logo.png GEOTHERMAL REGULATORY ROADMAP Roadmap Home Roadmap Help List of Sections Section 19-WA-c - Transfer or Change of Water Right 19-WA-c - Transfer or Change of Water Right.pdf Click to View Fullscreen Contact Agencies Washington State Department of Ecology Regulations & Policies Revised Code of Washington 90.03.380 Revised Code of Washington 90.44.100 Revised Code of Washington Chapter 90.80 Triggers None specified Much of Washington's public waters have been accounted for through water right claims, permits, or certificates. As a result, many individuals seeking water rights try to acquire existing water rights already in use or change the use of a current water right they already hold. Certain elements

172

NEURAL NETWORKS FOR DISCRETE TOMOGRAPHY K.J. Batenburg a W.A. Kosters b  

E-Print Network [OSTI]

NEURAL NETWORKS FOR DISCRETE TOMOGRAPHY K.J. Batenburg a W.A. Kosters b a Mathematical Institute of crystalline solids at atomic resolution from electron microscopic images can be considered the ``holy grail

Kosters, Walter

173

DOE Zero Energy Ready Home Case Study: TC Legend Homes, Bellingham, WA  

Broader source: Energy.gov [DOE]

Case study of a DOE Zero Energy Ready home in Bellingham, WA, that achieves HERS 43 without PV or HERS 13 with 3.2 kW of PV.

174

GRR/Section 3-WA-a - State Geothermal Lease | Open Energy Information  

Open Energy Info (EERE)

GRR/Section 3-WA-a - State Geothermal Lease GRR/Section 3-WA-a - State Geothermal Lease < GRR Jump to: navigation, search GRR-logo.png GEOTHERMAL REGULATORY ROADMAP Roadmap Home Roadmap Help List of Sections Section 3-WA-a - State Geothermal Lease 3-WA-a State Geothermal Lease.pdf Click to View Fullscreen Contact Agencies Washington State Department of Natural Resources Regulations & Policies Chapter 79.14 RCW Chapter 344-12 WAC Triggers None specified The State of Washington is still in the process of developing and finalizing the rules and regulations related to geothermal leases on state lands; however, the Washington State Department of Natural Resources (WSDNR) expects the process to be similar to the process for leasing state lands for oil and natural gas development. The rules and regulations for

175

GRR/Section 11-WA-c - Archaeological Resource Discovery Process | Open  

Open Energy Info (EERE)

GRR/Section 11-WA-c - Archaeological Resource Discovery Process GRR/Section 11-WA-c - Archaeological Resource Discovery Process < GRR Jump to: navigation, search GRR-logo.png GEOTHERMAL REGULATORY ROADMAP Roadmap Home Roadmap Help List of Sections Section 11-WA-c - Archaeological Resource Discovery Process 11-WA-c - Archaeological Resource Discovery Process.pdf Click to View Fullscreen Triggers None specified In the state of Washington, cultural resource concerns are integrated as early as possible into the planning for capital projects and are protected if discovered during construction. Washington defines "Cultural resources" as archeological and historical sites and artifacts, and traditional areas or items of religious, ceremonial and social uses to affected tribes. Washington defines an "Archaeological resource" as any

176

GRR/Section 19-WA-a - Water Access and Water Rights Overview | Open Energy  

Open Energy Info (EERE)

9-WA-a - Water Access and Water Rights Overview 9-WA-a - Water Access and Water Rights Overview < GRR Jump to: navigation, search GRR-logo.png GEOTHERMAL REGULATORY ROADMAP Roadmap Home Roadmap Help List of Sections Section 19-WA-a - Water Access and Water Rights Overview 19-WA-a - Water Access and Water Rights Overview.pdf Click to View Fullscreen Contact Agencies Washington State Department of Ecology Regulations & Policies Revised Code of Washington Chapter 90.03 Revised Code of Washington Chapter 90.44 RCW 90.44.050 Triggers None specified Similar to many western states, only a small amount of water is available for appropriation in Washington. As a result, Washington has developed a comprehensive regulatory scheme for the distribution of water rights and use of water in the state. Washington employs a prior appropriation or

177

ECPE/PHYS 4984: Nanotechnology Randy Heflin 1-4504 108 Robeson rheflin@vt.edu  

E-Print Network [OSTI]

ECPE/PHYS 4984: Nanotechnology Randy Heflin 1-4504 108 Robeson rheflin@vt.edu Stephane Evoy 1 of instructor Course Number: ECPE 4984 PHYS 4984 Transcript Title: SS: Nanotechnology II. Rationale of course/ECPE 4984: Nanotechnology Course pack, edited by S. Rayyan , W. Barnhart, J. R. Heflin, and S. Evoy

Heflin, Randy

178

VT-2014-00407.R1 1 Abstract--Simulation-based design optimization of an electric  

E-Print Network [OSTI]

of a motor design, thus confining its application to the early conceptual design stage. Practical electric analysis accuracy and efficiency, direct integration of a motor model into a system optimization model hasVT-2014-00407.R1 1 Abstract--Simulation-based design optimization of an electric vehicle (EV

Papalambros, Panos

179

www.ext.vt.edu Produced by Communications and Marketing, College of Agriculture and Life Sciences,  

E-Print Network [OSTI]

and pricing to remain profitable? Conserving Energy in Greenhouses The Greenhouse Structure The first linewww.ext.vt.edu Produced by Communications and Marketing, College of Agriculture and Life Sciences, 1890 Extension Program, Virginia State, Petersburg. publication 430-101 Dealing with the High Cost

Liskiewicz, Maciej

180

www.ext.vt.edu Produced by Communications and Marketing, College of Agriculture and Life Sciences,  

E-Print Network [OSTI]

to be produced in greenhouses or even in the desert sands. Hydroponic techniques also allow for precise waterwww.ext.vt.edu Produced by Communications and Marketing, College of Agriculture and Life Sciences is often defined as "the cultivation of plants in water." Research has since determined that many different

Liskiewicz, Maciej

Note: This page contains sample records for the topic "vt wa wv" 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.


181

www.ext.vt.edu Produced by Communications and Marketing, College of Agriculture and Life Sciences,  

E-Print Network [OSTI]

the Chesapeake Bay, its tributaries, and other water bodies. How is reclaimed water produced? Reclaimed waterwww.ext.vt.edu Produced by Communications and Marketing, College of Agriculture and Life Sciences Extension Program, Virginia State, Petersburg. publication 452-014 What is water reuse? Water reuse can

Liskiewicz, Maciej

182

www.ext.vt.edu Produced by Communications and Marketing, College of Agriculture and Life Sciences,  

E-Print Network [OSTI]

-foot equals 325,851 gallons of water. activated carbon ­ A material produced by heating coal or woodwww.ext.vt.edu Produced by Communications and Marketing, College of Agriculture and Life Sciences, 1890 Extension Program, Virginia State, Petersburg. publication 442-758 A Glossary of Water

Liskiewicz, Maciej

183

www.ext.vt.edu Produced by Communications and Marketing, College of Agriculture and Life Sciences,  

E-Print Network [OSTI]

1 www.ext.vt.edu Produced by Communications and Marketing, College of Agriculture and Life Sciences.virginia.gov/consumers/faqs.shtml. This publication goes over the main points of the ten- ant rights, responsibilities, and remedies sections such as hallways, stairs, foyers and/or heat- ing facilities, hot water equipment, or any other essential facility

Liskiewicz, Maciej

184

Dynamic Vt SRAM : A Leakage Tolerant Cache Memory for Low Voltage Microprocessors  

E-Print Network [OSTI]

biasing is not implemented in our DTSRAM design. Fig. 2 shows the schematic of a DTSRAM cache line (DTSRAM) ar- chitecture to reduce the subthreshold leakage in cache mem- ories. The Vt of each cache line is controlled separately by means of body biasing. In order to minimize the energy and delay overhead, a cache

Kim, Chris H.

185

www.ext.vt.edu Produced by Communications and Marketing, College of Agriculture and Life Sciences,  

E-Print Network [OSTI]

the extent of public sewers, developing them requires a means for on-site wastewater treatment and dispersal in establish- ing on-site wastewater treatment and disposal systems on nonideal soils, as described in On online through the Vir- ginia Cooperative Extension website (www.ext.vt.edu). Wastewater Treatment

Liskiewicz, Maciej

186

www.ext.vt.edu Produced by Communications and Marketing, College of Agriculture and Life Sciences,  

E-Print Network [OSTI]

-ester is a scientific term for the biodiesel fuel produced when methanol is used in the biodiesel production process. CHwww.ext.vt.edu Produced by Communications and Marketing, College of Agriculture and Life Sciences, and emissions. This pub- lication addresses producing one's own biodiesel fuel from waste oil, fats, and oilseed

Liskiewicz, Maciej

187

GRR/Section 15-WA-b - Air Operating Permit | Open Energy Information  

Open Energy Info (EERE)

Page Page Edit with form History Facebook icon Twitter icon » GRR/Section 15-WA-b - Air Operating Permit < GRR Jump to: navigation, search GRR-logo.png GEOTHERMAL REGULATORY ROADMAP Roadmap Home Roadmap Help List of Sections Section 15-WA-b - Air Operating Permit 15-WA-b - Air Operating Permit.pdf Click to View Fullscreen Contact Agencies Washington State Department of Ecology Regulations & Policies WAC 173-401-500 WAC 173-401-800 WAC 173-401-810 WAC 173-401-735 WAC 173-401-610 Triggers None specified This flowchart illustrates the process for obtaining an Air Operating Permit in Washington State. The Washington State Department of Ecology (WSDE) issues Air Operating Permit under WAC 173-401. An Air Operating Permit is required if a facility has the potential to emit

188

GRR/Section 9-WA-a - State Environmental Overview | Open Energy Information  

Open Energy Info (EERE)

Page Page Edit with form History Facebook icon Twitter icon » GRR/Section 9-WA-a - State Environmental Overview < GRR Jump to: navigation, search GRR-logo.png GEOTHERMAL REGULATORY ROADMAP Roadmap Home Roadmap Help List of Sections Section 9-WA-a - State Environmental Overview 9-WA-a - State Environmental Overview.pdf Click to View Fullscreen Triggers None specified The Washington State Environmental Policy Act (SEPA), chapter 43.21 RCW, requires all governmental agencies to consider the environmental impacts of a proposal before making decisions. Washington uses an Environmental Checklist and Environmental Review (ER) to provide information to help government agencies identify impacts from their proposals and determine whether an Environmental Impact Statement (EIS) is necessary.

189

MEMORANDUM : APPROVAL TO MODIFY ADVANCE WAIVER OF PATENT RIGHTS W(A)  

Broader source: Energy.gov (indexed) [DOE]

: APPROVAL TO MODIFY ADVANCE WAIVER OF PATENT RIGHTS W(A) : APPROVAL TO MODIFY ADVANCE WAIVER OF PATENT RIGHTS W(A) 2009-047 GRANTED FOR US SOLAR HOLDINGS LLC UNDER AGREEMENT NO. DE-FC36-08G018 155 US Solar Holdings LLC ("US Solar") has requested that the Department of Energy ("DOE") modify or clarify the cost share requirements set forth in the statement of considerations for the granted advance patent waiver W(A) 2009-047. Specifically, the statement of considerations, as originally granted, states the following: The total cost of the award is approximately $4 million with the Petitioner providing about 50% cost sharing. This waiver is contingent upon the Petitioner maintaining, in aggregate, the above cost sharing percentage over the course of the agreement. Rather than just provide an aggregate cost share requirement of 50% for the agreement, US Solar

190

GRR/Section 7-WA-a - Energy Facility Siting Process | Open Energy  

Open Energy Info (EERE)

form form View source History View New Pages Recent Changes All Special Pages Semantic Search/Querying Get Involved Help Apps Datasets Community Login | Sign Up Search Page Edit with form History Facebook icon Twitter icon » GRR/Section 7-WA-a - Energy Facility Siting Process < GRR Jump to: navigation, search GRR-logo.png GEOTHERMAL REGULATORY ROADMAP Roadmap Home Roadmap Help List of Sections Section 7-WA-a - Energy Facility Siting Process 7-WA-a - Energy Facility Siting Process (1).pdf Click to View Fullscreen Contact Agencies Washington State Energy Facility Site Evaluation Council Regulations & Policies RCW 80.50.60(1) WAC 463-60 RCW 80.50.090(2) WAC 463-30-270 WAC 463-30-320 Triggers None specified Under RCW 80.50.60(1) a developer may not begin construction of a new energy facility site until they obtain Energy Facility Siting certification

191

GRR/Section 11-WA-b - Human Remains Process | Open Energy Information  

Open Energy Info (EERE)

Page Page Edit with form History Facebook icon Twitter icon » GRR/Section 11-WA-b - Human Remains Process < GRR Jump to: navigation, search GRR-logo.png GEOTHERMAL REGULATORY ROADMAP Roadmap Home Roadmap Help List of Sections Section 11-WA-b - Human Remains Process 11-WA-b - Human Remains Process (1).pdf Click to View Fullscreen Triggers None specified This flowchart illustrates the necessary procedure when a developer discovers human remains on a project site. In Washington, every person has the duty to notify the coroner upon the discovery of any human remains in the most expeditious manner possible. The Washington Department of Archaeology and Historic Preservation (DAHP) handles the disposition of non-forensic remains, while the county coroner handles the disposition of

192

EA-1949: Admiralty Inlet Pilot Tidal Project, Puget Sound, WA | Department  

Broader source: Energy.gov (indexed) [DOE]

49: Admiralty Inlet Pilot Tidal Project, Puget Sound, WA 49: Admiralty Inlet Pilot Tidal Project, Puget Sound, WA EA-1949: Admiralty Inlet Pilot Tidal Project, Puget Sound, WA SUMMARY This EA analyzes the potential environmental effects of a proposal by the Public Utility District No. 1 of Snowhomish County, Washington to construct and operate the Admiralty Inlet Tidal Project. The proposed 680-kilowatt project would be located on the east side of Admiralty Inlet in Puget Sound, Washington, about 1 kilometer west of Whidbey Island, entirely within Island County, Washington. The Federal Energy Regulatory Commission (FERC) is the lead agency. DOE is a cooperating agency. PUBLIC COMMENT OPPORTUNITIES None available at this time. DOCUMENTS AVAILABLE FOR DOWNLOAD August 9, 2013 EA-1949: FERC Notice of Availability Errata Sheet

193

Electric-spark hardening of VT3-1 titanium alloy with tungsten-free composite ceramics  

Science Journals Connector (OSTI)

The mass transfer and wear resistance of both monolayer and multilayer coatings on VT3-1 alloy are examined. The coatings are deposited by electrospark alloying (ESA) with composite titanium and zirconium refr...

I. A. Podchernyaeva; V. M. Panashenko

2007-09-01T23:59:59.000Z

194

U.S. DEPARTlVIENT OF ENERGY EERE PROJECT )'vtAHAGEMENT CENTER  

Broader source: Energy.gov (indexed) [DOE]

)'vtAHAGEMENT CENTER )'vtAHAGEMENT CENTER NEPA DETERl\ifINATION RECIPIENT:Colorado School of Mines Page 1 of2 STATE: CO PROJECT TITLE: Joint Inversion of Electrical and Seismic data for Fracture Characterization and Imaging of Fluid Flow in Geotllermal Systems Funding Opportunity Announcement Number Procurement Instrument Number NEPA Control Number CID Number DE·PS36·08G098008 . DE·FG36·08G018195 GFO·G018195·002 0 Based on my review of the information concerning the proposed action, as NEPA Compliance Officer (authorized under DOE Order 451.1A), I have made the following determination: CX, EA, EIS APPENDIX AND NUMBER: Description: A9 Information gathering (including, but not limited to, literature surveys, inventories, audits), data analysis (including computer modeling), document preparation (such as conceptual design or feasibility studies, analytical energy supply

195

GRR/Section 18-WA-b - Dangerous Waste Permit | Open Energy Information  

Open Energy Info (EERE)

GRR/Section 18-WA-b - Dangerous Waste Permit GRR/Section 18-WA-b - Dangerous Waste Permit < GRR Jump to: navigation, search GRR-logo.png GEOTHERMAL REGULATORY ROADMAP Roadmap Home Roadmap Help List of Sections Section 18-WA-b - Dangerous Waste Permit 18-WA-b - Dangerous Waste Permit.pdf Click to View Fullscreen Contact Agencies Washington State Department of Ecology Regulations & Policies WAC 173-303-020 WAC 173-303-060 WAC 173-303-070 WAC 173-303-071 WAC 173-303-072 WAC 173-303-081 WAC 173-303-082 WAC 173-303-090 WAC 173-303-100 WAC 173-303-110 WAC 173-303-140 WAC 173-303-220 WAC 173-303-281 WAC 173-303-282 WAC 173-303-803 WAC 173-303-845 Triggers None specified The Washington State Department of Ecology (WSDE) oversees the permitting process for dangerous and solid waste. In Washington, a developer must obtain a permit if they handle dangerous waste and solid waste and are

196

DOE Zero Energy Ready Home Case Study: Clifton View Homes, Whidbey Island, WA  

Broader source: Energy.gov [DOE]

Case study of a DOE Zero Energy Ready home on Whidbey Island, WA, that scores HERS 37 without PV or HERS -13 with 10 kW PV, enough to power the home and an electric car. The two-story custom home...

197

Comment on the future of the Bonneville Power Administration Jim G. Likes, Thurston County, WA  

E-Print Network [OSTI]

Comment on the future of the Bonneville Power Administration Jim G. Likes, Thurston County, WA Bonneville is a regional agency that markets federal hydropower and augments its power supply with market, everyday citizens, to pay illegally inflated power costs. Because of this, Bonneville should have the legal

198

Application of a modified denitrifying bacteria method for analyzing groundwater and vadose zone pore water nitrate at the Hanford Site, WA, USA.  

E-Print Network [OSTI]

the Hanford Site, WA, USA. Woods, Katharine N. ; Singleton,reside at DOE sites across the USA. Nitrate concentrations >

Woods, Katharine N.; Singleton, Michael J.; Conrad, Mark

2003-01-01T23:59:59.000Z

199

Anemometer Data (Wind Speed, Direction) for Quinault #3, WA (2004 - 2005) |  

Open Energy Info (EERE)

Quinault #3, WA (2004 - 2005) Quinault #3, WA (2004 - 2005) Dataset Summary Description Wind data collected from Quinault Indian Reservation in Washington from an anemometer as part of the Native American anemometer loan program. Monthly mean wind speed is available for 2004 through 2005, as is wind direction and turbulence data. Data is reported from a height of 20 m. The data was originally made available by Wind Powering America, a DOE Office of Energy Efficiency & Renewable Energy (EERE) program. A dynamic map displaying all available data from DOE anemometer loan programs is available http://www.windpoweringamerica.gov/anemometerloans/projects.asp. Source EERE Date Released December 02nd, 2010 (4 years ago) Date Updated December 02nd, 2010 (4 years ago) Keywords wind

200

EA-1855: Creston-Bell Rebuild Project, Spokane and Lincoln Counties, WA |  

Broader source: Energy.gov (indexed) [DOE]

855: Creston-Bell Rebuild Project, Spokane and Lincoln 855: Creston-Bell Rebuild Project, Spokane and Lincoln Counties, WA EA-1855: Creston-Bell Rebuild Project, Spokane and Lincoln Counties, WA Summary This EA (also known as DOE/EA-4406 or DOE/BP-4406) evaluates the potential environmental impacts from rebuilding the Creston-Bell No. 1 115-kV transmission line, including the replacement of wood poles and associated structural components and conductor and access road improvements. The 54-mile long, wood pole line extends from the Bonneville Power Administration (BPA) Creston substation to the BPA Bell substation near Spokane in Lincoln and Spokane Counties, Washington. Additional information about this project is available on the BPA website. Public Comment Opportunities None available at this time. Documents Available for Download

Note: This page contains sample records for the topic "vt wa wv" 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.


201

DOE Zero Energy Ready Home Case Study, Clifton View Homes, Coupeville, WA, Systems Home  

Broader source: Energy.gov [DOE]

Case-study of a DOE Zero Energy Ready Home on Whidbey Island, WA, that scored HERS 45 without PV. This 2,908 ft2 custom/system home has a SIP roof and walls, R-20 rigid foam under slab, triple-pane windows, ground source heat pump for radiant floor heat, and a unique balanced ventilation system using separate exhaust fans to bring air into and out of home.

202

DOE Zero Energy Ready Home Case Study TC Legend, Seattle, WA, Custom Home  

Broader source: Energy.gov [DOE]

Case study of a DOE Zero Energy Ready Home in Seattle, WA, that scored HERS 37 without PV, HERS -1 with PV. This 1,915 ft2 custom home has SIP walls and roof, R-20 XPS under the slab, triple-pane windows, an air to water heat pump for radiant heat, and balanced ventilation with timer controlled fans to bring in and exhaust air.

203

DOE Zero Energy Ready Home Case Study, Dwell Development, Seattle, WA, Systems Home  

Broader source: Energy.gov [DOE]

Case study of a DOE Zero Energy Ready Home in Seattle, WA, that scored HERS 34 without PV. This 2,000 ft2 system home has R-45 double-stud walls, an unvented flat roof with 2 inches of spray foam plus 18 inches blown cellulose, R-42 XPS under slab, triple-pane windows, and a ductless mini-split heat pump.

204

File:06-WA-b - Washington Construction Storm Water Permit.pdf | Open Energy  

Open Energy Info (EERE)

File File Edit History Facebook icon Twitter icon » File:06-WA-b - Washington Construction Storm Water Permit.pdf Jump to: navigation, search File File history File usage Metadata File:06-WA-b - Washington Construction Storm Water Permit.pdf Size of this preview: 463 × 599 pixels. Other resolution: 464 × 600 pixels. Go to page 1 2 Go! next page → next page → Full resolution ‎(1,275 × 1,650 pixels, file size: 60 KB, MIME type: application/pdf, 2 pages) File history Click on a date/time to view the file as it appeared at that time. Date/Time Thumbnail Dimensions User Comment current 15:28, 6 December 2013 Thumbnail for version as of 15:28, 6 December 2013 1,275 × 1,650, 2 pages (60 KB) Alevine (Talk | contribs) 15:25, 6 December 2013 Thumbnail for version as of 15:25, 6 December 2013 1,275 × 1,650, 2 pages (60 KB) Alevine (Talk | contribs)

205

File:EIA-Eastern-OR-WA-BOE.pdf | Open Energy Information  

Open Energy Info (EERE)

Eastern-OR-WA-BOE.pdf Eastern-OR-WA-BOE.pdf Jump to: navigation, search File File history File usage Eastern Oregon and Washington By 2001 BOE Reserve Class Size of this preview: 776 × 600 pixels. Full resolution ‎(1,650 × 1,275 pixels, file size: 460 KB, MIME type: application/pdf) Description Eastern Oregon and Washington 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 Oregon, Washington File history Click on a date/time to view the file as it appeared at that time. Date/Time Thumbnail Dimensions User Comment current 18:00, 20 December 2010 Thumbnail for version as of 18:00, 20 December 2010 1,650 × 1,275 (460 KB) MapBot (Talk | contribs) Automated bot upload

206

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

Broader source: Energy.gov (indexed) [DOE]

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

207

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

208

DOE Challenge Home Case Study TC Legend, Seattle, WA, Custom Home  

Broader source: Energy.gov (indexed) [DOE]

TC Legend TC Legend Homes Seattle, WA BUILDING TECHNOLOGIES OFFICE DOE Challenge Home builders are in the top 1% of builders in the country meeting the extraordinary levels of excellence and quality specifi ed by the U.S. Department of Energy. Every DOE Challenge Home starts with ENERGY STAR for Homes Version 3 for an energy-effi cient home built on a solid foundation of building science research. Then, even more advanced technologies are designed in for a home that goes above and beyond current code to give you the superior quality construction, HVAC, appliances, indoor air quality, safety, durability, comfort, and solar-ready components along with ultra-low or no utility bills. This provides homeowners with a quality home that will last for generations to come.

209

Recipient: County of Kitsap, WA ENERGY EFFICIENCY AND CONSERVATION BLOCK GRANTS NEPA COMPLIANCE FORM  

Broader source: Energy.gov (indexed) [DOE]

it: EE 000 0853 it: EE 000 0853 Recipient: County of Kitsap, WA ENERGY EFFICIENCY AND CONSERVATION BLOCK GRANTS NEPA COMPLIANCE FORM Activities Determination/ Categorical Exclusion Reviewer's Specific Instructions and Rationale (Restrictions and Allowable Activity) Kitsap Built Green Projects B5.1 Waste Stream, Engineering, and Historic Preservation clauses. Kitsap County Building Retrofits and Energy Efficiency Upgrades (Green Jobs Initiative) B5.1 except geothermal Waste Stream, Engineering, and Historic Preservation clauses. Prohibited: Any implementation of geothermal projects/construction activities without NEPA approval from DOE. Geothermal projects are to be provided to DOE for analysis. Energy Efficiency Implementation and Strategy A9, All, B5.1 None Energy Services Corps A9, All, B5.1

210

DOE Challenge Home Case Study, Dwell Development, Seattle, WA, Systems Home  

Broader source: Energy.gov (indexed) [DOE]

Dwell Dwell Development Seattle, WA BUILDING TECHNOLOGIES OFFICE DOE Challenge Home builders are in the top 1% of builders in the country meeting the extraordinary levels of excellence and quality specifi ed by the U.S. Department of Energy. Every DOE Challenge Home starts with ENERGY STAR for Homes Version 3 for an energy-effi cient home built on a solid foundation of building science research. Then, even more advanced technologies are designed in for a home that goes above and beyond current code to give you the superior quality construction, HVAC, appliances, indoor air quality, safety, durability, comfort, and solar-ready components along with ultra-low or no utility bills. This provides homeowners with a quality home that will last for generations to come.

211

Microsoft Word - CX-AccessRoads-KingCoWA-FY13_WEB.doc  

Broader source: Energy.gov (indexed) [DOE]

22, 2013 22, 2013 REPLY TO ATTN OF: KEPR-Covington SUBJECT: Environmental Clearance Memorandum Rick Ross Engineer - TELF-TPP-3 Proposed Action: Covington District Culvert Replacements Categorical Exclusion Applied (from Subpart D, 10 C.F.R. Part 1021): Appendix B1.3, Routine Maintenance Location: King County, WA Proposed by: Bonneville Power Administration (BPA) Description of the Proposed Action: BPA is proposing to replace existing culverts at 12 access road stream crossings that present barriers to fish passage. These improvements will be made on BPA easement access roads within DNR owned and managed lands. BPA will make these improvements by installing new fish friendly culverts and/or bridges at each stream crossing. The current stream crossings do not meet DNR fish passage standards that will be in

212

DOE Challenge Home Case Study, Clifton View Homes, Coupeville, WA, Systems Home  

Broader source: Energy.gov (indexed) [DOE]

Clifton View Clifton View Homes Coupeville, WA BUILDING TECHNOLOGIES OFFICE DOE Challenge Home builders are in the top 1% of builders in the country meeting the extraordinary levels of excellence and quality specifi ed by the U.S. Department of Energy. Every DOE Challenge Home starts with ENERGY STAR for Homes Version 3 for an energy-effi cient home built on a solid foundation of building science research. Then, even more advanced technologies are designed in for a home that goes above and beyond current code to give you the superior quality construction, HVAC, appliances, indoor air quality, safety, durability, comfort, and solar-ready components along with ultra-low or no utility bills. This provides homeowners with a quality home that will last for generations to come.

213

Nr. 077 / 2014 // 6. Mai 2014 Prof. Ngugi wa Thiong'o whrend seiner Rede zur Annahme der Ehrendoktorwrde  

E-Print Network [OSTI]

Nr. 077 / 2014 // 6. Mai 2014 1/5 Prof. Ngugi wa Thiong'o während seiner Rede zur Annahme der der afrikanischen Partneruniversitäten im Netzwerk der BIGSAS würden den Geehrten begleiten. Die Rede

Ullmann, G. Matthias

214

October 14 WA Division Newsletter Page 4 Tool durability and steel microstructure in friction stir welding of mild steel  

E-Print Network [OSTI]

October 14 WA Division Newsletter Page 4 Tool durability and steel microstructure in friction stir welding of mild steel A. De1 , H. K. D. H. Bhadeshia2 and T. DebRoy3 1 Indian Institute of Technology- ium alloys has been applied to the FSW of steel. The calculations were extended to predict

Cambridge, University of

215

CORE DATA PROCESSING SOFTWARE PLAN REVIEW | SEATTLE, WA | SEPTEMBER 19-20, 2013Name of Mee)ng Loca)on Date -Change in Slide Master CDP FINAL DESIGN REVIEW  

E-Print Network [OSTI]

CORE DATA PROCESSING SOFTWARE PLAN REVIEW | SEATTLE, WA | SEPTEMBER 19-20, 2013Name of Mee DATA PROCESSING SOFTWARE PLAN REVIEW | SEATTLE, WA | SEPTEMBER 19-20, 2013 Outline Single PLAN REVIEW | SEATTLE, WA | SEPTEMBER 19-20, 2013 Background Estimation ­ One of the unsolved issues

Masci, Frank

216

A WASHINGTON STATE UNIVERSITY POSTDOCTORAL POSITION FOR WORK AT LIGO HANFORD, WA Applications are invited for a postdoctoral position in the Gravity Group at the Department of Physics  

E-Print Network [OSTI]

A WASHINGTON STATE UNIVERSITY POSTDOCTORAL POSITION FOR WORK AT LIGO HANFORD, WA Applications characterization for the Advanced Laser Interferometer Gravitational wave Observatory (LIGO) at the Hanford site characterization at the LIGO Hanford observatory. Familiarity with data analysis pipelines for searching

Collins, Gary S.

217

Application of a modified denitrifying bacteria method for analyzing groundwater and vadose zone pore water nitrate at the Hanford Site, WA, USA.  

E-Print Network [OSTI]

zone pore water nitrate at the Hanford Site, WA, USA. Woods,and Conrad, Mark The Hanford Site in southern WashingtonL have been reported for Hanford groundwaters, where nitrate

Woods, Katharine N.; Singleton, Michael J.; Conrad, Mark

2003-01-01T23:59:59.000Z

218

A review of "Defining the Jacobean Church: the Politics of Religious Controversy, 1603-1625." by Charles W.A. Prior  

E-Print Network [OSTI]

REVIEWS 151 Charles W.A. Prior. Defining the Jacobean Church: the Politics of Religious Controversy, 1603-1625. Cambridge: Cambridge University Press, 2005. xiv + 294 pp. $85.00. Review by GRAHAM PARRY, UNIVERSITY OF YORK. Defining the Jacobean...

Parry, Graham

2006-01-01T23:59:59.000Z

219

Published by the IEEE CS n 1536-1268/08/$25.00 2008 IEEE PERVASIVE computing Education & TrainingEditor: Scott F. Midkiff n Virginia Tech n midkiff@vt.edu  

E-Print Network [OSTI]

& TrainingEditor: Scott F. Midkiff n Virginia Tech n midkiff@vt.edu As a field, computer science faces (www. scribblerrobot.com)withacustomIPRE EdITor'S InTro An exciting new initiative at Georgia Tech at midkiff@vt.edu. --Scott Midkiff QuICk FACTS Course: Computer Science 1 (CS1) Level: undergraduate

Guzdial, Mark

220

A LOW COST MULTI-BAND/MULTI-MODE RADIO FOR PUBLIC SAFETY S.M. Hasan (Virginia Tech, Blacksburg, VA, U.S.A., hasan@vt.edu); P. Balister  

E-Print Network [OSTI]

A LOW COST MULTI-BAND/MULTI-MODE RADIO FOR PUBLIC SAFETY S.M. Hasan (Virginia Tech, Blacksburg, VA, U.S.A., hasan@vt.edu); P. Balister (Virginia Tech, Blacksburg, VA, U.S.A., balister@vt.edu); K. Lee

Ellingson, Steven W.

Note: This page contains sample records for the topic "vt wa wv" 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

www.ext.vt.edu Produced by Communications and Marketing, College of Agriculture and Life Sciences, Virginia Polytechnic Institute and State University, 2013  

E-Print Network [OSTI]

, Petersburg. VT/0813/BSE-90P Publication 426-125 What Is Rainwater Harvesting? Rainwater harvesting (RWH), also known as rainwater harvesting systems or cisterns, are devices that inter- cept, divert, store management practice (BMP) for treatment of urban stormwater. Because of its dual purpose and benefit, RWH

Liskiewicz, Maciej

222

www.ext.vt.edu Produced by Communications and Marketing, College of Agriculture and Life Sciences, Virginia Polytechnic Institute and State University, 2013  

E-Print Network [OSTI]

the likelihood of nitrogen loss via ammonia volatilization. In addition to gaseous losses, water percolating, Petersburg. VT/0813/CSES-52P Publication CSES-52P What Are Nitrogen Stabilizers? The recent increase in fertilizer costs, especially nitro- gen fertilizers, has resulted in technologies that may improve nitrogen

Liskiewicz, Maciej

223

APA Citation Style for a Bibliography/Works Cited Page Zerby, C. (2002). Devil's details: A history of footnotes. Montpelier, VT: Invisible  

E-Print Network [OSTI]

from subscription database) May, E. R. (2005, May 23). When government writes history. New Republic, 30 ________________________________________________________________ Book Zerby, C. (2002). Devil's details: A history of footnotes. Montpelier, VT: Invisible Cities Press-129. ________________________________________________________________ Journal Article (continuous pagination, full text from subscription database) Elliott, S. N., Huai, N

Kasman, Alex

224

www.ext.vt.edu Produced by Communications and Marketing, College of Agriculture and Life Sciences, Virginia Polytechnic Institute and State University, 2013  

E-Print Network [OSTI]

www.ext.vt.edu Produced by Communications and Marketing, College of Agriculture and Life Sciences, Petersburg. Publication ANR-50P Introduction Family forest owners ask themselves many questions about owners ask is whether they should certify their forests. This publication can help forest owners

Liskiewicz, Maciej

225

Virginia Seafood Agricultural Research and Extension Center102SKingSt.,Hampton,VA23669757-727-4861www.arec.vaes.vt.edu/virginia-seafood Physical Resources  

E-Print Network [OSTI]

Virginia Seafood Agricultural Research and Extension Center102SKingSt.,Hampton,VA23669·757-727-4861·www.arec.vaes.vt.edu/virginia-seafood Physical Resources Land and Facilities Description Land Specialist, Muscle food safety and quality Safety and quality of seafood, beef, poultry, and pork products

Virginia Tech

226

Virginia Seafood Agricultural Research and Extension Center102SKingSt.,Hampton,VA23669757/727-4861www.arec.vaes.vt.edu/virginia-seafood Physical Resources  

E-Print Network [OSTI]

Virginia Seafood Agricultural Research and Extension Center102SKingSt.,Hampton,VA23669·757/727-4861·www.arec.vaes.vt.edu/virginia-seafood Physical Resources Land and Facilities Description Land and quality Safety and quality of seafood, beef, poultry, and pork products. HACCP and bilingual training

Liskiewicz, Maciej

227

Suggested Courses for ME Students Interested in Green Engineering Please see http://www.eng.vt.edu/green/ for information on the Green Engineering minor.  

E-Print Network [OSTI]

for increasing efficiencies (energy storage, batteries, green building, conservation). Options for transportationSuggested Courses for ME Students Interested in Green Engineering Please see http://www.eng.vt.edu/green/ for information on the Green Engineering minor. Required Courses: ME 4015-4016 ­ Engineering Design and Project (6

Virginia Tech

228

Abstract 476: Mammary tumors in lipocalin-2 deficient MMTV-PyVT mice grow faster but show decreased metastasis to lung  

Science Journals Connector (OSTI)

...Mammary tumors in lipocalin-2 deficient MMTV-PyVT mice grow faster but show decreased metastasis to lung Heiman Chow 1 Pengcheng Fan 1 Aimin Xu 1 Wen Laun Wendy Hsiao 2 Yu Wang 1 1Department of Pharmacology and Pharmacy, The University of Hong Kong...

Heiman Chow; Pengcheng Fan; Aimin Xu; Wen Laun Wendy Hsiao; Yu Wang

2011-01-10T23:59:59.000Z

229

U.S . DEPART]\.1ENT OF ENERGY EERE PROJECT T'....IANACiE!vtENT CENTER  

Broader source: Energy.gov (indexed) [DOE]

S S . DEPART]\.1ENT OF ENERGY EERE PROJECT T'....IANACiE!vtENT CENTER NEPA DETERl\HNATION RECI PI ENT:Amonix, Inc. STATE: CA PROJECT Low Cost High Concentration Photovoltaic Power Systems for Utility Power Generation - Sandia site TITLE: Funding Opportunity Announcement Number Procurement Instrument Number NEPA Control Number CID Number DE-PS36-06G 096034 DE-FC36-07G017042 GFO-G017042-006 G017042 Based on my review of the information concerning the proposed action, as N EPA Compliance Officer (authorized under DOE Order 451.1 A), I have made the following determination: ex, EA, EIS APPENDIX AND NUMBER: Description: 85.1 Actions to conserve energy, demonstrate potential energy conservation , and promote energy-efficiency that do not increase the indoor concentrations of potentially harmful substances. These actions may involve financial and technical

230

Decommissioning samples from the Ft. Lewis, WA, solvent refined coal pilot plant: chemical analysis and biological testing  

SciTech Connect (OSTI)

This report presents the results from chemical analyses and limited biological assays of three sets of samples from the Ft. Lewis, WA solvent refined coal (SRC) pilot plant. The samples were collected during the process of decommissioning this facility. Chemical composition was determined for chemical class fractions of the samples by using high-resolution gas chromatography (GC), high-resolution GC/mass spectrometry (MS) and high-resolution MS. Biological activity was measuring using both the histidine reversion microbial mutagenicity assay with Salmonella typhimurium, TA98 and an initiation/promotion mouse-skin tumorigenicity assay. 19 refs., 7 figs., 27 tabs.

Weimer, W.C.; Wright, C.W.

1985-10-01T23:59:59.000Z

231

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

232

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

233

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.

234

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.

235

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

236

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

237

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

238

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

239

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

240

W.A. Parish Post-Combustion CO2 Capture and Sequestration Project, Final Environmental Impact Statement (DOE/EIS-0473)  

Broader source: Energy.gov (indexed) [DOE]

NRG W.A. PARISH PCCS PROJECT NRG W.A. PARISH PCCS PROJECT FINAL ENVIRONMENTAL IMPACT STATEMENT APPENDIX H. BEG MODELING REPORT APPENDIX H BEG MODELING REPORT DOE/EIS-0473 NRG W.A. PARISH PCCS PROJECT FINAL ENVIRONMENTAL IMPACT STATEMENT APPENDIX H. BEG MODELING REPORT INTENTIONALLY LEFT BLANK 1 Reservoir modeling and simulation for estimating migration extents of injectate-CO 2 in support of West Ranch oilfield NEPA/EIS Gulf Coast Carbon Center, Bureau of Economic Geology, Jackson School of Geosciences, The University of Texas at Austin May 4, 2012 Summary It is anticipated that anthropogenic carbon dioxide (CO2-A) will be injected into the deep (5,000-6,000 ft below sea level) subsurface for enhanced oil recovery (EOR) at the West Ranch oilfield beginning in early 2015. The purpose of this report is to present reservoir modeling and simulation

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While these samples are representative of the content of NLEBeta,
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We encourage you to perform a real-time search of NLEBeta
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241

Corinna Cisneros, S.M. Golam Mortuza, and Soumik Banerjee School of Mechanical and Materials Engineering, Washington State University, Pullman, WA 99163  

E-Print Network [OSTI]

Engineering, Washington State University, Pullman, WA 99163 Organic Photovoltaic Solar Cells: A Molecular of fossil fuel resources has lead to global energy crisis with an increasing effort in the scientific community to develop renewable energy technologies. Solar cell technology has generated significant

Collins, Gary S.

242

Proc. of the ACM Int'l. Symp on Softw. Testing and Analysis, Seattle, WA, August 1994, pages 169184. Selecting Tests and Identifying Test Coverage Requirements for  

E-Print Network [OSTI]

of structural coverage crite­ ria. Our technique partitions an existing test suite into two subsets: testsProc. of the ACM Int'l. Symp on Softw. Testing and Analysis, Seattle, WA, August 1994, pages 169­184. Selecting Tests and Identifying Test Coverage Requirements for Modified Software* Gregg Rothermel and Mary

Rothermel, Gregg

243

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)  

Broader source: Energy.gov (indexed) [DOE]

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

244

Jasmine R. Scott1, Nathan Tarlyn2, Amit Dhingra2 and Kate Evans2 1Fort Valley State University, GA and 2Department of Horticulture, Washington State University, WA  

E-Print Network [OSTI]

and 2Department of Horticulture, Washington State University, WA Time travel with apples: Can you see on selection media in the dark. After a week, cultures were moved to the light to induce shoot development

Collins, Gary S.

245

20121114 Riverton drinking wa...  

Office of Legacy Management (LM)

Where Does My Drinking Water Come From? Where Does My Drinking Water Come From? Riverton, Wyoming, Processing Site F A C T S H E E T ENERGY Legacy Management U.S. DEPARTMENT OF This fact sheet provides information about the Alternative Water Supply System and domestic wells at the Uranium Mill Tailings Radiation Control Act of 1978 Title I processing site at Riverton, Wyoming. The Riverton site is managed by the U.S. Department of Energy Office of Legacy Management. Where Is the Riverton Site? The former Riverton, Wyoming, Processing Site is in Fremont County, 2 miles southwest of the town of Riverton and within the boundaries of the Wind River Indian Reservation (Northern Arapaho and Eastern Shoshone). Why Is It a "Site"? A uranium- and vanadium-ore-processing mill operated on the property from 1958 to 1963. Milling operations created

246

SEATTLE, WA ctober 1974  

E-Print Network [OSTI]

nektol n t"c C08 ul \\.\\ t,,.. !" \\ tIn4 UVt'r I I d (l E riltal Inl \\\\ashmptcn, sprl .. lnti ill )f If

247

E v e n t s & T o p i c s i n R e n e wa b l e E n...  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

v e n t s & T o p i c s i n R e n e wa b l e E n e r g y & t h e E n v i r o n me n t i s s p o n s o r e d b y t h e P h o t o s y n t h e t i c A n t e n n a R e s e a r c h Ce n...

248

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

249

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

250

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

251

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

252

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.

253

STATEM!NT''OF CONSIDEAAT10NS REQUEST n:~!:)lHi/",!!,'fCORPORArIQN FO~ ANADVANClWA1VER OF DOMESTIC AND FOREIGN  

Broader source: Energy.gov (indexed) [DOE]

STATEM!NT''OF CONSIDEAAT10NS STATEM!NT''OF CONSIDEAAT10NS REQUEST n:~!:)lHi/",!!,'fCORPORArIQN FO~ ANADVANClWA1VER OF DOMESTIC AND FOREIGN DOE PROPOSAL NO.OE-EE0000412 W(A} 2009-:060 The OhlipC1'!ve of this project Is the and comt'nercialization of a two-phase soluttofrfQf USe with The 1 lM,C'l_""""P H'tn(;lPI'" PJJ1'l.nn""". refrig1':'rant tooling solution provides certain improvements compared to conventional air-<:ooling syslems and water-cooling systems, The totalantfetpated cost the is $901,678 with the Petitl(};l)er approximately 19.% cost sm:tre, $262,191. Thiswaive(is contingent upo.n the Petitioner rrH~intaining the foregoing cost over tneCQUfse the grant As in its wai'\l\;f petition, the ~etitfoner isa leading global supplier of air conditioning and

254

wvBLACK DIAMONDS table of contents  

E-Print Network [OSTI]

'RE ON THE WEB! www.mine.cemr.wvu.edu Statler College of Engineering and Mineral Resources DEPARTMENT OF MINING

Mohaghegh, Shahab

255

wvBLACK DIAMONDS table of contents  

E-Print Network [OSTI]

with mining! WE'RE ON THE WEB! www.mine.cemr.wvu.edu College of Engineering and Mineral Resources DEPARTMENT

Mohaghegh, Shahab

256

Department of Political Science Box 353530 University of Washington Seattle, WA 98195-3530 phone: (206) 543-2780 fax: (206) 685-2146 www.polisci.washington.edu  

E-Print Network [OSTI]

Department of Political Science · Box 353530 · University of Washington · Seattle, WA 98195-3530 phone: (206) 543-2780 · fax: (206) 685-2146 · www.polisci.washington.edu Highlights Political science rating in the Princeton Review 2010 list of "great schools to study political science." The department

Anderson, Richard

257

Characterization of the environmental fate of Bacillus thuringiensis var. kaurstaki (Btk) after pest eradication efforts in Seattle, WA and Fairfax county, VA  

SciTech Connect (OSTI)

Understanding the fate of biological agents in the environment will be critical to recovery and restoration efforts after a biological attack. Los Alamos National Laboratory (LANL) is conducting experiments in the Seattle, WA and Fairfax County, VA areas to study agent fate in urban environments. As part of their gypsy moth suppression efforts, Washington State and Fairfax County have sprayed Bacillus thuringiensis var. kurstaki (Btk), a common organic pesticide for decades. Many of the spray zones have been in or near urban areas. LANL has collected surface and bulk samples from historical Seattle spray zones to characterize how long Btk persists at detectable levels in the environment, and how long it remains viable in different environmental matrices. This work will attempt to address three questions. First, how long does the agent remain viable at detectable levels? Second, what is the approximate magnitude and duration of resuspension? And third, does the agent transport into buildings? Data designed to address the first question will be presented. Preliminary results indicate Btk remains viable in the environment for at least two years.

Ticknor, Lawrence [Los Alamos National Laboratory; Van Cuyk, Sheila M [Los Alamos National Laboratory; Deshpande, Alina [Los Alamos National Laboratory; Omberg, Kristin M [Los Alamos National Laboratory

2008-01-01T23:59:59.000Z

258

VT_50m_Wind  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Metadata also available as Metadata: IdentificationInformation DataQualityInformation SpatialDataOrganizationInformation SpatialReferenceInformation EntityandAttributeI...

259

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

260

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

Note: This page contains sample records for the topic "vt wa wv" 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

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

262

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

263

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

264

Therapist name Email address City State/Province Country/Region Early Start Denver Model Certified Therapists January, 2014  

E-Print Network [OSTI]

-Smith Orem UT USA kathleen.foy@vtfn.orgKathleen Foy Fitzgerald Williston VT USA jamie.rainville@vtfn.orgJamie Rainville Williston VT USA kmchung@yonsei.ac.krKyong-Mee Chung Ph.D., BCBA-D Seattle WA USA amyp78@u

Nguyen, Danh

265

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

266

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

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2 s o l u b i li t y at r o o m temperature. CO 2 solubility testing of the most prom- ising eutectic combinations was completed. The results indicate that increasing the...

267

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

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412-386-7343 Hunaid.Nulwala@contr.netl.doe.gov David Luebke Technical Co-ordinator for Carbon Capture National Energy Technology Laboratory 626 Cochrans Mill Road P.O. Box 10940...

268

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

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Carbon 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...

269

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

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Membranes for Carbon Capture Background Carbon capture and storage from fossil-based power generation is a critical component of realistic strategies for arresting the rise in...

270

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

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Solvents for Carbon Capture Background Carbon capture and storage from fossil-based power generation is a critical com- ponent of realistic strategies for arresting the rise in...

271

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

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Sorbents for Carbon Capture Background Carbon capture and storage from fossil-based power generation is a critical component of realistic strategies for arresting the rise in...

272

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

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Los Alamos National Laboratory Pacific Northwest National Laboratory Princeton University Carbon Capture Simulation Initiative The Carbon Capture Simulation Initiative (CCSI) is a...

273

P O Box 6004 Morgantown, WV 26506-6004  

E-Print Network [OSTI]

Miller, Veterans Advocate at (304)293-8262 or email tdmiller@mail.wvu.edu Those needing to renew benefits

Mohaghegh, Shahab

274

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

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Midwest Regional Carbon Sequestration Partnership - Development Phase Large-Scale Field Project Background The U.S. Department of Energy Regional Carbon Sequestration Partnership...

275

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

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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...

276

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

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U.S. industry in a complementary research program designed to develop and demonstrate oil and natural gas drilling and production methodologies in ultra-deep formations. This...

277

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

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Technology Transfer at NETL Carbon capture, quantum mechanical simulations, integrated gasification, and clean power-words like these mean the future of energy to NETL's in-house...

278

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

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estimates could result in a 4 - 6% gain in overall system efficiency. Rotating Detonation Combustion (RDC) capitalizes on this cycle and offers potential as a drop in...

279

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

and Engineering 304-285-4685 madhava.syamlal@netl.doe.gov David Miller Technical Director Carbon Capture Simulation Initiative 412-386-6555 david.miller@netl.doe.gov RESEARCH...

280

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

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needs of advanced power systems. Industries that utilize natural gas, gasifier syngas, biogas, landfill gas, or any type of fuel gas can benefit from knowing the composition of the...

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281

West Virginia Smart Grid Implementation Plan (WV SGIP) Project  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

views on the following: 1) whether the electric power utilities have shown interests in upgrading their distribution service equipment, etc., 2) whether the state regulatory...

282

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

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of feedstock, gasifier geometry and flow conditions. Using palladium sorbents for high temperature capture of mercury and other trace elements in flue gases is also under...

283

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

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Solvents for Carbon Capture Background Carbon capture and storage from fossil-based power generation is a critical component of realistic strategies for arresting the rise in...

284

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

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541-967-5885 david.alman@netl.doe.gov David Hopkinson Technical Portfolio Lead Carbon Capture 304-285-4360 david.hopkinson@netl.doe.gov OTHER PARTNERS Energy Frontiers Research...

285

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

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Membranes for Carbon Capture Background Carbon capture and storage from fossil-based power generation is a critical com- ponent of realistic strategies for arresting the rise in...

286

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

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541-967-5885 david.alman@netl.doe.gov David Hopkinson Technical Portfolio Lead Carbon Capture 304-285-4360 david.hopkinson@netl.doe.gov Figure 1: Film made from a...

287

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

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science to ensure safe, essentially permanent carbon sequestration; develop reliable measurement, monitoring and verification technologies acceptable to permitting agencies;...

288

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

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can simulate reservoirs that are multi-layered, exhibit dip, and have variable thickness, rock porosity, and rock permeability. The reservoirs can have fractures that open and...

289

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

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Assessment Partnership Initiative The National Risk Assessment Partnership (NRAP) is a DOE initiative that harnesses core capabilities developed across the National Laboratory...

290

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

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to offshore hydrocarbon production and the recovery of unconventional resources like shale gas, estimating CO 2 storage potential in various types of geologic formations, and...

291

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

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these emissions can negatively impact air quality. The environmental risks of shale gas and shale oil development may be very different from that of conventional oil and gas...

292

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

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of carbon dioxide in tight formations. Benefits Production of natural gas from hydraulically-fractured shales surrounding horizontal wells is a relatively recent and...

293

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

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waters with geologic media such as confining layers and fossil fuels (e.g., coal, oil shale, natural gas bearing formations); and unconventional fossil fuel extraction...

294

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

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AND DEVELOPMENT Cynthia Powell Director 514-967-5803 cynthia.powell@netl.doe.gov Kelly Rose Technical Portfolio Lead Offshore Resources 541-967-5883 kelly.rose@netl.doe.gov...

295

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

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AND DEVELOPMENT Cynthia Powell Director 541-967-5803 cynthia.powell@netl.doe.gov Kelly Rose Technical Portfolio Lead Offshore Resources 541-967-5883 kelly.rose@netl.doe.gov...

296

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

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Technical Portfolio Lead Carbon Storage 412-386-4962 angela.goodman@netl.doe.gov Kelly Rose Technical Portfolio Lead Offshore Resources 541-967-5883 kelly.rose@netl.doe.gov...

297

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

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Portfolio Lead National Risk Assessment Program 304-285-4688 grant.bromhal@netl.doe.gov Kelly Rose Technical Portfolio Lead Offshore Resources 541-967-5883 kelly.rose@netl.doe.gov...

298

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

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Geological and Environmental Sciences Division 412-386-6571 george.guthrie@netl.doe.gov Kelly Rose Acting Geology Team Lead Office of Research and Development National Energy...

299

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

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Road P.O. Box 10940 Pittsburgh, PA 15236-0940 412-386-6571 george.guthrie@netl.doe.gov Kelly Rose Acting Geology Team Lead Office of Research and Development National Energy...

300

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Cochrans Mill Road Pittsburgh, PA 15236-0940 412-386-6571 george.guthrie@netl.doe.gov Kelly Rose EDX Coordinator Office of Research and Development National Energy Technology...

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301

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

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Road P.O. Box 10940 Pittsburgh, PA 15236-0940 412-386-6571 george.guthrie@netl.doe.gov Kelly Rose Technical Coordinator National Energy Technology Laboratory 1450 Queen Ave SW...

302

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

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REARCH AND DEVELOPMENT Cynthia Powell Director 541-967-5803 cynthia.powell@netl.doe.gov Kelly Rose Technical Portfolio Lead Offshore Resources 541-967-5883 kelly.rose@netl.doe.gov...

303

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

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Portfolio Lead National Risk Assessment Program 304-285-4688 grant.bromhal@netl.doe.gov Kelly Rose Technical Portfolio Lead Offshore Resources 541-967-5883 kelly.rose@netl.doe.gov...

304

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

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Enhanced Analytical Simulation Tool for CO2 Storage Capacity Estimation and Uncertainty Quantification Background The overall goal of the Department of Energy's (DOE) Carbon...

305

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

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Carbon Storage Program encompasses five Technology Areas: (1) Geologic Storage and Simulation and Risk Assessment (GSRA), (2) Monitoring, Verification, Accounting (MVA) and...

306

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

potential risks associated with oil and gas resources in shale reservoirs that require hydraulic fracturing or other engineering measures to produce. The major areas of focus...

307

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

related impacts to human health and the natural environment, and induced seismicity from hydraulic fracturing. Project Description Through collaboration with its research...

308

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

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related impacts to human health and the natural environment, and induced seismicity from hydraulic fracturing. Project Description Through collaboration with its Regional...

309

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Geomechanical Impacts of Shale Gas Activities Background Hydraulic fracturing of gas shale is the injection of large volumes of fluid at high pressures in low permeability shale to...

310

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Deleterious Events Associated with Drilling and Production Background Increasingly, offshore domestic oil and natural gas activities are associated with remote and challenging...

311

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

routes responsible for the observed catalytic effects. Such efforts will allow for the optimization of plasma systems so that they may be incorporated into a broad range of...

312

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

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number of individual break-through tasks in diverse number of areas. These range from identification of new materials for gas capture, storage or separation to optimization of...

313

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

and material interactions that impact environmental and resource issues related to oil, gas, and CO2 storage development. However, studying the wide variety of subsurface...

314

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Association of American Railroads Augusta Systems, Incorporated Southeast Regional Carbon Sequestration Partnership-Development Phase Cranfield Site and Citronelle Site...

315

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

EOR Field Project - Development Phase Background The U.S. Department of Energy Regional Carbon Sequestration Partnership (RCSP) Initiative consists of seven partnerships. The...

316

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Carbon Services Vecta Oil & Gas, Ltd. Washington State University Big Sky Regional Carbon Sequestration Partnership-Kevin Dome Development Phase Project Background The U.S....

317

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

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Southwestern United States Carbon Sequestration Training Center Background The focus of the Department of Energy's (DOE) Carbon Storage Program is to develop and advance...

318

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

to 200 o C for combustion is inefficient from both a cost and net electricity perspective. Hydrophobic solvents could be operated at higher temperatures and minimize...

319

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

heat in a combustion process while producing a concentrated CO 2 stream to facilitate carbon capture. Chemical looping research efforts can be categorized as: modeling tool...

320

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

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that are difficult or impossible to measure, such as coal jet penetration into a gasifier. This system provides the capabilities for running modeling tools at various scales...

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321

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

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and implementing a Sponsorship Development Program that allows SECARB-Ed to be self-sustaining after the initial three-year period by establishing an advisory board, developing...

322

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

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priations) to the FutureGen Industrial Alliance (Alliance) to build FutureGen 2.0-a clean coal repowering program and CO 2 pipeline and storage network. The FutureGen 2.0 Program...

323

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

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from Fossil Energy R&D 1 Bezdek, R. Wendling, R., The Return on Investment of the Clean Coal Technology Program in the USA. Energy Policy, Vol. 54, March 2013, pp. 104-112 2...

324

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

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Fuel Cells The Solid State Energy Conversion Alliance (SECA) program is responsible for coordinating Federal efforts to facilitate development of a commercially relevant and robust...

325

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

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R&D 070, November 2011, rev 1114 Research facilities include the Severe Environment Corrosion Erosion Research Facility (SECERF) for assessing materials performance in a variety...

326

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

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can affect permeability and porosity (flow properties), depending on the amount of sorptiondesorption. If the geological formations of interest are deep and have high...

327

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

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well and post- placement. Foamed cement stability depends on time evolution of the gas bubble-size distribution (BSD) and varies as it is pumped and placed in the well. Unstable...

328

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

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or particles. * High-definition, high-speed video capabilities: - Detailed information on bubble hydrodynamics. - Unprecedented resolution of hydrate surface morphology. * Provide...

329

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

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changes in CO 2 -water inter- facial tension. * Experimental CO 2 injection tests in pore micro-models and parallel network model simulations demonstrate that the sweep efficiency...

330

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

pollutants and CO 2 . Oxy-fuel combustion of hydrocarbon fuel (coal, natural-gas, biomass) generates denitrified combustion gas comprising dominantly CO 2 and H 2 O. The...

331

P O Box 6004 Morgantown, WV 26506-6004  

E-Print Network [OSTI]

-5242 Fax: (304) 293-4890 Email: finaid@mail.wvu.edu We're on the Web! www.finaid.wvu.edu 2010-2011 STUDENT

Mohaghegh, Shahab

332

P O Box 6004 Morgantown, WV 26506-6004  

E-Print Network [OSTI]

% of students complete online at www.fafsa.gov Please consider using FAFSA on the Web. There is a FAFSA worksheet that can be downloaded from the FAFSA web site. The Financial Aid Office will also have a supply

Mohaghegh, Shahab

333

P O Box 6004 Morgantown, WV 26506-6004  

E-Print Network [OSTI]

're on the Web! www.finaid.wvu.edu 2009-2010 STUDENT AID REPORT Once you submit your FAFSA to the federal

Mohaghegh, Shahab

334

P O Box 6004 Morgantown, WV 26506-6004  

E-Print Network [OSTI]

-5242 Fax: (304) 293-4890 Email: finaid@mail.wvu.edu We're on the Web! www.finaid.wvu.edu 2011-2012 STUDENT

Mohaghegh, Shahab

335

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

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for the same amount of energy produced, thereby facilitating a reduction in greenhouse gas emissions. When combined, oxy-combustion comes with an efficiency loss, so it will...

336

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

near 276 MPa. Therefore, the per turbed-chain statistical associating fluid theory (PC-SAFT) model was used to calculate the fluid density, which is an input into the improved...

337

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

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of meeting such a challenge is the combination of a high temperature fuel cell and a gas turbine with a gasifier or reformer. This hybrid technology has been studied...

338

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Turbine Thermal Management The gas turbine is the workhorse of power generation, and technology advances to current land-based turbines are directly linked to our country's...

339

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

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

340

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

being developed for geologic carbon storage are focused on five storage types: (1) oil and natural gas reservoirs; (2) saline formations; (3) unmineable coal seams; (4)...

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341

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

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Hybrid Performance Project Research programs initiated by the U.S. Department of Energy (DOE) to achieve increased efficiency and reduced emissions are expected to result in the...

342

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

S Materials Science Fuels Gasification will likely be the cornerstone of future energy and chemical processes due to its flexibility to accommodate numerous feedstocks such as...

343

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

344

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

345

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

346

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

347

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

348

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

349

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

350

Slide 1  

Broader source: Energy.gov (indexed) [DOE]

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)

351

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

352

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

353

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

354

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

355

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.

356

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

357

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

358

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

359

Welcome to the Efficient Windows Collaborative  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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:

360

Highgate Springs, VT LNG Imports from Canada  

Annual Energy Outlook 2013 [U.S. Energy Information Administration (EIA)]

Monthly Annual Download Series History Download Series History Definitions, Sources & Notes Definitions, Sources & Notes Show Data By: Data Series Area 2008 2009 2010 2011 2012...

Note: This page contains sample records for the topic "vt wa wv" from the National Library of EnergyBeta (NLEBeta).
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361

Kandidatexamensarbete i fysik Valbara projekt VT2014  

E-Print Network [OSTI]

in a nuclear reactor. In order to study this phenomenon, the diffusion coefficients of the system have and the related issues occurring in a nuclear reactor. They will develop their programming skills in C or C (polsson@kth.se) Generation IV reactors are designed in order to increase the burnup and decrease

Haviland, David

362

www.ictas.vt.edu NEW HORIZONS  

E-Print Network [OSTI]

-1996, Felker worked in senior engineering positions at Kenetech Windpower. As manager of engineering modeling

Crawford, T. Daniel

363

www.ictas.vt.edu NEW HORIZONS  

E-Print Network [OSTI]

.S. Department of Energy SunShot Initiative calls for an aggressive reduction in the overall systems costs by 75 are impressive, much work remains in addressing the challenges toward fully realizing the SunShot goal. The talk of the U.S. Department of Energy (DOE) SunShot Initiative. At DOE, he sets the science and technology

Crawford, T. Daniel

364

river dolphins Investigating dolphin deaths in WA  

E-Print Network [OSTI]

alternatives Murdoch scientists turning algae into fuel Pampering for camels New camel health facility Autumn 2010 Helping India Chiropractic, Nursing and Pharmacy Schools making a difference Fossil fuel

365

Classroom Vocabulary Classroom Vocabulary [msamiati wa darasani  

E-Print Network [OSTI]

] sakafu / sakafu [floor / floors] dari / dari [ceiling / ceilings] paa / paa [roof / roofs] simu / simu

366

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

Gasoline and Diesel Fuel Update (EIA)

AZ OR CA HI V MT WY ID UT CO IV OK IA KS MO IL IN KY TN WI MI OH NE SD MN ND II NM TX MS AL AR LA III NJ CT VT ME RI MA NH FL GA SC NC WV MD DE VA NY PA I PAD District I - East...

367

Instructions for completing Form W-4VT Who must complete Form W-4VT  

E-Print Network [OSTI]

is different from the federal W-4. This would include employees anticipating Child Tax Credit, Hope Credit, or other federal credits which do not pass through to Vermont income tax and employees who are in civil- tional allowances for Federal tax because of an anticipated child credit or education credit, do

Simaan, Nabil

368

Word Pro - Untitled1  

Gasoline and Diesel Fuel Update (EIA)

Annual Energy Review 2011 TX CA FL LA IL OH PA NY GA IN MI NC VA NJ TN WA KY AL MO MN WI SC OK CO IA MD AZ MA MS KS AR OR NE UT CT WV NM NV AK WY ID ND ME MT SD NH HI...

369

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

370

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

371

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

372

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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.

373

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

374

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

375

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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,

376

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

377

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

378

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

379

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

380

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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.

Note: This page contains sample records for the topic "vt wa wv" 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

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

382

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

383

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

384

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

385

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.

386

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

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

387

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

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

388

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

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)

389

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

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

390

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

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

391

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

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

392

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

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

393

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

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

394

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

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

395

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

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

396

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

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

397

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

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

398

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

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

399

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

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

400

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

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)

Note: This page contains sample records for the topic "vt wa wv" 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

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

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

402

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

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

403

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

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-

404

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

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

405

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

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.

406

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

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

407

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

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

408

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

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

409

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

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

410

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

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

411

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

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

412

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

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

413

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

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

414

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

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.

415

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

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

416

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

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

417

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

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

418

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

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

419

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

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

420

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

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

Note: This page contains sample records for the topic "vt wa wv" 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

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

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,

422

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

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

423

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

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

424

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

425

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

426

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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-

427

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

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-

428

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

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

429

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

430

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

431

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

432

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

433

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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-

434

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

435

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

436

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

437

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

438

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

439

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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:

440

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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.

Note: This page contains sample records for the topic "vt wa wv" 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

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

442

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

443

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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,

444

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

445

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

446

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

447

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

448

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

449

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

450

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

451

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

452

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

453

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

454

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

455

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

456

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

457

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

458

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

459

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

460

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

Note: This page contains sample records for the topic "vt wa wv" 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

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

462

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

463

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

464

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

465

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

466

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

467

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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).

468

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

469

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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,

470

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

471

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

472

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

473

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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-

474

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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,

475

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

476

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

477

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

478

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

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.

479

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

480

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

Note: This page contains sample records for the topic "vt wa wv" 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

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

482

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

483

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

484

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

485

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

486

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

487

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

488

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

489

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

490

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

491

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

492

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

493

Jointly sponsored by the WV Geriatric Education Center and CAMC Health Education and Research Institute  

E-Print Network [OSTI]

! Light refreshments will be provided! FOR QUESTIONS AND TO PRE-REGISTER, PLEASE CALL HANNA AT 347 in accordance with the essentials and standards of the Accreditation Council for Continuing Medical Education continuing medical education for physicians. DISCLOSURE It is the policy of the CAMC Health Education

Mohaghegh, Shahab

494

A Windows based project management application for NASA WV Space Grant Consortium using SQL server.  

E-Print Network [OSTI]

??The NASA West Virginia Space Grant Consortium (WVSGC) is a group of West Virginia academic institutions, with industrial partners, which have joined together under the (more)

Bogum, Naveen K.

2010-01-01T23:59:59.000Z

495

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

496

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

497

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

498

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

499

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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

500

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

Broader source: All U.S. Department of Energy (DOE) Office Webpages (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