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Note: This page contains sample records for the topic "btl biomass-to-liquids btu" 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.


1

Coal and Coal-Biomass to Liquids  

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

and Coal-Biomass to Liquids News Gasifipedia Coal-Biomass Feed Advanced Fuels Synthesis Systems Analyses International Activity Project Information Project Portfolio Publications...

2

NETL: Coal and Coal/Biomass to Liquids  

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

C&CBTL C&CBTL Coal and Power Systems Coal and Coal/Biomass to Liquids The Coal and Coal/Biomass to Liquids program effort is focused on technologies to foster the commercial adoption of coal and coal/biomass gasification and the production of affordable liquid fuels and hydrogen with excellent environmental performance. U.S. Economic Competitiveness U.S. Economic Competitiveness U.S. Economic Competitiveness U.S. Economic Competitiveness Advanced Fuels Synthesis U.S. Economic Competitiveness U.S. Economic Competitiveness U.S. Economic Competitiveness U.S. Economic Competitiveness Advanced Fuels Synthesis Systems Analyses Global Environmental Benefits Global Environmental Benefits Global Environmental Benefits Global Environmental Benefits Global Environmental Benefits Global Environmental Benefits

3

Coal and Biomass to Liquids | Department of Energy  

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

Coal to Liquids » Coal and Coal to Liquids » Coal and Biomass to Liquids Coal and Biomass to Liquids Over the last several decades, the Office of Fossil Energy performed RD&D activities that made significant advancements in the areas of coal conversion to liquid fuels and chemicals. Technology improvements and cost reductions that were achieved led to the construction of demonstration-scale facilities. The program is now supporting work to reduce the carbon footprint of coal derived liquids by incorporating the co-feeding of biomass and carbon capture. In the area of direct coal liquefaction, which is the process of breaking down coal to maximize the correct size of molecules for liquid products, the U.S. DOE made significant investments and advancements in technology in the 1970s and 1980s. Research enabled direct coal liquefaction to produce

4

NETL: Coal and Coal/Biomass to Liquids - Systems and Industry Analyses  

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

C&CBTL > Systems Analyses C&CBTL > Systems Analyses Coal and Coal/Biomass to Liquids Reference Shelf – Systems and Industry Analyses Studies DOE/NETL possesses strong systems analysis and policy-support capabilities. Systems analysis in support of the Coal and Coal/Biomass to Liquids Program consists of conducting various energy analyses that provide input to decisions on issues such as national plans and programs, resource use, environmental and energy security policies, technology options for research and development programs, and paths to deployment of energy technology. Coal and Coal/Biomass to Liquids Program's Systems and Industry Analyses Studies Life Cycle Greenhouse Gas Analysis of Advanced Jet Propulsion Fuels: Fischer-Tropsch Based SPK-1 Case Study - Presentation

5

EA-1850: Flambeau River BioFuels, Inc. Proposed Wood Biomass-to-Liquid Fuel  

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

50: Flambeau River BioFuels, Inc. Proposed Wood 50: Flambeau River BioFuels, Inc. Proposed Wood Biomass-to-Liquid Fuel Biorefinery, Park Falls, Wisconsin EA-1850: Flambeau River BioFuels, Inc. Proposed Wood Biomass-to-Liquid Fuel Biorefinery, Park Falls, Wisconsin Summary NOTE: This EA has been cancelled. This EA will evaluate the environmental impacts of a proposal to provide federal funding to Flambeau River Biofuels (FRB) to construct and operate a biomass-to-liquid biorefinery in Park Falls, Wisconsin, on property currently used by Flambeau Rivers Paper, LLC (FRP) for a pulp and paper mill and Johnson Timber Corporation's (JTC) Summit Lake Yard for timber storage. This project would design a biorefinery which would produce up to 1,150 barrels per day (bpd) of clean syncrude. The biorefinery would also supply

6

NETL: Coal & Coal Biomass to Liquids - NETL H2-from-Coal Separations  

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

and Coal/Biomass to Liquids - Reference Shelf and Coal/Biomass to Liquids - Reference Shelf NETL H2-from-Coal Separations Project Reviews April 29-30, 2008 National Energy Technology Laboratory Morgantown, WV Presentations NETL/ORD In-House Membrane Research Bryan Morreale - National Energy Technology Laboratory Development of Mixed-Conducting Dense Ceramic Membranes for Hydrogen Separation [PDF-1.4MB] Hydrogen Production by Water Dissociation Using Ceramic Membranes Balu Balachandran - Argonne National Laboratory High Flux Metallic Membranes for Hydrogen Recovery and Membrane Reactors [PDF-505KB] Robert Buxbaum - REB Research and Consulting Scale-Up of Hydrogen Transport Membranes for IGCC and FutureGen Plants Doug Jack - Eltron Research Sulfur and Halide Tolerance Kent Coulter - Southwest Research Institute

7

CA is particularly vulnerable to the costs associated with unmitigated climate change. A warming climate would generate more smoggy days, ozone, and foster more large brush  

E-Print Network (OSTI)

-acid-methyl-ester (FAME)) · Renewable diesel and gasoline (e.g., "drop-in" fuels or hydrocarbons, biomass-to-liquid (BTL% Forestry, 242 TBtu, 41% Agriculture, 137 TBtu, 24% Potential Feedstock Energy in Biomass 507 Trillion Btu

California at Davis, University of

8

BTU Accounting for Industry  

E-Print Network (OSTI)

convert utility bills to BTUs? All fuels can be measured in terms of BTU content. Natural gas has a million BTUs per thousand cubic feet; propane - 92,000 BTUs per gallon; fuel oil - 140,000 BTUs per gallon; electricity - 3,413 BTUs per KW hour... BTU ACCOUNTING FOR INDUSTRY Robert O. Redd-CPA Seidman & Seidman Grand Rapids, Michigan Today, as never before, American industry needs to identify and control their most criti cal resources. One of these is energy. In 1973 and again in 1976...

Redd, R. O.

1979-01-01T23:59:59.000Z

9

MSN YYYYMM Value Column Order Description Unit FFPRBUS Total Fossil Fuels Production Quadrillion Btu  

Gasoline and Diesel Fuel Update (EIA)

MSN YYYYMM Value Column Order Description Unit MSN YYYYMM Value Column Order Description Unit FFPRBUS Total Fossil Fuels Production Quadrillion Btu FFPRBUS Total Fossil Fuels Production Quadrillion Btu FFPRBUS Total Fossil Fuels Production Quadrillion Btu FFPRBUS Total Fossil Fuels Production Quadrillion Btu FFPRBUS Total Fossil Fuels Production Quadrillion Btu FFPRBUS Total Fossil Fuels Production Quadrillion Btu FFPRBUS Total Fossil Fuels Production Quadrillion Btu FFPRBUS Total Fossil Fuels Production Quadrillion Btu FFPRBUS Total Fossil Fuels Production Quadrillion Btu FFPRBUS Total Fossil Fuels Production Quadrillion Btu FFPRBUS Total Fossil Fuels Production Quadrillion Btu FFPRBUS Total Fossil Fuels Production Quadrillion Btu FFPRBUS Total Fossil Fuels Production Quadrillion Btu FFPRBUS Total Fossil Fuels Production Quadrillion Btu

10

Coal and Biomass to Liquid Fuels  

Science Journals Connector (OSTI)

Figure 3.3 illustrates the main processing steps in coal to gasoline using MTG. Methanol synthesis is large-scale commercial technology...2]. Single-train methane-based methanol plants up to 5,500 tonnes of metha...

James R. Katzer

2011-01-01T23:59:59.000Z

11

Building Energy Software Tools Directory: BTU Analysis Plus  

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

Plus Plus BTU Analysis Plus logo. Heat load calculation program that performs comprehensive heat load studies with hardcopy printouts of the results. The BTU Analysi Plus program is designed for general heating, air-conditioning, and commerical studies. Since 1987, the BTU Analysis family of programs have been commercially distributed and are marketed through professional organizations, trade advertisements, and word of mouth. They are currently used in six (6) foriegn countries and the U.S. Used in temperate, tropic, artic, and arid climates. They have proved themselves easy to use, accurate and productive again and again. A version of BTU Analysis Plus was adopted for use in the revised HEATING VENTILATING AND AIR CONDITIONING FUNDAMENTALS by Raymond A. Havrella.

12

Lowest Pressure Steam Saves More BTU's Than You Think  

E-Print Network (OSTI)

ABSTRACT Steam is the most transferring heat from But most steam systems LOWEST PRESSURE STEAM SAVES MORE BTU'S THAN YOU THINK Stafford J. Vallery Armstrong Machine Works Three Rivers, Michigan steam to do the process heating rather than...

Vallery, S. J.

13

Property:Geothermal/AnnualGenBtuYr | Open Energy Information  

Open Energy Info (EERE)

AnnualGenBtuYr AnnualGenBtuYr Jump to: navigation, search This is a property of type Number. Pages using the property "Geothermal/AnnualGenBtuYr" Showing 25 pages using this property. (previous 25) (next 25) 4 4 UR Guest Ranch Pool & Spa Low Temperature Geothermal Facility + 5.3 + A Ace Development Aquaculture Low Temperature Geothermal Facility + 72.5 + Agua Calientes Trailer Park Space Heating Low Temperature Geothermal Facility + 5 + Alive Polarity's Murrietta Hot Spring Pool & Spa Low Temperature Geothermal Facility + 7 + Americulture Aquaculture Low Temperature Geothermal Facility + 17 + Aq Dryers Agricultural Drying Low Temperature Geothermal Facility + 6.5 + Aqua Caliente County Park Pool & Spa Low Temperature Geothermal Facility + 1.8 +

14

Building Energy Software Tools Directory: BTU Analysis REG  

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

REG REG BTU Analysis REG logo. Heat load calculation program that performs comprehensive heat load studies with hardcopy printouts of the results. The REG program is designed for general heating, air-conditioning, and light commercial studies. Since 1987, the BTU Analysis family of programs have been commercially distributed and are marketed through professional organizations, trade advertisements, and word of mouth. They are currently used in six (6) foriegn countries and the U.S. Used in temperate, tropic, artic, and arid climates. They have proved themselves easy to use, accurate and productive again and again. A version of BTU Analysis, was adopted for use in the revised HEATING VENTILATING AND AIR CONDITIONING FUNDAMENTALS by Raymond A. Havrella. Keywords

15

Property:Geothermal/CapacityBtuHr | Open Energy Information  

Open Energy Info (EERE)

CapacityBtuHr CapacityBtuHr Jump to: navigation, search This is a property of type Number. Pages using the property "Geothermal/CapacityBtuHr" Showing 25 pages using this property. (previous 25) (next 25) 4 4 UR Guest Ranch Pool & Spa Low Temperature Geothermal Facility + 0.8 + A Ace Development Aquaculture Low Temperature Geothermal Facility + 10.3 + Agua Calientes Trailer Park Space Heating Low Temperature Geothermal Facility + 2 + Alive Polarity's Murrietta Hot Spring Pool & Spa Low Temperature Geothermal Facility + 1 + Americulture Aquaculture Low Temperature Geothermal Facility + 2.4 + Aq Dryers Agricultural Drying Low Temperature Geothermal Facility + 3 + Aqua Caliente County Park Pool & Spa Low Temperature Geothermal Facility + 0.3 +

16

EIS-0007: Low Btu Coal Gasification Facility and Industrial Park  

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

The U.S. Department of Energy prepared this environmental impact statement which evaluates the potential environmental impacts that may be associated with the construction and operation of a low-Btu coal gasification facility and the attendant industrial park in Georgetown, Scott County, Kentucky.

17

U.S. Total Consumption of Heat Content of Natural Gas (BTU per...  

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

Consumption of Heat Content of Natural Gas (BTU per Cubic Foot) U.S. Total Consumption of Heat Content of Natural Gas (BTU per Cubic Foot) Decade Year-0 Year-1 Year-2 Year-3 Year-4...

18

"Economic","per Employee","of Value Added","of Shipments" "Characteristic(a)","(million Btu)","(thousand Btu)","(thousand Btu)"  

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

2 Relative Standard Errors for Table 6.2;" 2 Relative Standard Errors for Table 6.2;" " Unit: Percents." ,,,"Consumption" " ",,"Consumption","per Dollar" " ","Consumption","per Dollar","of Value" "Economic","per Employee","of Value Added","of Shipments" "Characteristic(a)","(million Btu)","(thousand Btu)","(thousand Btu)" ,"Total United States" "Value of Shipments and Receipts" "(million dollars)" " Under 20",3,3,3 " 20-49",5,5,4 " 50-99",6,5,4 " 100-249",5,5,4 " 250-499",7,9,7 " 500 and Over",3,2,2 "Total",2,2,2

19

The Mansfield Two-Stage, Low BTU Gasification System: Report of Operations  

E-Print Network (OSTI)

The least expensive way to produce gas from coal is by low Btu gasification, a process by which coal is converted to carbon monoxide and hydrogen by reacting it with air and steam. Low Btu gas, which is used near its point of production, eliminates...

Blackwell, L. T.; Crowder, J. T.

1983-01-01T23:59:59.000Z

20

Method for producing low and medium BTU gas from coal  

SciTech Connect

A process for producing low and medium BTU gas from carbonizable material is described which comprises: partly devolatizing the material and forming hot incandescent coke therefrom by passing a bed of the same part way through a hot furnace chamber on a first horizontally moving grate while supplying a sub-stoichiometric quantity of air to the same and driving the reactions: C + O/sub 2/ = CO/sub 2/; 2C + O/sub 2/ = 2CO discharging the hot incandescent coke from the end of the first grate run onto a second horizontally moving grate run below the first grate run in the same furnace chamber so as to form a bed thereon, the bed formed on the second grate run being considerably thicker than the bed formed on the first grate run, passing the hot incandescent coke bed on the second grate run further through the furnace chamber in a substantially horizontal direction while feeding air and stream thereto so as to fully burn the coke and in ratio of steam to air driving the following reactions: 2C + O/sub 2/ = 2CO; C + H/sub 2/O = H/sub 2/ + CO; C + 2H/sub 2/O = 2H/sub 2/ + CO/sub 2/; CO + H/sub 2/O = H/sub 2/ + CO/sub 2/ taking off the ash residue of the burned coke and taking off the gaseous products of the reactions.

Mansfield, V.; Francoeur, C.M.

1988-06-07T23:59:59.000Z

Note: This page contains sample records for the topic "btl biomass-to-liquids btu" 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

"Economic","per Employee","of Value Added","of Shipments" "Characteristic(a)","(million Btu)","(thousand Btu)","(thousand Btu)"  

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

2 Relative Standard Errors for Table 6.2;" 2 Relative Standard Errors for Table 6.2;" " Unit: Percents." ,,,"Consumption" ,,"Consumption","per Dollar" ,"Consumption","per Dollar","of Value" "Economic","per Employee","of Value Added","of Shipments" "Characteristic(a)","(million Btu)","(thousand Btu)","(thousand Btu)" ,"Total United States" "Value of Shipments and Receipts" "(million dollars)" " Under 20",2.5,2.5,2.4 " 20-49",5,5,4.3 " 50-99",5.8,5.8,5.3 " 100-249",6.2,6.2,5.3 " 250-499",8.2,8,7.1 " 500 and Over",4.3,3,2.7

22

Toxicological characterization of the process stream from an experimental low Btu coal gasifier  

Science Journals Connector (OSTI)

Samples were obtained from selected positions in the process stream of an experimental low Btu gasifier using a five-stage multicyclone train and...Salmonella mammalian microsome mutagenicity assay) and forin vit...

J. M. Benson; J. O. Hill; C. E. Mitchell

1982-01-01T23:59:59.000Z

23

Mutagenicity of potential effluents from an experimental low btu coal gasifier  

Science Journals Connector (OSTI)

Potential waste effluents produced by an experimental low Btu coal gasifier were assessed for mutagenic activity inSalmonella...strain TA98. Cyclone dust, tar and water effluents were mutagenic, but only followin...

J. M. Benson; C. E. Mitchell; R. E. Royer

1982-09-01T23:59:59.000Z

24

Expanded standards and codes case limits combined buildings delivered energy to 21 quadrillion Btu by 2035  

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

Erin Boedecker, Session Moderator Erin Boedecker, Session Moderator April 27, 2011 | Washington, DC Energy Demand. Efficiency, and Consumer Behavior 16 17 18 19 20 21 22 23 24 25 2005 2010 2015 2020 2025 2030 2035 2010 Technology Reference Expanded Standards Expanded Standards + Codes -7.6% ≈ 0 Expanded standards and codes case limits combined buildings delivered energy to 21 quadrillion Btu by 2035 2 Erin Boedecker, EIA Energy Conference, April 27, 2011 delivered energy quadrillion Btu Source: EIA, Annual Energy Outlook 2011 -4.8% 16 17 18 19 20 21 22 23 24 25 2005 2010 2015 2020 2025 2030 2035 2010 Technology Reference High Technology High technology assumptions with more efficient consumer behavior keep buildings energy to just over 20 quadrillion Btu 3 Erin Boedecker, EIA Energy Conference, April 27, 2011 delivered energy quadrillion Btu

25

NETL: Coal & Coal Biomass to Liquids - Reference Shelf  

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

Documents, Papers, Presentations Documents, Papers, Presentations Documents Papers Presentations DOCUMENTS Fuels Industry Newsletter December 2013 November 2013 October 2013 September 2013 August 2013 July 2013 June 2013 May 2013 April 2013 March 2013 February 2013 January 2013 Fuels Industry Newsletter 2012 Technology Readiness Assessment-Analysis of Active Research Portfolio [PDF-7.27MB] (Dec 19, 2012) Consistent with ongoing efforts to supply policy makers with clear information in a form more amenable for them to gauge the maturity of carbon capture, utilization, and storage (CCUS) technologies, the National Energy Technology Laboratory (NETL) has undertaken an assessment of its "key technologies." The Department of Energy-Fossil Energy Technology Readiness Assessment Guide (DOE-FE Guide1) served as the basis for a

26

NETL: Coal & Coal Biomass to Liquids - Reference Shelf  

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

Fuels Papers Fuels Papers Separation/Production Storage Separation/Production Title Author(s) Abstract Evaluation and Modeling of a High-Temperature, High-Pressure, Hydrogen Separation Membrane for Enhanced Hydrogen Production from the Water-Gas Shift Reaction [PDF-939KB] R. M. Enick, et al. (NETL) Abstract Presented at: ACS Meeting, 1999 The Permeability of Hydrogen in Bulk Palladium at Elevated Temperatures and Pressures [PDF-57KB] B.D. Morreale, et al. (NETL) Abstract Presented in: Journal of Membrane Science, January 2003 Evaluation of Tantalum-Based Material for Hydrogen Separation at Elevated Temperatures and Pressures [PDF-846KB] Kurt S. Rothenberger, et al. (NETL) Abstract Presented in: Journal of Membrane Science, June 2003 Exploring the Kinetics of the Water-Gas Shift Reaction on Inconel 600: A Proof-of-Concept Test [PDF-337KB] F. Bustamante, et al. (NETL) Abstract

27

NREL Research on Converting Biomass to Liquid Fuels  

ScienceCinema (OSTI)

Unlike other renewable energy sources, biomass can be converted directly into liquid fuels, called "biofuels," to help meet transportation fuel needs. The two most common types of biofuels are ethanol and biodiesel. Today, ethanol is made from starches and sugars, but at the National Renewable Energy Laboratory (NREL) scientists are developing technology to allow it to be made from cellulose and hemicellulose, the fibrous material that makes up the bulk of most plant matter. Biodiesel is made by combining alcohol (usually methanol) with vegetable oil, animal fat, or recycled cooking grease. It can be used as an additive (typically 20%) to reduce vehicle emissions or in its pure form as a renewable alternative fuel for diesel engines. For a text version of this video visit http://www.nrel.gov/learning/re_biofuels.html

None

2013-05-29T23:59:59.000Z

28

Low-Btu coal gasification in the United States: company topical. [Brick producers  

SciTech Connect

Hazelton and other brick producers have proved the reliability of the commercial size Wellman-Galusha gasifier. For this energy intensive business, gas cost is the major portion of the product cost. Costs required Webster/Hazelton to go back to the old, reliable alternative energy of low Btu gasification when the natural gas supply started to be curtailed and prices escalated. Although anthracite coal prices have skyrocketed from $34/ton (1979) to over $71.50/ton (1981) because of high demand (local as well as export) and rising labor costs, the delivered natural gas cost, which reached $3.90 to 4.20/million Btu in the Hazelton area during 1981, has allowed the producer gas from the gasifier at Webster Brick to remain competitive. The low Btu gas cost (at the escalated coal price) is estimated to be $4/million Btu. In addition to producing gas that is cost competitive with natural gas at the Webster Brick Hazelton plant, Webster has the security of knowing that its gas supply will be constant. Improvements in brick business and projected deregulation of the natural gas price may yield additional, attractive cost benefits to Webster Brick through the use of low Btu gas from these gasifiers. Also, use of hot raw gas (that requires no tar or sulfur removal) keeps the overall process efficiency high. 25 references, 47 figures, 14 tables.

Boesch, L.P.; Hylton, B.G.; Bhatt, C.S.

1983-07-01T23:59:59.000Z

29

,"Weekly Henry Hub Natural Gas Spot Price (Dollars per Million Btu)"  

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

Henry Hub Natural Gas Spot Price (Dollars per Million Btu)" Henry Hub Natural Gas Spot Price (Dollars per Million Btu)" ,"Click worksheet name or tab at bottom for data" ,"Worksheet Name","Description","# Of Series","Frequency","Latest Data for" ,"Data 1","Weekly Henry Hub Natural Gas Spot Price (Dollars per Million Btu)",1,"Weekly","12/13/2013" ,"Release Date:","12/18/2013" ,"Next Release Date:","12/27/2013" ,"Excel File Name:","rngwhhdw.xls" ,"Available from Web Page:","http://tonto.eia.gov/dnav/ng/hist/rngwhhdw.htm" ,"Source:" ,"For Help, Contact:","infoctr@eia.doe.gov" ,,"(202) 586-8800",,,"12/18/2013 12:22:22 PM"

30

"NAICS",,"per Employee","of Value Added","of Shipments" "Code(a)","Economic Characteristic(b)","(million Btu)","(thousand Btu)","(thousand Btu)"  

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

3 Relative Standard Errors for Table 6.3;" 3 Relative Standard Errors for Table 6.3;" " Unit: Percents." " "," ",,,"Consumption" " "," ",,"Consumption","per Dollar" " "," ","Consumption","per Dollar","of Value" "NAICS",,"per Employee","of Value Added","of Shipments" "Code(a)","Economic Characteristic(b)","(million Btu)","(thousand Btu)","(thousand Btu)" ,,"Total United States" " 311 - 339","ALL MANUFACTURING INDUSTRIES" ,"Value of Shipments and Receipts" ,"(million dollars)" ," Under 20",3,3,3

31

Annual Energy Outlook 2006 with Projections to 2030  

Gasoline and Diesel Fuel Update (EIA)

ACI ACI Activated carbon injection AD Associated-dissolved (natural gas) AEO Annual Energy Outlook AEO2005 Annual Energy Outlook 2005 AEO2006 Annual Energy Outlook 2006 Altos Altos Partners ANWR Arctic National Wildlife Refuge API American Petroleum Institute BLGCC Black liquor gasification coupled with a combined-cycle power plant BOE Barrels of oil equivalent BTL Biomass-to-liquids Btu British thermal units CAAA90 Clean Air Act Amendments of 1990 CAFE Corporate average fuel economy CAIR Clean Air Interstate Rule CAMR Clean Air Mercury Rule CARB California Air Resources Board CBO Congressional Budget Office CHP Combined heat and power CO 2 Carbon dioxide CPI Consumer price index CRI Color rendering index CTL Coal-to-liquids DB Deutsche Bank AG DCL Direct coal liquefaction DOE U.S. Department of Energy E85 Fuel containing a blend of 70 to 85 percent ethanol EEA Energy and Environmental

32

,"U.S. Natural Gas Liquid Composite Price (Dollars per Million Btu)"  

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

Monthly","8/2013" Monthly","8/2013" ,"Release Date:","10/31/2013" ,"Next Release Date:","11/29/2013" ,"Excel File Name:","ngm_epg0_plc_nus_dmmbtum.xls" ,"Available from Web Page:","http://tonto.eia.gov/dnav/ng/hist/ngm_epg0_plc_nus_dmmbtum.htm" ,"Source:","Energy Information Administration" ,"For Help, Contact:","infoctr@eia.doe.gov" ,,"(202) 586-8800",,,"12/18/2013 12:22:47 PM" "Back to Contents","Data 1: U.S. Natural Gas Liquid Composite Price (Dollars per Million Btu)" "Sourcekey","NGM_EPG0_PLC_NUS_DMMBTU" "Date","U.S. Natural Gas Liquid Composite Price (Dollars per Million Btu)"

33

,"U.S. Natural Gas Liquid Composite Price (Dollars per Million Btu)"  

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

Annual",2012 Annual",2012 ,"Release Date:","10/31/2013" ,"Next Release Date:","11/29/2013" ,"Excel File Name:","ngm_epg0_plc_nus_dmmbtua.xls" ,"Available from Web Page:","http://tonto.eia.gov/dnav/ng/hist/ngm_epg0_plc_nus_dmmbtua.htm" ,"Source:","Energy Information Administration" ,"For Help, Contact:","infoctr@eia.doe.gov" ,,"(202) 586-8800",,,"12/18/2013 12:22:46 PM" "Back to Contents","Data 1: U.S. Natural Gas Liquid Composite Price (Dollars per Million Btu)" "Sourcekey","NGM_EPG0_PLC_NUS_DMMBTU" "Date","U.S. Natural Gas Liquid Composite Price (Dollars per Million Btu)"

34

,"Henry Hub Natural Gas Spot Price (Dollars per Million Btu)"  

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

Annual",2012 Annual",2012 ,"Release Date:","12/18/2013" ,"Next Release Date:","12/27/2013" ,"Excel File Name:","rngwhhda.xls" ,"Available from Web Page:","http://tonto.eia.gov/dnav/ng/hist/rngwhhda.htm" ,"Source:" ,"For Help, Contact:","infoctr@eia.doe.gov" ,,"(202) 586-8800",,,"12/18/2013 12:22:19 PM" "Back to Contents","Data 1: Henry Hub Natural Gas Spot Price (Dollars per Million Btu)" "Sourcekey","RNGWHHD" "Date","Henry Hub Natural Gas Spot Price (Dollars per Million Btu)" 35611,2.49 35976,2.09 36341,2.27 36707,4.31 37072,3.96 37437,3.38 37802,5.47 38168,5.89 38533,8.69 38898,6.73

35

,"Henry Hub Natural Gas Spot Price (Dollars per Million Btu)"  

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

Daily","12/16/2013" Daily","12/16/2013" ,"Release Date:","12/18/2013" ,"Next Release Date:","12/27/2013" ,"Excel File Name:","rngwhhdd.xls" ,"Available from Web Page:","http://tonto.eia.gov/dnav/ng/hist/rngwhhdd.htm" ,"Source:" ,"For Help, Contact:","infoctr@eia.doe.gov" ,,"(202) 586-8800",,,"12/18/2013 12:22:24 PM" "Back to Contents","Data 1: Henry Hub Natural Gas Spot Price (Dollars per Million Btu)" "Sourcekey","RNGWHHD" "Date","Henry Hub Natural Gas Spot Price (Dollars per Million Btu)" 35437,3.82 35438,3.8 35439,3.61 35440,3.92 35443,4 35444,4.01 35445,4.34 35446,4.71 35447,3.91

36

An analytical investigation of primary zone combustion temperatures and NOx production for turbulent jet flames using low-BTU fuels  

E-Print Network (OSTI)

is the production of low-BTU gas from a coal gasification reactor for combustion before introduction to the topping cycle gas turbine (Minchener, 1990). Most low-BTU gases are heavily loaded with sulfur-containing compounds which appear to be a major problem... with direct combustion of coal and low-BTU gases (Caraway, 1995). Environmental standards require the removal of these compounds which can be expensive and hazardous when removed from coal in post-combustion processes. However, gasification of coal results...

Carney, Christopher Mark

2012-06-07T23:59:59.000Z

37

"NAICS",,"per Employee","of Value Added","of Shipments" "Code(a)","Economic Characteristic(b)","(million Btu)","(thousand Btu)","(thousand Btu)"  

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

4 Relative Standard Errors for Table 6.4;" 4 Relative Standard Errors for Table 6.4;" " Unit: Percents." " "," ",,,"Consumption" " "," ",,"Consumption","per Dollar" " "," ","Consumption","per Dollar","of Value" "NAICS",,"per Employee","of Value Added","of Shipments" "Code(a)","Economic Characteristic(b)","(million Btu)","(thousand Btu)","(thousand Btu)" ,,"Total United States" " 311 - 339","ALL MANUFACTURING INDUSTRIES" ,"Employment Size" ," Under 50",3,4,4 ," 50-99",5,5,5 ," 100-249",4,4,3

38

The effect of CO? on the flammability limits of low-BTU gas of the type obtained from Texas lignite  

E-Print Network (OSTI)

Chairman of Advisory Committee: Dr. W. N. Heffington An experimental study was conducted to determine if relatively large amounts of CO in a low-BTU gas of the type 2 derived from underground gasification of Texas lignite would cause significant... ? Flammability limit data for three actual samples of low-BTU gas obtained from an in-situ coal gasification experiment (Heffington, 1981). The HHC are higher LIST OF TABLES (Cont'd) PAGE hydrocarbons orimarily C H and C H . ----- 34 I 2 6 3 8' TABLE 5...

Gaines, William Russell

2012-06-07T23:59:59.000Z

39

High-temperature turbine technology program. Turbine subsystem design report: Low-Btu gas  

SciTech Connect

The objective of the US Department of Energy High-Temperature Turbine Technology (DOE-HTTT) program is to bring to technology readiness a high-temperature (2600/sup 0/F to 3000/sup 0/F firing temperature) turbine within a 6- to 10-year duration, Phase II has addressed the performance of component design and technology testing in critical areas to confirm the design concepts identified in the earlier Phase I program. Based on the testing and support studies completed under Phase II, this report describes the updated turbine subsystem design for a coal-derived gas fuel (low-Btu gas) operation at 2600/sup 0/F turbine firing temperature. A commercial IGCC plant configuration would contain four gas turbines. These gas turbines utilize an existing axial flow compressor from the GE product line MS6001 machine. A complete description of the Primary Reference Design-Overall Plant Design Description has been developed and has been documented. Trends in overall plant performance improvement at higher pressure ratio and higher firing temperature are shown. It should be noted that the effect of pressure ratio on efficiency is significally enhanced at higher firing temperatures. It is shown that any improvement in overall plant thermal efficiency reflects about the same level of gain in Cost of Electricity (COE). The IGCC concepts are shown to be competitive in both performance and cost at current and near-term gas turbine firing temperatures of 1985/sup 0/F to 2100/sup 0/F. The savings that can be accumulated over a thirty-year plant life for a water-cooled gas turbine in an IGCC plant as compared to a state-of-the-art coal-fired steam plant are estimated. A total of $500 million over the life of a 1000 MW plant is projected. Also, this IGCC power plant has significant environmental advantages over equivalent coal-fired steam power plants.

Horner, M.W.

1980-12-01T23:59:59.000Z

40

INFLUENCE OF TORREFACTION TREATMENT ON WOOD POWDER PROPERTIES M. Almendrosa  

E-Print Network (OSTI)

is a thermal pretreatment of lignocellulosic biomass before gazification. This mild form of pyrolysis, carried. The studied parameters are (i) the species of the biomass (spruce and beech) (ii) the torrefaction temperature: biomass to liquid (BtL), lignocellulosic sources, wood, torrefaction, analysis, characterization. 1

Boyer, Edmond

Note: This page contains sample records for the topic "btl biomass-to-liquids btu" from the National Library of EnergyBeta (NLEBeta).
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41

Techno-economic Analysis for the Thermochemical Conversion of Biomass to Liquid Fuels  

SciTech Connect

). This study is part of an ongoing effort within the Department of Energy to meet the renewable energy goals for liquid transportation fuels. The objective of this report is to present a techno-economic evaluation of the performance and cost of various biomass based thermochemical fuel production. This report also documents the economics that were originally developed for the report entitled Biofuels in Oregon and Washington: A Business Case Analysis of Opportunities and Challenges (Stiles et al. 2008). Although the resource assessments were specific to the Pacific Northwest, the production economics presented in this report are not regionally limited. This study uses a consistent technical and economic analysis approach and assumptions to gasification and liquefaction based fuel production technologies. The end fuels studied are methanol, ethanol, DME, SNG, gasoline and diesel.

Zhu, Yunhua; Tjokro Rahardjo, Sandra A.; Valkenburt, Corinne; Snowden-Swan, Lesley J.; Jones, Susanne B.; Machinal, Michelle A.

2011-06-01T23:59:59.000Z

42

Chapter 15 - Biomass to Liquid Biofuels Service Learning Projects and Case Studies  

Science Journals Connector (OSTI)

Abstract This chapter presents the liquid biofuel-related service learning projects undertaken by students in a northeastern region of United States over many years as part of the Bioenergy Program1. The students experiences are described. Particularly three different case studies are presented authored by the respective students who successfully completed their projects. The first case study, cost analysis of oilseed production for biodiesel and the volatility in corn and crude was conducted in in partnership with a local bioenergy farm to identify the tall barriers to break down in getting farmers to grow the oilseed crops analysis to see if dairy farmers could realize an economic benefit from dedicating 20% of their acreage to growing an oilseed for biofuel conversion. The second case study, thermal heating fuel switch quantified the economics of reducing the farm's thermal heating costs by using harvested biomass from the farm that has been using fuel oil and kerosene to heat its existing building infrastructure and hot water. The third case study, Mobile Ethanol Distillery Unit: a feasibility study showed that although ethanol is a costly product to produce, if the feed value of feedstock such as sorghum distillers' grains is included it may become viable. Similar projects can be undertaken in any location in partnership with the local solid biofuel-based businesses, farms and communities.

Anju Dahiya

2015-01-01T23:59:59.000Z

43

EA-1811: NewPage Corporation Wood Biomass to Liquid Fuel, Wisconsin Rapids, Wisconsin  

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

This EA will evaluate the environmental impacts of a proposal to provide federal funding to NewPage for final design, construction and operation of a demonstration scale biorefinery. The NewPage biorefinery facility would be integrated with the existing paper mill and produce up to 555 barrels per day (bpd) of clean hydrocarbon biofuel. This EA is has been cancelled.

44

Low/medium-Btu coal-gasification-assessment program for potential users in New Jersey. Final report  

SciTech Connect

Burns and Roe Industrial Services Corporation and Public Service Electric and Gas in association with Scientific Design Company have completed a technical and economic evaluation of coal gasification. The evaluation also addressed the regulatory, institutional, and environmental issues of coal gasification. Two uses of coal-derived medium Btu (MBU) gas were explored: (1) substitute boiler fuel for electric generation and (2) substitute fuel for industrial customers using natural gas. The summary and conclusions of his evaluation are: The Sewaren Generating Station was selected as potentially the most suitable site for the coal gasification plant. The Texaco process was selected because it offered the best combination of efficiency and pilot plant experience; in addition, it is a pressurized process which is advantageous if gas is to be supplied to industrial customers via a pipeline. Several large industrial gas customers within the vicinities of Sewaren and Hudson Generating Stations indicated that MBG would be considered as an alternate fuel provided that its use was economically justified. The capital cost estimates for a 2000 tons/day and a 1000 tons/day gasification plant installed at Sewaren Generating Station are $115.6 million and $73.8 million, in 1980 dollars, respectively. The cost of supplying MBG to industrial customers is competitive with existing pipeline natural gas on a Btu heating value basis for gasifier capacity factors of 35% or higher.

Not Available

1981-05-01T23:59:59.000Z

45

System and process for the abatement of casting pollution, reclaiming resin bonded sand, and/or recovering a low BTU fuel from castings  

DOE Patents (OSTI)

Air is caused to flow through the resin bonded mold to aid combustion of the resin binder to form a low BTU gas fuel. Casting heat is recovered for use in a waste heat boiler or other heat abstraction equipment. Foundry air pollution is reduced, the burned portion of the molding sand is recovered for immediate reuse and savings in fuel and other energy is achieved.

Scheffer, Karl D. (121 Governor Dr., Scotia, NY 12302)

1984-07-03T23:59:59.000Z

46

The Impact of Biomass Pretreatment on the Feasibility of Overseas Biomass Conversion to Fischer?Tropsch Products  

Science Journals Connector (OSTI)

The Impact of Biomass Pretreatment on the Feasibility of Overseas Biomass Conversion to Fischer?Tropsch Products ... One of the most promising options to produce transportation fuels from biomass is the so-called biomass-to-liquids (BtL) route, in which biomass is converted to syngas from which high-quality Fischer?Tropsch (FT) fuels are synthesized. ... Alternatively to converting biomass into liquids or coal-like material, new and dedicated feeding systems for biomass can be developed. ...

Robin W. R. Zwart; Harold Boerrigter; Abraham van der Drift

2006-08-29T23:59:59.000Z

47

Fuel and Vehicle Technology Choices for Passenger Vehicles in Achieving Stringent CO2 Targets: Connections between Transportation and Other Energy Sectors  

Science Journals Connector (OSTI)

Five fuel options (petroleum, natural gas, synthetic fuels (coal to liquid, CTL; gas to liquid, GTL; biomass to liquid, BTL), electricity, and hydrogen) and five vehicle technologies (ICEV, HEV, BEV, PHEV, and FCV) were considered. ... Petro ICEV, Synth ICEV, NG ICEV, H2 ICEV = internal combustion engine vehicle fueled either by petroleum, synthetic fuel (CTL, GTL, or BTL), natural gas, or gaseous hydrogen; HEV = hybrid electric vehicle; BEV = battery electric vehicle, PHEV = plug-in hybrid electric vehicle; Petro FCV, Synth FCV, H2 FCV = fuel-cell vehicle fueled either by petroleum, synthetic fuel, or gaseous hydrogen. ... In their CO2 reduction scenario (reduction from 1990 of 50% by 2050 and 75% by 2100), the car sector is dominated by gasoline/diesel (first in ICEVs, then HEVs and to a small extent also PHEVs) with hydrogen-fueled FCVs becoming dominant by 2100. ...

M. Grahn; C. Azar; M. I. Williander; J. E. Anderson; S. A. Mueller; T. J. Wallington

2009-03-26T23:59:59.000Z

48

Argonne Transportation Technology R&D Center - Alternative Fuels -  

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

Fischer-Tropsch Fuels Fischer-Tropsch Fuels SunDiesel fuel This Sun Diesel BTL fuel, made from wood chips, results in lower particulate matter and nitrogen oxide emissions. Fischer-Tropsch (F-T) fuels are synthetic diesel fuels produced by converting gaseous hydrocarbons, such as natural gas and gasified coal or biomass, into liquid fuel. These fuels are commonly categorized into the following groups: Biomass to liquids (BTL) Gas to liquids (GTL) Coal to liquids (CTL) Argonne engineers are investigating the performance and emissions data of F-T fuels for both older and newer vehicles. The goal is to provide this data to the U.S. Department of Energy, the auto industry and energy suppliers. Part of the lab's strategy also includes publishing the data to solicit ideas and input from the fuels and combustion community.

49

7-55E An office that is being cooled adequately by a 12,000 Btu/h window air-conditioner is converted to a computer room. The number of additional air-conditioners that need to be installed is to be determined.  

E-Print Network (OSTI)

is to be determined. Assumptions 1 The computers are operated by 4 adult men. 2 The computers consume 40 percent to the amount of electrical energy they consume. Therefore, AC Outside Computer room 4000 Btu/h ( ( ) ( Q Q Q Q. Analysis The unit that will cost less during its lifetime is a better buy. The total cost of a system

Bahrami, Majid

50

Production of low BTU gas from biomass  

E-Print Network (OSTI)

and transported with little difficulty. It was decided to use a fluidized bed reactor for the gasification. Fluidized bed reactors offer many advantages when utilized as a medium for gasifi- cation of solid fuels. Some of them are excellent mixing... carbon and graphite. The results showed the equilibrium constant to be a function of temperature alone, independent of carbon source, particle size and other physical properties of the carbon. Brink (1976) studied the pyrolysis and gasifi- cation...

Lee, Yung N.

2012-06-07T23:59:59.000Z

51

Catalytic reactor for low-Btu fuels  

DOE Patents (OSTI)

An improved catalytic reactor includes a housing having a plate positioned therein defining a first zone and a second zone, and a plurality of conduits fabricated from a heat conducting material and adapted for conducting a fluid therethrough. The conduits are positioned within the housing such that the conduit exterior surfaces and the housing interior surface within the second zone define a first flow path while the conduit interior surfaces define a second flow path through the second zone and not in fluid communication with the first flow path. The conduit exits define a second flow path exit, the conduit exits and the first flow path exit being proximately located and interspersed. The conduits define at least one expanded section that contacts adjacent conduits thereby spacing the conduits within the second zone and forming first flow path exit flow orifices having an aggregate exit area greater than a defined percent of the housing exit plane area. Lastly, at least a portion of the first flow path defines a catalytically active surface.

Smith, Lance (North Haven, CT); Etemad, Shahrokh (Trumbull, CT); Karim, Hasan (Simpsonville, SC); Pfefferle, William C. (Madison, CT)

2009-04-21T23:59:59.000Z

52

Pacific Ethanol, Inc  

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

Flambeau River Biofuels LLC Flambeau River Biofuels LLC Corporate HQ: Park Falls, Wisconsin Proposed Facility Location: Park Falls, Wisconsin Description: Construct a demonstration biomass-to-liquids (BTL) biorefinery CEO or Equivalent: Bob Byrne, President and Chief Operating Officer Participants: ANL Consultants, Auburn University, Brigham Young University, Citigroup Global Markets, CleanTech Partners, Emerging Fuels Technology, Flambeau River Papers, Johnson Timber, National Renewable Energy Lab, Michigan Technological University, NC State University, Oak Ridge National Laboratory, ThermoChem Recovery International, University of Wisconsin, USDA Forest Products Laboratory Production: * Capacity of 6 million gallons per year of Fisher-Tropsch (F-T) liquids in the form of renewable sulfur-free diesel fuels and waxes

53

Definition: Diesel fuel | Open Energy Information  

Open Energy Info (EERE)

Diesel fuel Diesel fuel Jump to: navigation, search Dictionary.png Diesel fuel A liquid fuel produced from petroleum; used in diesel engines.[1] View on Wikipedia Wikipedia Definition Diesel oil and Gazole (fuel) redirect here. Sometimes "diesel oil" is used to mean lubricating oil for diesel engines. Diesel fuel in general is any liquid fuel used in diesel engines. The most common is a specific fractional distillate of petroleum fuel oil, but alternatives that are not derived from petroleum, such as biodiesel, biomass to liquid (BTL) or gas to liquid (GTL) diesel, are increasingly being developed and adopted. To distinguish these types, petroleum-derived diesel is increasingly called petrodiesel. Ultra-low-sulfur diesel (ULSD) is a standard for defining diesel fuel with substantially lowered sulfur contents. As of 2007, almost

54

Microsoft Word - 201302_Fuels_Industry_Newsletter_Feb_2013_v2.docx  

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

Linde licenses gasification technology to Finish company" Linde licenses gasification technology to Finish company" By Erin Voegele, Biomass Magazine, January 28, 2013 Germany-based Linde Engineering Dresden GmbH has signed an agreement to license its Carbo- V biomass gasification technology to Forest BtL Oy, a Finish biofuel developer. According to information released by Linde, the Carbo-V technology will be implemented at a new biomass- to-liquid facility in Kemi, Finland. The transaction represents the first licensing agreement for the technology, which Linde acquired from Choren Industries GmbH in Feb. 2012. The process is a multi-stage biomass gasification process. Information published by Linde notes that during the first phase, a low-temperature gasifier converts biomass into biocoke and carbonization gas. The second stage involves partial

55

Henry Hub Natural Gas Spot Price (Dollars per Million Btu)  

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

Year-Month Week 1 Week 2 Week 3 Week 4 Week 5 Year-Month Week 1 Week 2 Week 3 Week 4 Week 5 End Date Value End Date Value End Date Value End Date Value End Date Value 1997-Jan 01/10 3.79 01/17 4.19 01/24 2.98 01/31 2.91 1997-Feb 02/07 2.53 02/14 2.30 02/21 1.91 02/28 1.82 1997-Mar 03/07 1.86 03/14 1.96 03/21 1.91 03/28 1.84 1997-Apr 04/04 1.88 04/11 1.98 04/18 2.04 04/25 2.14 1997-May 05/02 2.15 05/09 2.29 05/16 2.22 05/23 2.22 05/30 2.28 1997-Jun 06/06 2.17 06/13 2.16 06/20 2.22 06/27 2.27 1997-Jul 07/04 2.15 07/11 2.15 07/18 2.24 07/25 2.20 1997-Aug 08/01 2.22 08/08 2.37 08/15 2.53 08/22 2.54 08/29 2.58

56

Natural Gas Futures Contract 1 (Dollars per Million Btu)  

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

Week Of Mon Tue Wed Thu Fri Week Of Mon Tue Wed Thu Fri 1994 Jan-10 to Jan-14 2.194 2.268 1994 Jan-17 to Jan-21 2.360 2.318 2.252 2.250 2.305 1994 Jan-24 to Jan-28 2.470 2.246 2.359 2.417 2.528 1994 Jan-31 to Feb- 4 2.554 2.639 2.585 2.383 2.369 1994 Feb- 7 to Feb-11 2.347 2.411 2.358 2.374 2.356 1994 Feb-14 to Feb-18 2.252 2.253 2.345 2.385 2.418 1994 Feb-21 to Feb-25 2.296 2.232 2.248 2.292 1994 Feb-28 to Mar- 4 2.208 2.180 2.171 2.146 2.188 1994 Mar- 7 to Mar-11 2.167 2.196 2.156 2.116 2.096 1994 Mar-14 to Mar-18 2.050 2.104 2.163 2.124 2.103 1994 Mar-21 to Mar-25 2.055 2.107 2.077 1.981 2.072 1994 Mar-28 to Apr- 1 2.066 2.062 2.058 2.075 1994 Apr- 4 to Apr- 8 2.144 2.069 2.097 2.085 2.066 1994 Apr-11 to Apr-15 2.068 2.089 2.131 2.163 2.187

57

Natural Gas Futures Contract 1 (Dollars per Million Btu)  

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

Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1994 2.347 2.355 2.109 2.111 1.941 2.080 1.963 1.693 1.619 1.721 1.771 1.700 1995 1.426 1.439 1.534 1.660 1.707 1.634 1.494 1.557 1.674 1.790 1.961 2.459 1996 2.483 2.458 2.353 2.309 2.283 2.544 2.521 2.049 1.933 2.481 3.023 3.645 1997 3.067 2.065 1.899 2.005 2.253 2.161 2.134 2.462 2.873 3.243 3.092 2.406 1998 2.101 2.263 2.253 2.465 2.160 2.168 2.147 1.855 2.040 2.201 2.321 1.927 1999 1.831 1.761 1.801 2.153 2.272 2.346 2.307 2.802 2.636 2.883 2.549 2.423 2000 2.385 2.614 2.828 3.028 3.596 4.303 3.972 4.460 5.130 5.079 5.740 8.618 2001 7.825 5.675 5.189 5.189 4.244 3.782 3.167 2.935 2.213 2.618 2.786 2.686

58

Natural Gas Futures Contract 3 (Dollars per Million Btu)  

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

Week Of Mon Tue Wed Thu Fri Week Of Mon Tue Wed Thu Fri 1994 Jan-17 to Jan-21 2.019 2.043 2.103 1994 Jan-24 to Jan-28 2.162 2.071 2.119 2.128 2.185 1994 Jan-31 to Feb- 4 2.217 2.258 2.227 2.127 2.118 1994 Feb- 7 to Feb-11 2.137 2.175 2.162 2.160 2.165 1994 Feb-14 to Feb-18 2.140 2.145 2.205 2.190 2.190 1994 Feb-21 to Feb-25 2.180 2.140 2.148 2.186 1994 Feb-28 to Mar- 4 2.148 2.134 2.122 2.110 2.124 1994 Mar- 7 to Mar-11 2.129 2.148 2.143 2.135 2.125 1994 Mar-14 to Mar-18 2.111 2.137 2.177 2.152 2.130 1994 Mar-21 to Mar-25 2.112 2.131 2.117 2.068 2.087 1994 Mar-28 to Apr- 1 2.086 2.082 2.083 2.092 1994 Apr- 4 to Apr- 8 2.124 2.100 2.116 2.100 2.086 1994 Apr-11 to Apr-15 2.095 2.099 2.123 2.155 2.183 1994 Apr-18 to Apr-22 2.187 2.167 2.174 2.181 2.169

59

Henry Hub Natural Gas Spot Price (Dollars per Million Btu)  

Gasoline and Diesel Fuel Update (EIA)

Week Of Mon Tue Wed Thu Fri Week Of Mon Tue Wed Thu Fri 1997 Jan- 6 to Jan-10 3.82 3.80 3.61 3.92 1997 Jan-13 to Jan-17 4.00 4.01 4.34 4.71 3.91 1997 Jan-20 to Jan-24 3.26 2.99 3.05 2.96 2.62 1997 Jan-27 to Jan-31 2.98 3.05 2.91 2.86 2.77 1997 Feb- 3 to Feb- 7 2.49 2.59 2.65 2.51 2.39 1997 Feb-10 to Feb-14 2.42 2.34 2.42 2.22 2.12 1997 Feb-17 to Feb-21 1.84 1.95 1.92 1.92 1997 Feb-24 to Feb-28 1.92 1.77 1.81 1.80 1.78 1997 Mar- 3 to Mar- 7 1.80 1.87 1.92 1.82 1.89 1997 Mar-10 to Mar-14 1.95 1.92 1.96 1.98 1.97 1997 Mar-17 to Mar-21 2.01 1.91 1.88 1.88 1.87 1997 Mar-24 to Mar-28 1.80 1.85 1.85 1.84 1997 Mar-31 to Apr- 4 1.84 1.95 1.85 1.87 1.91 1997 Apr- 7 to Apr-11 1.99 2.01 1.96 1.97 1.98 1997 Apr-14 to Apr-18 2.00 2.00 2.02 2.08 2.10

60

Henry Hub Natural Gas Spot Price (Dollars per Million Btu)  

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

Week Of Mon Tue Wed Thu Fri Week Of Mon Tue Wed Thu Fri 1997 Jan- 6 to Jan-10 3.82 3.80 3.61 3.92 1997 Jan-13 to Jan-17 4.00 4.01 4.34 4.71 3.91 1997 Jan-20 to Jan-24 3.26 2.99 3.05 2.96 2.62 1997 Jan-27 to Jan-31 2.98 3.05 2.91 2.86 2.77 1997 Feb- 3 to Feb- 7 2.49 2.59 2.65 2.51 2.39 1997 Feb-10 to Feb-14 2.42 2.34 2.42 2.22 2.12 1997 Feb-17 to Feb-21 1.84 1.95 1.92 1.92 1997 Feb-24 to Feb-28 1.92 1.77 1.81 1.80 1.78 1997 Mar- 3 to Mar- 7 1.80 1.87 1.92 1.82 1.89 1997 Mar-10 to Mar-14 1.95 1.92 1.96 1.98 1.97 1997 Mar-17 to Mar-21 2.01 1.91 1.88 1.88 1.87 1997 Mar-24 to Mar-28 1.80 1.85 1.85 1.84 1997 Mar-31 to Apr- 4 1.84 1.95 1.85 1.87 1.91 1997 Apr- 7 to Apr-11 1.99 2.01 1.96 1.97 1.98 1997 Apr-14 to Apr-18 2.00 2.00 2.02 2.08 2.10

Note: This page contains sample records for the topic "btl biomass-to-liquids btu" 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

Henry Hub Natural Gas Spot Price (Dollars per Million Btu)  

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

Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1997 3.45 2.15 1.89 2.03 2.25 2.20 2.19 2.49 2.88 3.07 3.01 2.35 1998 2.09 2.23 2.24 2.43 2.14 2.17 2.17 1.85 2.02 1.91 2.12 1.72 1999 1.85 1.77 1.79 2.15 2.26 2.30 2.31 2.80 2.55 2.73 2.37 2.36 2000 2.42 2.66 2.79 3.04 3.59 4.29 3.99 4.43 5.06 5.02 5.52 8.90 2001 8.17 5.61 5.23 5.19 4.19 3.72 3.11 2.97 2.19 2.46 2.34 2.30 2002 2.32 2.32 3.03 3.43 3.50 3.26 2.99 3.09 3.55 4.13 4.04 4.74 2003 5.43 7.71 5.93 5.26 5.81 5.82 5.03 4.99 4.62 4.63 4.47 6.13 2004 6.14 5.37 5.39 5.71 6.33 6.27 5.93 5.41 5.15 6.35 6.17 6.58 2005 6.15 6.14 6.96 7.16 6.47 7.18 7.63 9.53 11.75 13.42 10.30 13.05

62

Natural Gas Futures Contract 4 (Dollars per Million Btu)  

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

Year-Month Week 1 Week 2 Week 3 Week 4 Week 5 Year-Month Week 1 Week 2 Week 3 Week 4 Week 5 End Date Value End Date Value End Date Value End Date Value End Date Value 1993-Dec 12/24 1.869 12/31 1.943 1994-Jan 01/07 1.935 01/14 1.992 01/21 2.006 01/28 2.088 1994-Feb 02/04 2.133 02/11 2.135 02/18 2.148 02/25 2.149 1994-Mar 03/04 2.118 03/11 2.125 03/18 2.139 03/25 2.113 1994-Apr 04/01 2.107 04/08 2.120 04/15 2.140 04/22 2.180 04/29 2.165 1994-May 05/06 2.103 05/13 2.081 05/20 2.076 05/27 2.061 1994-Jun 06/03 2.134 06/10 2.180 06/17 2.187 06/24 2.176 1994-Jul 07/01 2.256 07/08 2.221 07/15 2.172 07/22 2.137 07/29 2.207

63

Natural Gas Futures Contract 3 (Dollars per Million Btu)  

Gasoline and Diesel Fuel Update (EIA)

Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1994 2.116 2.168 2.118 2.139 2.038 2.150 2.083 2.031 2.066 2.037 1.873 1.694 1995 1.490 1.492 1.639 1.745 1.801 1.719 1.605 1.745 1.883 1.889 1.858 1.995 1996 1.964 2.056 2.100 2.277 2.307 2.572 2.485 2.222 2.272 2.572 2.571 2.817 1997 2.393 1.995 1.978 2.073 2.263 2.168 2.140 2.589 3.043 3.236 2.803 2.286 1998 2.110 2.312 2.312 2.524 2.249 2.234 2.220 2.168 2.479 2.548 2.380 1.954 1999 1.860 1.820 1.857 2.201 2.315 2.393 2.378 2.948 2.977 3.055 2.586 2.403 2000 2.396 2.591 2.868 3.058 3.612 4.258 3.981 4.526 5.335 5.151 5.455 7.337 2001 6.027 5.441 5.287 5.294 4.384 3.918 3.309 3.219 2.891 3.065 3.022 2.750

64

Natural Gas Futures Contract 2 (Dollars per Million Btu)  

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

Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1994 2.188 2.232 2.123 2.136 1.999 2.130 2.021 1.831 1.881 1.961 1.890 1.709 1995 1.457 1.448 1.595 1.718 1.770 1.685 1.525 1.630 1.805 1.870 1.936 2.200 1996 2.177 2.175 2.205 2.297 2.317 2.582 2.506 2.120 2.134 2.601 2.862 3.260 1997 2.729 2.016 1.954 2.053 2.268 2.171 2.118 2.484 2.970 3.321 3.076 2.361 1998 2.104 2.293 2.288 2.500 2.199 2.205 2.164 1.913 2.277 2.451 2.438 1.953 1999 1.851 1.788 1.829 2.184 2.293 2.373 2.335 2.836 2.836 3.046 2.649 2.429 2000 2.392 2.596 2.852 3.045 3.604 4.279 3.974 4.467 5.246 5.179 5.754 8.267 2001 7.374 5.556 5.245 5.239 4.315 3.867 3.223 2.982 2.558 2.898 2.981 2.748

65

Fumigation of a diesel engine with low Btu gas  

SciTech Connect

A 0.5 liter single-cylinder, indirect-injection diesel engine has been fumigated with producer gas. Measurements of power, efficiency, cylinder pressure, and emissions were made. At each operating condition, engine load was held constant, and the gas-to-diesel fuel ratio was increased until abnormal combustion was encountered. This determined the maximum fraction of the input energy supplied by the gas, E/sub MAX/, which was found to be dependent upon injection timing and load. At light loads, E/sub MAX/ was limited by severe efficiency loss and missfire, while at heavy loads it was limited by knock or preignition. Fumigation generally increased ignition delay and heat release rates, but peak pressures were not strongly influenced. Efficiency was slightly decreased by fumigation as were NO/sub X/ and particle emissions while CO emissions were increased.

Ahmadi, M.; Kittelson, D.B.

1985-01-01T23:59:59.000Z

66

Electrical Generation Using Non-Salable Low BTU Natural Gas  

SciTech Connect

High operating costs are a significant problem for independent operators throughout the U.S. Often, decisions to temporarily idle or abandon a well or lease are dictated by these cost considerations, which are often seen as unavoidable. Options for continuing operations on a marginal basis are limited, but must include non-conventional approaches to problem solving, such as the use of alternative sources of lease power, and scrupulous reduction of non-productive operating techniques and costs. The loss of access to marginal oil and gas productive reservoirs is of major concern to the DOE. The twin difficulties of high operating costs and low or marginal hydrocarbon production often force independent operators to temporarily or permanently abandon existing lease facilities, including producing wells. Producing well preservation, through continued economical operation of marginal wells, must be maintained. Reduced well and lease operating costs are expected to improve oil recovery of the Schaben field, in Ness County, Kansas, by several hundred thousands of barrels of oil. Appropriate technology demonstrated by American Warrior, allows the extension of producing well life and has application for many operators throughout the area.

Scott Corsair

2005-12-01T23:59:59.000Z

67

Texas Heat Content of Natural Gas Deliveries to Consumers (BTU...  

Annual Energy Outlook 2012 (EIA)

Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9 2000's 1,025 1,025 1,023 2010's 1,028 1,025 1,026 1,024...

68

Oregon Heat Content of Natural Gas Deliveries to Consumers (BTU...  

Gasoline and Diesel Fuel Update (EIA)

Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9 2000's 1,033 1,023 1,024 2010's 1,015 1,021 1,022 1,016...

69

Iowa Heat Content of Natural Gas Deliveries to Consumers (BTU...  

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

Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9 2000's 1,010 1,010 1,007 2010's 1,006 1,009 1,014 1,029...

70

Idaho Heat Content of Natural Gas Deliveries to Consumers (BTU...  

Gasoline and Diesel Fuel Update (EIA)

Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9 2000's 1,024 1,023 1,022 2010's 1,021 1,017 1,015 1,022...

71

Texas Heat Content of Natural Gas Deliveries to Consumers (BTU...  

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

Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 2013 1,023 1,024 1,024 1,025 1,027 1,026 1,024 1,025 1,024 1,025 1,024 1,025 2014 1,027 1,022 1,028 1,026 1,029 1,032 1,033...

72

Utah Heat Content of Natural Gas Deliveries to Consumers (BTU...  

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

Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 2013 1,050 1,050 1,049 1,047 1,048 1,048 1,046 1,041 1,044 1,043 1,045 1,044 2014 1,044 1,044 1,045 1,044 1,038 1,036 1,038...

73

Idaho Heat Content of Natural Gas Deliveries to Consumers (BTU...  

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

Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 2013 1,015 1,015 1,031 1,021 1,010 997 988 994 1,001 1,026 1,034 1,054 2014 1,048 1,036 1,030 1,022 1,006 993 984 996 1,005...

74

Iowa Heat Content of Natural Gas Deliveries to Consumers (BTU...  

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

Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 2013 1,025 1,029 1,029 1,030 1,031 1,030 1,030 1,027 1,028 1,032 1,033 1,032 2014 1,034 1,033 1,034 1,036 1,040 1,039 1,043...

75

Kansas Heat Content of Natural Gas Deliveries to Consumers (BTU...  

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

Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 2013 1,017 1,017 1,019 1,018 1,018 1,020 1,020 1,020 1,018 1,017 1,016 1,017 2014 1,017 1,017 1,019 1,023 1,022 1,023 1,025...

76

Ohio Heat Content of Natural Gas Deliveries to Consumers (BTU...  

Gasoline and Diesel Fuel Update (EIA)

Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9 2000's 1,037 1,040 1,041 2010's 1,034 1,031 1,032 1,037...

77

Ohio Heat Content of Natural Gas Deliveries to Consumers (BTU...  

Annual Energy Outlook 2012 (EIA)

Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 2013 1,034 1,033 1,033 1,035 1,035 1,038 1,037 1,044 1,045 1,044 1,043 1,044 2014 1,044 1,042 1,041 1,050 1,047 1,048 1,053...

78

Maine Heat Content of Natural Gas Deliveries to Consumers (BTU...  

Annual Energy Outlook 2012 (EIA)

Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9 2000's 1,064 1,062 1,046 2010's 1,044 1,047 1,032 1,028...

79

Nevada Heat Content of Natural Gas Deliveries to Consumers (BTU...  

Annual Energy Outlook 2012 (EIA)

Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9 2000's 1,032 1,039 1,031 2010's 1,033 1,024 1,029 1,034...

80

Alaska Heat Content of Natural Gas Deliveries to Consumers (BTU...  

Gasoline and Diesel Fuel Update (EIA)

Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 2013 1,002 1,001 1,001 1,001 1,002 1,003 1,003 1,002 1,002 1,001 1,001 1,000 2014 1,002 1,004 1,001 1,002 1,001 1,001 1,001...

Note: This page contains sample records for the topic "btl biomass-to-liquids btu" 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

Maine Heat Content of Natural Gas Deliveries to Consumers (BTU...  

Annual Energy Outlook 2012 (EIA)

Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 2013 1,037 1,032 1,027 1,032 1,028 1,031 1,033 1,030 1,031 1,037 1,032 1,029 2014 1,029 1,030 1,030 1,030 1,033 1,030 1,031...

82

Kansas Heat Content of Natural Gas Deliveries to Consumers (BTU...  

Annual Energy Outlook 2012 (EIA)

Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9 2000's 1,018 1,034 1,019 2010's 1,019 1,020 1,022 1,018...

83

Alaska Heat Content of Natural Gas Deliveries to Consumers (BTU...  

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

Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9 2000's 1,006 1,006 1,005 2010's 1,005 1,013 1,012...

84

Nevada Heat Content of Natural Gas Deliveries to Consumers (BTU...  

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

Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 2013 1,037 1,039 1,037 1,034 1,031 1,032 1,031 1,033 1,039 1,032 1,029 1,034 2014 1,033 1,033 1,032 1,034 1,032 1,033 1,033...

85

Oregon Heat Content of Natural Gas Deliveries to Consumers (BTU...  

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

Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 2013 1,011 1,010 1,012 1,011 1,017 1,020 1,020 1,023 1,021 1,014 1,013 1,013 2014 1,013 1,012 1,010 1,034 1,041 1,044 1,029...

86

Utah Heat Content of Natural Gas Deliveries to Consumers (BTU...  

Gasoline and Diesel Fuel Update (EIA)

Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9 2000's 1,052 1,059 1,044 2010's 1,045 1,038 1,043 1,046...

87

Natural Gas Futures Contract 4 (Dollars per Million Btu)  

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

Week Of Mon Tue Wed Thu Fri Week Of Mon Tue Wed Thu Fri 1993 Dec-20 to Dec-24 1.894 1.830 1.859 1.895 1993 Dec-27 to Dec-31 1.965 1.965 1.943 1.901 1994 Jan- 3 to Jan- 7 1.883 1.896 1.962 1.955 1.980 1994 Jan-10 to Jan-14 1.972 2.005 2.008 1.966 2.010 1994 Jan-17 to Jan-21 2.006 1.991 1.982 2.000 2.053 1994 Jan-24 to Jan-28 2.095 2.044 2.087 2.088 2.130 1994 Jan-31 to Feb- 4 2.157 2.185 2.157 2.075 2.095 1994 Feb- 7 to Feb-11 2.115 2.145 2.142 2.135 2.140 1994 Feb-14 to Feb-18 2.128 2.125 2.175 2.160 2.155 1994 Feb-21 to Feb-25 2.160 2.130 2.138 2.171 1994 Feb-28 to Mar- 4 2.140 2.128 2.112 2.103 2.111 1994 Mar- 7 to Mar-11 2.116 2.133 2.130 2.130 2.120 1994 Mar-14 to Mar-18 2.114 2.137 2.170 2.146 2.130 1994 Mar-21 to Mar-25 2.117 2.134 2.120 2.086 2.112

88

Natural Gas Futures Contract 2 (Dollars per Million Btu)  

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

Week Of Mon Tue Wed Thu Fri Week Of Mon Tue Wed Thu Fri 1994 Jan-10 to Jan-14 2.130 2.072 2.139 1994 Jan-17 to Jan-21 2.196 2.131 2.115 2.148 2.206 1994 Jan-24 to Jan-28 2.283 2.134 2.209 2.236 2.305 1994 Jan-31 to Feb- 4 2.329 2.388 2.352 2.252 2.198 1994 Feb- 7 to Feb-11 2.207 2.256 2.220 2.231 2.236 1994 Feb-14 to Feb-18 2.180 2.189 2.253 2.240 2.254 1994 Feb-21 to Feb-25 2.220 2.168 2.179 2.221 1994 Feb-28 to Mar- 4 2.165 2.146 2.139 2.126 2.144 1994 Mar- 7 to Mar-11 2.149 2.168 2.160 2.144 2.132 1994 Mar-14 to Mar-18 2.109 2.142 2.192 2.164 2.136 1994 Mar-21 to Mar-25 2.107 2.129 2.115 2.050 2.077 1994 Mar-28 to Apr- 1 2.076 2.072 2.070 2.087 1994 Apr- 4 to Apr- 8 2.134 2.090 2.109 2.093 2.081 1994 Apr-11 to Apr-15 2.090 2.099 2.128 2.175 2.196

89

Development of Gas Turbine Combustors for Low BTU Gas  

Science Journals Connector (OSTI)

Large-capacity combined cycles with high-temperature gas turbines burning petroleum fuel or LNG have already ... the other hand, as the power generation technology utilizing coal burning the coal gasification com...

I. Fukue; S. Mandai; M. Inada

1992-01-01T23:59:59.000Z

90

...2!.J1... .J. J!j btl Great Lakes Gill Net  

E-Print Network (OSTI)

free of ice. With the advent of the steam engine and later the gasoline and diesel engines, a type over comparatively short distances and return to port each night. The fishing season, generally 9 somewhat mechanized and modernized, the lakes fishing industry, in general, has not kept pace with other

91

Imaging cell wall architecture in single Zinnia elegans tracheary elements  

E-Print Network (OSTI)

processing steps in biomass conversion involves systematicof novel approaches for conversion of biomass to liquid bio-

Lacayo, Catherine

2012-01-01T23:59:59.000Z

92

Small (5 million Btu/h) and large (300 million Btu/h) thermal test rigs for coal and coal slurry burner development  

SciTech Connect

NEI International Combustion Ltd. of Derby, England, now operates two thermal test rigs for the development of burners capable of handling coal-water slurries (CWS). A general description of the large rig and its capacity was given. Also, the necessary conversions of the equipment to handle CWS were described. Information on the properties of the CWS was included. This consisted of chemical analysis of the parent coal and the slurry, sieve analysis of a dry sample, and viscosity versus temperature data of the CWS. The process of design development of the burner was outlined. Ten illustrations were presented, including schematic diagrams of equipment and graphs of data.

Allen, J.W.; Beal, P.R.; Hufton, P.F.

1983-01-01T23:59:59.000Z

93

Vol. 22 no. 24 2006, pages 29732974 doi:10.1093/bioinformatics/btl579BIOINFORMATICS EDITORIAL  

E-Print Network (OSTI)

it was to plan the large-scale mapping of protein interactions in human and other model organisms. Scientists the presentations during the meeting (for a recent review see Sharan and Ideker, 2006) an early and essential bioinformatics task will be the creation of database standards (i.e. the IMEX interaction database standard

94

Production of Medium BTU Gas by In Situ Gasification of Texas Lignite  

E-Print Network (OSTI)

The necessity of providing clean, combustible fuels for use in Gulf Coast industries is well established; one possible source of such a fuel is to perform in situ gasification of Texas lignite which lies below stripping depths. If oxygen (rather...

Edgar, T. F.

1979-01-01T23:59:59.000Z

95

Microfabricated BTU monitoring device for system-wide natural gas monitoring.  

SciTech Connect

The natural gas industry seeks inexpensive sensors and instrumentation to rapidly measure gas heating value in widely distributed locations. For gas pipelines, this will improve gas quality during transfer and blending, and will expedite accurate financial accounting. Industrial endusers will benefit through continuous feedback of physical gas properties to improve combustion efficiency during use. To meet this need, Sandia has developed a natural gas heating value monitoring instrument using existing and modified microfabricated components. The instrument consists of a silicon micro-fabricated gas chromatography column in conjunction with a catalytic micro-calorimeter sensor. A reference thermal conductivity sensor provides diagnostics and surety. This combination allows for continuous calorimetric determination with a 1 minute analysis time and 1.5 minute cycle time using air as a carrier gas. This system will find application at remote natural gas mining stations, pipeline switching and metering stations, turbine generators, and other industrial user sites. Microfabrication techniques will allow the analytical components to be manufactured in production quantities at a low per-unit cost.

Einfeld, Wayne; Manginell, Ronald Paul; Robinson, Alex Lockwood; Moorman, Matthew Wallace

2005-11-01T23:59:59.000Z

96

Sulfidation-oxidation of advanced metallic materials in simulated low-Btu coal-gasifier environments  

Science Journals Connector (OSTI)

The corrosion behavior of structural alloys in complex multicomponent gas environments is of considerable interest for their effective utilization in coal conversion schemes. Little understanding...

T. C. Tiearney Jr.; K. Natesan

1982-02-01T23:59:59.000Z

97

Energy Policy: Independence by 1985 My Be Unreachable Without Btu Tax  

Science Journals Connector (OSTI)

...domestic oil production and the diffi-culties...Countries (OPEC). The decontrol...the Earth Day move-ment...indeed-high enough per-haps to...about by OPEC in late 1973 and early...of oil a day less than...18 miles per gallon by...of oil a day (mbd...consumption in 1973. The added...domestic production of energy...

LUTHER J. CARTER

1976-02-13T23:59:59.000Z

98

Understanding Utility Rates or How to Operate at the Lowest $/BTU  

E-Print Network (OSTI)

:F.~:brP'RQJ~:Cr::::::::: ::: :::] by LONE STAR GAS COMPANY JIM PHILLIPS, P.E., CEM IEQUIPMENT D A T Ai IENERGY DAT Ai KW Gas Rate: $4.86 per MCFGenerator Size: 5"00 Coqen Rate: $3.00 Iper MCF Recoverable Heat: 4.3' MMBH I _ Fuel Consumption: 8.0 MCFH Electric Rate $6.80 per...:F.~:brP'RQJ~:Cr::::::::: ::: :::] by LONE STAR GAS COMPANY JIM PHILLIPS, P.E., CEM IEQUIPMENT D A T Ai IENERGY DAT Ai KW Gas Rate: $4.86 per MCFGenerator Size: 5"00 Coqen Rate: $3.00 Iper MCF Recoverable Heat: 4.3' MMBH I _ Fuel Consumption: 8.0 MCFH Electric Rate $6.80 per...

Phillips, J. N.

99

Fresh Way to Cut Combustion, Crop and Air Heating Costs Avoids Million BTU Purchases: Inventions and Innovation Combustion Success Story  

SciTech Connect

Success story written for the Inventions and Innovation Program about a new space heating method that uses solar energy to heat incoming combustion, crop, and ventilation air.

Wogsland, J.

2001-01-17T23:59:59.000Z

100

Biological removal of organic constituents in quench waters from high-Btu coal-gasification pilot plants  

SciTech Connect

Studies were initiated to assess the efficiency of bench-scale, activated-sludge treatment for removal of organic constituents from coal-gasification process effluents. Samples of pilot-plant, raw-gas quench waters were obtained from the HYGAS process of the Institute of Gas Technology and from the slagging, fixed-bed (SFB) process of the Grand Forks Energy Technology Center. The types of coal employed were Bituminous Illinois No. 6 for the HYGAS and Indian Head lignite for the SFB process. These pilot-plant quench waters, while not strictly representative of commercial condensates, were considered useful to evaluate the efficiency of biological oxidation for the removal of organics. Biological-reactor influent and effluent samples were extracted using a methylene chloride pH-fractionation method into acid, base, and neutral fractions, which were analyzed by capillary-column gas-chromatography/mass-spectrometry. Influent acid fractions of both HYGAS and SFB condensates showed that nearly 99% of extractable and chromatographable organic material comprised phenol and alkylated phenols. Activated-sludge treatment removed these compounds almost completely. Removal efficiency of base-fraction organics was generally good, except for certain alkylated pyridines. Removal of neutral-fraction organics was also good, except for certain alkylated benzenes, certain polycyclic aromatic hydrocarbons, and certain cycloalkanes and cycloalkenes, especially at low influent concentrations.

Stamoudis, V C; Luthy, R G

1980-02-01T23:59:59.000Z

Note: This page contains sample records for the topic "btl biomass-to-liquids btu" 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

Classes of compounds responsible for mutagenic and cytotoxic activity in tars and oils formed during low BTU gasification of coal  

SciTech Connect

The Lovelace Inhalation Toxicology Research Institute (ITRI), in cooperation with the Morgantown Energy Technology Center (METC), has completed toxicity screening of vapors, liquids and solids formed during operation of an experimental pressurized, stirred-bed, coal gasifier at METC. Vapors collected from the cooled process stream on Tenax resins had no mutagenic activity in the Ames Salmonella assay. Dichloromethane extracts of liquids and solids collected from the effluent or process streams were fractionated by gel chromatography into fractions containing mostly aliphatic compounds; neutral polycyclic aromatic hydrocarbons (PAH); polar (PAH) and heterocyclic compounds; and salts. The polar fraction was partitioned into acids, bases, water soluble compounds and phenols. Bacterial mutagenic activity was highest in the basic fraction with additional activity in the neutral PAHs. Highest cytotoxicity toward both the bacteria and canine alveolar macrophages was in the phenolic fraction. Treatment of the gasifier tars by nitrosation or by acetylation to remove primary aromatic amines (PAA) reduced the bacterial mutagenicity by 50-60%, indicating that some, but not all, of the mutagenicity was due to PAA.

Henderson, R.F.; Bechtold, W.F.; Benson, J.M.; Newton, G.J.; Hanson, R.L.; Brooks, A.L.; Dutcher, J.S.; Royer, R.E.; Hobbs, C.H.

1986-04-01T23:59:59.000Z

102

Determination of performance characteristics of a one-cylinder diesel engine modified to burn low-Btu (lignite) gas  

E-Print Network (OSTI)

d = standard deviation INTRODUCTION The United States' vast lignite reserves' energy po- tential, while not commanding the public interest as much as the more "exotic" forms of energy conversion (solar, geothermal, wave energy, etc. ), has been... viewed with in- creasing interest by the technical community. Although a tremendous amount of energy is totalled in this country' s lignite coal reserves (Texas deposits alone are estimated at 100 billion tons [1] ), the energy is low-grade; i. e...

Blacksmith, James Richard

2012-06-07T23:59:59.000Z

103

index | netl.doe.gov  

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

International Activity Project Information Project Portfolio Publications Coal Gasification Magazine Solicitations The Coal and Coal-Biomass-to-Liquids (C&CBTL) Technology...

104

Co-conversion of Biomass, Shale-natural gas, and process-derived CO2 into Fuels and Chemicals  

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

Breakout Session 1: New Developments and Hot Topics Session 1-D: Natural Gas & Biomass to Liquids Suresh Babu, Senior Program Manager, Biomass Program Development, Brookhaven National Laboratory

105

Exploring the Optimum Role of Natural Gas in Biofuels Production  

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

Breakout Session 1: New Developments and Hot Topics Session 1-D: Natural Gas & Biomass to Liquids Vann Bush, Managing Director, Energy Conversion, Gas Technology Institute

106

GBTL Workshop Attendees  

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

Natural Gas-Biomass to Liquids Workshop Attendees Technical Barriers Breakout Track Julio Baez, Lawrence Berkeley National Laboratory Robert Baldwin, National Renewable Energy...

107

February GBTL Webinar  

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

Gas-Biomass to Liquids Workshop Contact Information Energy Efficiency & Renewable Energy Bioenergy Technologies Office - Prasad Gupte (prasad.gupte@ee.doe.gov) - Zia Haq...

108

E-Print Network 3.0 - algae natural products Sample Search Results  

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

Mexico State University Collection: Engineering 8 Introduction slide 2 Biofuels and Algae Markets, Systems, Summary: Crude, Biomass to Liquids, Green Diesel Outlook and...

109

GBTL Opening Presentation_Tech Barriers  

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

Advisory Committees Science & Innovation Clean Coal Carbon Capture and Storage Oil & Gas 6 | Natural Gas-Biomass to Liquids Workshop DOE FE Studies Add National Perspective...

110

GBTL Workshop GHG Emissions  

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

Advisory Committees Science & Innovation Clean Coal Carbon Capture and Storage Oil & Gas 9 | Natural Gas-Biomass to Liquids Workshop DOE FE Studies Add National Perspective...

111

Verification of Shell GTL Fuel as CARB Alternative Diesel  

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

with existing infrastructure GTL provides a bridge to Biomass to Liquids and Coal to Liquids technologies Life cycle analysis: GTL vs. Refinery system GTL less...

112

Biomass and Natural Gas to Liquid Transportation Fuels  

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

Breakout Session 1: New Developments and Hot Topics Session 1-D: Natural Gas & Biomass to Liquids Josephine Elia, Graduate Student, Princeton University

113

GBTL Opening Presentation_Tech Barriers | Department of Energy  

Energy Savers (EERE)

Natural Gas-Biomass to Liquids Workshop gbtlworkshoptechnicalbarriers.pdf More Documents & Publications GBTL Workshop GHG Emissions February GBTL Webinar October 2013 News Blast...

114

NETL: Coal  

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

use of our domestic energy resources and infrastructure. Gasification Systems | Advanced Combustion | Coal & Coal-Biomass to Liquids | Solid Oxide Fuel Cells | Turbines CO2...

115

A Life Cycle Analysis on a Bio-DME production system considering the species of biomass feedstock in Japan and Papua New Guinea  

Science Journals Connector (OSTI)

This paper describes the performance and/or CO2 intensities of a Bio-DME (Biomass Di-methyl Ether) production system, considering the differences of biomass feedstock. In the past LCA studies on an energy chain model, there is little knowledge on the differences of biomass feedstock and/or available condition. Thus, in this paper, we selected Papua New Guinea (PNG) which has good potential for supply of an energy crop (a short rotation forestry), and Japan where wood remnants are available, as model areas. Also, we referred to 9 species of biomass feedstock of PNG, and to 8 species in Japan. The system boundary on our LCA consists of (1) the pre-treatment process, (2) the energy conversion process, and (3) the fuel transportation process. Especially, since the pre-treatment process has uncertainties related to the moisture content of biomass feedstock, as well as the distance from the cultivation site to the energy plant, we considered them by the Monte Carlo simulation. Next, we executed the process design of the Bio-DME production system based on the basic experimental results of pyrolysis and char gasification reactions. Due to these experiments, the gas components of pyrolysis and the gasification rate under H2O (steam) and CO2 were obtained. Also, we designed the pressurized fluid-bed gasification process. In a liquefaction process, that is, a synthesis process of DME, the result based on an equilibrium constant was used. In the proposed system, a steam turbine for an auxiliary power was assumed to be equipped, too. The energy efficiencies are 39.056.8 LHV-%, depending upon the biomass species. Consequently, CO2 intensities in the whole system were 16.347.2g-CO2/MJ-DME in the Japan case, and 12.236.7g-CO2/MJ-DME in the PNG one, respectively. Finally, using the results of CO2 intensities and energy efficiencies, we obtained the regression equations as parameters of hydrogen content and heating value of a feedstock. These equations will be extremely significant when we install the BTL (biomass-to-liquid, ex. Bio-DME) energy system in the near future, in order to mitigate CO2 emissions effectively, and to estimate the energys efficiency.

Masashi Higo; Kiyoshi Dowaki

2010-01-01T23:59:59.000Z

116

OATAO is an open access repository that collects the work of Toulouse researchers and makes it freely available over the web where possible.  

E-Print Network (OSTI)

#12;2 efficiency; greenhouse gas emissions; electrolysis water use; levelized biofuels production cost Sustainability assessment of an integrated High Temperature Steam Electrolysis - enhanced Biomass to Liquid Fuel Electrolysis - enhanced Biomass to Liquid Fuel process Quentin Bernical,, Xavier Joulia, Isabelle Noirot

Boyer, Edmond

117

Biodiesel 2014: FAME and Misfortune?  

Annual Energy Outlook 2012 (EIA)

generation BTL are sensible alternatives to biodiesel Waste Not, Want Not: E20 Vehicle Test Program with Clariant and Haltermann William Woebkenberg - US Fuels Technical and...

118

Development and Application of Advanced Models for Steam Hydrogasification: Process Design and Economic Evaluation  

E-Print Network (OSTI)

design, modeling and process economic analysis are employedper day. Like BTL process, economic analysis has shown thatused as major input for process economic analysis in the

Lu, Xiaoming

2012-01-01T23:59:59.000Z

119

METC ceramic corrosion/erosion studies: turbine-material screening tests in high-temperature, low-Btu, coal-derived-gas combustion products  

SciTech Connect

The Morgantown Energy Technology Center, through its Ceramics Corrosion/Erosion Studies, has participated in the United States Department of Energy's High-Temperature Turbine Technology Program, Ceramic Technology Readiness. The program's overall objective is to advance the turbine firing temperature to a range of 2600/sup 0/ to 3000/sup 0/F (1700 to 1922K) with a reasonable service life using coal or coal-derived fuel. The Ceramics Corrosion/Erosion Studies' major objective was to conduct a screening test for several ceramic materials to assess their probability of survival in turbine applications. The materials were exposed to combustion products from low heating value coal-derived gas and air at several high temperatures and velocities. The combustion product composition and temperatures simulated actual environment that may be found in stationary power generating gas turbines except for the pressure levels. The results of approximately 1000 hours of accumulative exposure time of material at the specific test conditions are presented in this report.

Nakaishi, C.V.; Waltermire, D.M.; Hawkins, L.W.; Jarrett, T.L.

1982-05-01T23:59:59.000Z

120

~A four carbon alcohol. It has double the amount of carbon of ethanol, which equates to a substantial increase in harvestable energy (Btu's).  

E-Print Network (OSTI)

.0 psi. ~Butanol is an alcohol that can be but does not have to be blended with fossil fuels. ~Butanol existing pipelines and filling stations. ~Hydrogen generated during the butanol fermentation process is expected to increase dramatically if green butanol can be produced economically from low cost biomass

Toohey, Darin W.

Note: This page contains sample records for the topic "btl biomass-to-liquids btu" 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

A Lifecycle Emissions Model (LEM): Lifecycle Emissions from Transportation Fuels, Motor Vehicles, Transportation Modes, Electricity Use, Heating and Cooking Fuels, and Materials  

E-Print Network (OSTI)

97 BTUs of refinery energy per BTU of dieseland hydrogen) per BTU of diesel produced, depending onof refinery energy per BTU of diesel fuel In the real world

Delucchi, Mark

2003-01-01T23:59:59.000Z

122

Ethanol from Cellulosic Biomass [and Discussion  

Science Journals Connector (OSTI)

26 January 1983 research-article Ethanol from Cellulosic Biomass [and Discussion...of cellulosic biomass to liquid fuel, ethanol. Within the scope of this objective...maximize the conversion efficiency of ethanol production from biomass. This can be...

1983-01-01T23:59:59.000Z

123

Ethanol from Cellulosic Biomass [and Discussion  

Science Journals Connector (OSTI)

...research-article Ethanol from Cellulosic Biomass [and Discussion] D. I. C. Wang G...microbiological conversion of cellulosic biomass to liquid fuel, ethanol. Within the...efficiency of ethanol production from biomass. This can be achieved through the effective...

1983-01-01T23:59:59.000Z

124

Possible Pathways for Increasing Natural Gas Use for Transportation...  

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

emissions reduction. * NG use can provide a pathway for future bio-based fuels (e.g., biogas and gas + biomass-to-liquids GBTL). Natural Gas Use in Transportation Offers...

125

CX-009372: Categorical Exclusion Determination  

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

Small Scale Coal-Biomass to Liquids Using Highly Selective Fischer-Tropsch Synthesis CX(s) Applied: A9 Date: 09/17/2012 Location(s): California Offices(s): National Energy Technology Laboratory

126

CX-009362: Categorical Exclusion Determination  

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

Small Scale Coal-Biomass to Liquids Using Highly Selective FT Synthesis CX(s) Applied: B3.6 Date: 09/19/2012 Location(s): Alabama Offices(s): National Energy Technology Laboratory

127

CX-009361: Categorical Exclusion Determination  

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

Small Scale Coal-Biomass to Liquids Using Highly Selective FT Synthesis CX(s) Applied: A9, B3.6 Date: 09/19/2012 Location(s): North Carolina Offices(s): National Energy Technology Laboratory

128

CHEMICAL PROCESS RESEARCH AND DEVELOPMENT PROGRAM  

E-Print Network (OSTI)

the conversion of coal, oil shale and biomass to synfuels,"converting solid fuels (coal, oil shale, biomass) to gaseousfor converting coal, oil shale, or biomass to liquid and/or

Authors, Various

2013-01-01T23:59:59.000Z

129

NETL F 451.1/1-1, Categorical Exclusion Designation Form  

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

Projects Division FY15-16 24 months Greg O'Neil Mt. Prospect, IL Green-House-Gas-Reduced Coal-and-Biomass-to-Liquid -Based Jet Fuel (GHGR-CBTL) Process Unitel will provide full...

130

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

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

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

131

Environmental Reporting for the University of Michigan Ann Arbor  

E-Print Network (OSTI)

.......................................................................... 17 5.2 Energy ­ Buildings and Transportation/person) ....................... 18 5.1.2 Renewable Energy Contribution (%)......................................................................................... 18 5.1.3 Building Energy Consumption (Btu, Btu/ft2 , Btu/person, Btu/ft2 /person

Eustice, Ryan

132

AEO2012 Early Release Overview  

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

BTL), gas-to- liquids (GTL), coal-to-liquids (CTL), kerogen (i.e., oil shale), and refinery gain. After the oil crises of the 1970s and 1980s, much of the debate...

133

U.S. Energy Information Administration (EIA)  

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

BTL), gas-to-liquids (GTL), coal-to-liquids (CTL), kerogen (i.e., oil shale), and refinery gain. After the oil crises of the 1970s and 1980s, much of the debate...

134

Impact of Real Field Diesel Quality Variability on Engine Emissions...  

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

Diesel (GTL, NexBTL...) Artic Fuel Jet Fuel Synthetic Kero Europe Premium Diesels Africa Far East US Low Cetane SME RME US LC Mercosur US LC+20%SME Mercosur+40%SME...

135

Healthcare Energy Efficiency Research and Development  

E-Print Network (OSTI)

outdoor temp. BTU meter, boiler & Pumps electrical power OneBTU meter, one electrical meter per boiler (e.g. 4), pumpsPlant BTU Meter $ 4000, boiler electrical meter $ 500 each,

Lanzisera,, Judy Lai, Steven M.

2012-01-01T23:59:59.000Z

136

Coal and the Present Energy Situation  

Science Journals Connector (OSTI)

...heating value. High-Btu gas, commonly...substitute natural gas (SNG...ago, when natural gas was cheap and...cubic foot. High-Btu Gas...developed a high-pressure, stirred...low-Btu gas (14). A...

Elburt F. Osborn

1974-02-08T23:59:59.000Z

137

Case study of environmental protection agency (EPA) region 8 headquarters building  

E-Print Network (OSTI)

energy utilization intensity (EUI) was 71 kBtu-sf/yr. Thesite energy use intensity (EUI) is 71 kBtu/ft 2 . yr. Figureenergy utilization intensity (EUI) was 71 kBtu-sf/yr. Since

Webster, Tom; Bauman, Fred; Dickerhoff, Darryl J; Lee, Yoon Soo

2008-01-01T23:59:59.000Z

138

The Allocation of the Social Costs of Motor-Vehicle Use to Six Classes of Motor Vehicles  

E-Print Network (OSTI)

gasoline; 137,800 BTU/gallon for diesel fuel) 3412 = BTU/kWhcontent of diesel fuel per gallon (137,800 BTU/gallon HHVBTU/gallon HHV), and 15% due to the higher compression ratio of diesel

Delucchi, Mark A.

1996-01-01T23:59:59.000Z

139

2.1E Supplement  

E-Print Network (OSTI)

ELECFD Efficiency of diesel engine (Btu/Btu) THLOF Ratio ofDIESEL-OIL COAL METHANOL OTHER-FUEL ELEC-NET-SALE ELEC-BUY/SELL calculated calculated English ENERGY/UNIT Btu

Winkelmann, F.C.

2010-01-01T23:59:59.000Z

140

"NAICS",,"per Employee","of Value Added","of Shipments" "Code...  

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

Dollar","of Value" "NAICS",,"per Employee","of Value Added","of Shipments" "Code(a)","Economic Characteristic(b)","(million Btu)","(thousand Btu)","(thousand Btu)" ,,"Total United...

Note: This page contains sample records for the topic "btl biomass-to-liquids btu" 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

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

Gasoline and Diesel Fuel Update (EIA)

3 3 Table G1. Heat contents Fuel Units Approximate heat content Coal 1 Production .................................................. million Btu per short ton 20.136 Consumption .............................................. million Btu per short ton 19.810 Coke plants ............................................. million Btu per short ton 26.304 Industrial .................................................. million Btu per short ton 23.651 Residential and commercial .................... million Btu per short ton 20.698 Electric power sector ............................... million Btu per short ton 19.370

142

2.1E Supplement  

E-Print Network (OSTI)

TURBF Internal turbine efficiency (Btu/Btu) ELEFF Efficiencyspecifies the gas turbine conversion efficiency of fuel tospecifies the gas turbine conversion efficiency of fuel to

Winkelmann, F.C.

2010-01-01T23:59:59.000Z

143

--No Title--  

Buildings Energy Data Book (EERE)

1 2005 Residential Delivered Energy Consumption Intensities, by Housing Type Per Square Per Household Per Household Percent of Type Foot (thousand Btu) (1) (million Btu) Members...

144

Table 6. Electric Power Delivered Fuel Prices and Quality for...  

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

2003, 2002, 2001, 2000, 1999, 1998, 1997, 1996, 1995, 1994, 1993, 1992, 1991, 1990 "Coal (dollars per million Btu)",,, "Average heat value (Btu per...

145

Table 6. Electric Power Delivered Fuel Prices and Quality for...  

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

2003, 2002, 2001, 2000, 1999, 1998, 1997, 1996, 1995, 1994, 1993, 1992, 1991, 1990 "Coal (dollars per million Btu)",,,1.44,,, "Average heat value (Btu per...

146

A post-occupancy monitored evaluation of the dimmable lighting, automated shading, and underfloor air distribution system in The New York Times Building  

E-Print Network (OSTI)

Monthly energy use comparison EUI, kBtu/Gsf Lighting Heatinguse comparison Annual EUI, kBtu/sf-yr Lighting Heating

Lee, Eleanor S.

2014-01-01T23:59:59.000Z

147

The Role of Emerging Technologies in Improving Energy Efficiency: Examples from the Food Processing Industry  

E-Print Network (OSTI)

z = specific primary energy consumption of RF dryer (Btu/and specific primary energy consumption (240 Btu/lb. ) of RFenergy consumption of base technologies in 2020 (primary)

Lung, Robert Bruce; Masanet, Eric; McKane, Aimee

2006-01-01T23:59:59.000Z

148

Conversion of forest residues to a methane-rich gas. Detailed economic feasibility study  

SciTech Connect

An economic evaluation of the application of the multi-solid fluid reactor design to wood gasification was completed. The processing options examined include plant capacity, production of a high-Btu (1006 Btu/SCF HHV) gas versus an intermediate-Btu gas (379 Btu/SCF HHV), and operating pressure. 9 figs., 29 tabs.

Not Available

1986-03-01T23:59:59.000Z

149

Advanced Design and Commissioning Tools for Energy-Efficient Building Technologies  

E-Print Network (OSTI)

energy utilization intensity (EUI) was 47 kBtu-sf/yr. TaskStar Energy Star Rating NA EUI 47.5 kBtu/sf/yr 71. kBtu/sf/Sensitivity Study Annual HVAC EUI (kBtu/sf/yr - source) Fans

Bauman, Fred; Webster, Tom; Zhang, Hui; Arens, Ed

2012-01-01T23:59:59.000Z

150

Emissions of Criteria Pollutants, Toxic Air Pollutants, and Greenhouse Gases, From the Use of Alternative Transportation Modes and Fuels  

E-Print Network (OSTI)

fuel, or about 46,200 BTUs of diesel fuel per mile. 4.1.8BTU/bbl 3575 g/gal Diesel fuel 106 BTU/gal 106 BTU/bbl 3192gasoline or diesel vehicles (g/106-BTU) E NMOG = emissions

Delucchi, Mark

1996-01-01T23:59:59.000Z

151

Annual Energy Outlook 2011: With Projections to 2035  

Gasoline and Diesel Fuel Update (EIA)

Annual Energy Outlook 2011 Annual Energy Outlook 2011 Table G1. Heat Rates Fuel Units Approximate Heat Content Coal 1 Production . . . . . . . . . . . . . . . . . . . . . . . . million Btu per short ton 19.933 Consumption . . . . . . . . . . . . . . . . . . . . . . million Btu per short ton 19.800 Coke Plants . . . . . . . . . . . . . . . . . . . . . . million Btu per short ton 26.327 Industrial . . . . . . . . . . . . . . . . . . . . . . . . . million Btu per short ton 21.911 Residential and Commercial . . . . . . . . . . million Btu per short ton 21.284 Electric Power Sector . . . . . . . . . . . . . . . million Btu per short ton 19.536 Imports . . . . . . . . . . . . . . . . . . . . . . . . . . . million Btu per short ton

152

Title Goes Here In This PositionMillersville University  

E-Print Network (OSTI)

Electricity consumption is responsible for 66% of emissions 0 5,000 10,000 15,000 20,000 25,000 Scope 1 Consumption: 61,734 BTU/GSF UD's Electric Consumption: 59,396 BTU/GSF 0 50,000 100,000 150,000 200,000 250 Consumption & Tech. Rating Total BTU/GSF Fossil Consumption: 29,362 BTU/GSF Electric Consumption: 77,495 BTU

Hardy, Christopher R.

153

Energy Calculator- Common Units and Conversions  

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

Energy Calculator - Common Units and Conversions Energy Calculator - Common Units and Conversions Calculators for Energy Used in the United States: Coal Electricity Natural Gas Crude Oil Gasoline Diesel & Heating Oil Coal Conversion Calculator Short Tons Btu Megajoules Metric Tons Clear Calculate 1 Short Ton = 20,169,000 Btu (based on U.S. consumption, 2007) Electricity Conversion Calculator KilowattHours Btu Megajoules million Calories Clear Calculate 1 KilowattHour = 3,412 Btu Natural Gas Conversion Calculator Cubic Feet Btu Megajoules Cubic Meters Clear Calculate 1 Cubic Foot = 1,028 Btu (based on U.S. consumption, 2007); 1 therm = 100,000 Btu; 1 terajoule = 1,000,000 megajoules Crude Oil Conversion Calculator Barrels Btu Megajoules Metric Tons* Clear Calculate 1 Barrel = 42 U.S. gallons = 5,800,000 Btu (based on U.S. consumption,

154

Buildings Energy Data Book: 1.5 Generic Fuel Quad and Comparison  

Buildings Energy Data Book (EERE)

4 4 Average Annual Carbon Dioxide Emissions for Various Functions Stock Refrigerator (1) kWh - Electricity Stock Electric Water Heater kWh - Electricity Stock Gas Water Heater million Btu - Natural Gas Stock Oil Water Heater million Btu - Fuel Oil Single-Family Home million Btu Mobile Home million Btu Multi-Family Unit in Large Building million Btu Multi-Family Unit in Small Building million Btu School Building million Btu Office Building million Btu Hospital, In-Patient million Btu Stock Vehicles Passenger Car gallons - Gasoline Van, Pickup Truck, or SUV gallons - Gasoline Heavy Truck gallons - Diesel Fuel Tractor Trailer Truck gallons - Diesel Fuel Note(s): Source(s): 10,749 95.8 211,312 1) Stock refrigerator consumption is per household refrigerator consumption, not per refrigerator.

155

Natural Gas Processing Plants in the United States: 2010 Update / National  

Gasoline and Diesel Fuel Update (EIA)

National Overview National Overview Btu Content The natural gas received and transported by the major intrastate and interstate mainline transmission systems must be within a specific energy (Btu) content range. Generally, the acceptable Btu content is 1,035 Btu per cubic foot, with an acceptable deviation of +/-50 Btu. However, when natural gas is extracted, its Btu content can be very different from acceptable pipeline specifications. The Btu content of natural gas extracted varies depending on the presence of water, NGLs, as well as CO2, nitrogen, helium, and others. Significant amounts of NGLs in natural gas is generally associated with higher Btu values. Consistent with this, Btu values reported by plants in Texas and other Gulf of Mexico States are comparatively high (Table 3). On

156

D o s s i e r Second and Third Generation Biofuels: Towards Sustainability and Competitiveness  

E-Print Network (OSTI)

D o s s i e r Second and Third Generation Biofuels: Towards Sustainability and Competitiveness biofuels will have an important part to take in the energy transition as far as fuels are concerned. Using biofuels, the BTL route consists in the production of middle dis- tillates (Diesel and jet fuel) via

Paris-Sud XI, Université de

157

NETL F 451.1/1-1, Categorical Exclusion Designation Form  

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

10231 10231 Southern Research Institute FE Nexant, Inc. SCC/Gasification Division 2013-2015/31 months Arun C Bose San Francisco, CA Small Scale Coal-Biomass to Liquids Using Highly Selective Fischer-Tropsch Synthesis Nexant will conduct comparative process economic analysis by paper and computer studies for coal to liquids (CTL) and coal biomass to liquids (CBTL) production by the Fischer-Tropsch process. Arun Bose Digitally signed by Arun Bose DN: cn=Arun Bose, o=NETL, ou=SCC-Gasification Division, email=arun.bose@netl.doe.gov, c=US Date: 2012.09.17 07:58:22 -04'00' 09 17 2012 john ganz Digitally signed by john ganz DN: cn=john ganz, o=environmental compliance division, ou=office of general counsel, email=john.ganz@netl.doe.gov, c=US Date: 2012.09.17 14:26:15 -04'00'

158

Page not found | Department of Energy  

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

31 - 6040 of 8,172 results. 31 - 6040 of 8,172 results. Download CX-009361: Categorical Exclusion Determination Small Scale Coal-Biomass to Liquids Using Highly Selective FT Synthesis CX(s) Applied: A9, B3.6 Date: 09/19/2012 Location(s): North Carolina Offices(s): National Energy Technology Laboratory http://energy.gov/nepa/downloads/cx-009361-categorical-exclusion-determination Download CX-009362: Categorical Exclusion Determination Small Scale Coal-Biomass to Liquids Using Highly Selective FT Synthesis CX(s) Applied: B3.6 Date: 09/19/2012 Location(s): Alabama Offices(s): National Energy Technology Laboratory http://energy.gov/nepa/downloads/cx-009362-categorical-exclusion-determination Download CX-009363: Categorical Exclusion Determination Development and Test of a 1,000 Level 3C Fiber Optic Borehole Seismic

159

Advanced Fuels Synthesis  

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

Advanced Fuels Synthesis Advanced Fuels Synthesis Coal and Coal/Biomass to Liquids Advanced Fuels Synthesis The Advanced Fuels Synthesis Key Technology is focused on catalyst and reactor optimization for producing liquid hydrocarbon fuels from coal/biomass mixtures, supports the development and demonstration of advanced separation technologies, and sponsors research on novel technologies to convert coal/biomass to liquid fuels. Active projects within the program portfolio include the following: Fischer-Tropsch fuels synthesis Small Scale Coal Biomass Liquids Production Using Highly Selective Fischer Tropsch Catalyst Small Scale Pilot Plant for the Gasification of Coal and Coal/Biomass Blends and Conversion of Derived Syngas to Liquid Fuels Via Fischer-Tropsch Synthesis Coal Fuels Alliance: Design and Construction of Early Lead Mini Fischer-Tropsch Refinery

160

NETL: News Release - NETL and USAF Release Feasibility Study for Conceptual  

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

9, 2007 9, 2007 NETL and USAF Release Feasibility Study for Conceptual Coal+Biomass-to-Liquids Facility Facility Would Capitalize on Domestic Energy Resources, Cut Greenhouse Gas Emissions MORGANTOWN, WV - The U.S. Department of Energy's National Energy Technology Laboratory (DOE/NETL) and the U.S. Air Force have released a study that examines the feasibility of producing l00,000 barrels per day of jet fuel from coal and biomass. The coal+biomass-to-liquids (CBTL) facilities could also cut life-cycle emissions of carbon dioxide (CO2), the primary greenhouse gas, by 20 percent compared to conventional petroleum processes. The study provides a performance baseline that can be used to show how CBTL with carbon capture and storage would capitalize on domestic energy resources, provide a buffer against rising petroleum and natural gas prices, and mitigate output of CO2.

Note: This page contains sample records for the topic "btl biomass-to-liquids btu" 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

Philadelphia Gas Works - Commercial and Industrial Equipment Rebate Program  

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

Philadelphia Gas Works - Commercial and Industrial Equipment Rebate Philadelphia Gas Works - Commercial and Industrial Equipment Rebate Program (Pennsylvania) Philadelphia Gas Works - Commercial and Industrial Equipment Rebate Program (Pennsylvania) < Back Eligibility Commercial Industrial Savings Category Heating & Cooling Commercial Heating & Cooling Heating Appliances & Electronics Program Info Start Date 9/1/2012 Expiration Date 8/31/2015 State Pennsylvania Program Type Utility Rebate Program Rebate Amount Boiler Size 300-500 (kBtu/h): $800; $2900 Boiler Size 500-700 (kBtu/h): $1400; $3600 Boiler Size 700-900 (kBtu/h): $2000; $4200 Boiler Size 900-1100 (kBtu/h): $2600; $4800 Boiler Size 1100-1300 (kBtu/h): $3200; $5400 Boiler Size 1300-1500 (kBtu/h): $3800; $6000 Boiler Size 1500-1700 (kBtu/h): $4400; $6600 Boiler Size 1700-2000 (kBtu/h): $5200; $7400

162

Efficiency of appliance models on the market before and after DOE standards  

E-Print Network (OSTI)

Refrigerators Models in AHAM Directory Compared to DOE8-14 kBtu/hour Models in AHAM Directory Compared to1990 DOE8-14 kBtu/hour Models in AHAM Directory Compared to 2000 DOE

Meyers, Stephen

2004-01-01T23:59:59.000Z

163

U.S. Heat Content of Natural Gas Deliveries to Electric Power...  

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

Electric Power Consumers (BTU per Cubic Foot) U.S. Heat Content of Natural Gas Deliveries to Electric Power Consumers (BTU per Cubic Foot) Decade Year-0 Year-1 Year-2 Year-3 Year-4...

164

Development of guidelines for Modeling Underfloor Air Distribution (UFAD) Systems in EnergyPlus, eQUEST, and EnergyPro for use in California non-residential Building Energy Efficiency Standards  

E-Print Network (OSTI)

Auxiliaries Fans Chiller HVACEUI(Kbtu/sf/yr) Boiler Equest_Checkrun_Source HVACEUI? kBtu/sf/yr Auxiliaries FansSensitivity_Source(IP) HVACEUI? kBtu/sf/yr Fans Chiller

2011-01-01T23:59:59.000Z

165

Energy information systems (EIS): Technology costs, benefit, and best practice uses  

E-Print Network (OSTI)

of efficiency projects and site EUI before EIS installationand findings. Similarly, EUI is intuitively recognized as aRange Median Current Annual EUI kBtu/sf/yr 78 kBtu/sf/yr

Granderson, Jessica

2014-01-01T23:59:59.000Z

166

U.S. Energy-Related Carbon Dioxide Emissions, 2013  

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

product (GDP) and energy is measured in Btu to allow for the summing of all energy forms (energyGDP or BtuGDP). On an economy-wide level, it is reflective of both energy...

167

Buildings Energy Data Book: 3.1 Commercial Sector Energy Consumption  

Buildings Energy Data Book (EERE)

Building Type (thousand BtuSF) Consumption | Building Type (thousand BtuSF) Consumption Health Care 345.9 8% | Education 159.0 11% Inpatient 438.8 6% | Service 151.6 4%...

168

U.S. Heat Content of Natural Gas Deliveries to Other Sectors...  

Annual Energy Outlook 2012 (EIA)

Other Sectors Consumers (BTU per Cubic Foot) U.S. Heat Content of Natural Gas Deliveries to Other Sectors Consumers (BTU per Cubic Foot) Decade Year-0 Year-1 Year-2 Year-3 Year-4...

169

Biofuels  

SciTech Connect

As David Rotman states in his article on biofuels, the conversion of biomass to liquid fuel is energy intensive--just like the conversion of coal or any other solid fuel to liquid fuel. That implies that the quantity of liquid fuel from biomass and the carbon dioxide released in the production process strongly depend upon the energy source used in the conversion process. Each year, the United States could produce about 1.3 billion tons of renewable biomass for use as fuel. Burning it would release about as much energy as burning 10 million barrels of diesel fuel per day. If converted to ethanol, the biomass would have the energy value of about five million barrels of diesel fuel per day. The remainder of the energy would be used by the biomass-to-liquids conversion plant. If a nuclear reactor or other energy source provides the energy for the biomass-to-liquids plants, the equivalent of over 12 million barrels of diesel fuel can be produced per day. If our goal is to end oil imports and avoid greenhouse-gas releases, we must combine biomass and nuclear energy to maximize biofuels production.

Forsberg, Charles W [ORNL

2008-01-01T23:59:59.000Z

170

Life-Cycle Evaluation of Concrete Building Construction as a Strategy for Sustainable Cities  

E-Print Network (OSTI)

BTu/tonne cement) Baseline Portland Cement produced at wet kiln long dry kiln Coal Electricity Distillate (diesel)

Stadel, Alexander

2013-01-01T23:59:59.000Z

171

INCORPORATING THE EFFECT OF PRICE CHANGES ON CO2- EQUIVALENT EMSSIONS FROM ALTERNATIVE-FUEL LIFECYCLES: SCOPING THE ISSUES  

E-Print Network (OSTI)

Diesel fuel Steel Aluminum Plastics Concrete Generic chemicals Fertilizer Corn Soybeans Grass Trees Land g/BTU

Delucchi, Mark

2005-01-01T23:59:59.000Z

172

Incorporating the Effect of Price Changes on CO2-Equivalent Emissions From Alternative-Fuel Lifecycles: Scoping the Issues  

E-Print Network (OSTI)

Diesel fuel Steel Aluminum Plastics Concrete Generic chemicals Fertilizer Corn Soybeans Grass Trees Land g/BTU

Delucchi, Mark

2005-01-01T23:59:59.000Z

173

One-pass tillage equipment outstrips conventional tillage method  

E-Print Network (OSTI)

Btu) of energy is expended in tillage opera- tions in California; almost all of this energy is derived from diesel

Upadhyaya, Shrinivasa K.; Lancas, Kleber P.; Santos-Filho, Abilio G.; Raghuwanshi, Narendra S.

2001-01-01T23:59:59.000Z

174

Assessment of Energy Impact of Window Technologies for Commercial Buildings  

E-Print Network (OSTI)

average commercial buildings site energy usage of 91 kBtu/commercial buildings, even though the average Energy Usage

Hong, Tianzhen

2014-01-01T23:59:59.000Z

175

" Row: End Uses within NAICS Codes;"  

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

End Uses within NAICS Codes;" " Column: Energy Sources, including Net Demand for Electricity;" " Unit: Trillion Btu." " "," ",," ","Distillate"," "," ",," " " "," ",,,"Fuel...

176

Identifying Options for Deep Reductions in Greenhouse Gas Emissions from California Transportation: Meeting an 80% Reduction Goal in 2050  

E-Print Network (OSTI)

H2FC Electric Light Rail Diesel Hybrid Btu/pass. -mile FleetH2FC Electric Light Rail Diesel Hybrid Btu/pass. -mile FleetH2FC Electric Light Rail Diesel Hybrid Btu/pass. -mile 2050

Yang, Christopher; McCollum, David L; McCarthy, Ryan; Leighty, Wayne

2008-01-01T23:59:59.000Z

177

GROUNDLOOPEVAPORATIVEFLUIDCOOLERCHILLERTOGROUNDLOOP CHILLERTOGROUNDLOOP&  

E-Print Network (OSTI)

BTU/SF26kBTU/SF 101kBTU/SF40kBTU/SF TOTAL TOTAL SITE EUI SOURCE EUI RADIANT VS. DOAS CONDITIONING SITE EUI AND SOURCE EUI BUILDING SITE ENERGY BUILDING CONDITIONING SOURCE 0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 0 LEED Cer fied CBECS N onal Average EnergyUseIntensity(kBTU/SF) Site EUI Source EUI Gallagher LEED Plat

California at Davis, University of

178

Simulations of Design Modifications in Military Health Facilities  

E-Print Network (OSTI)

the military population. Civilian medical 0 1 2 3 4 5 6 7 8 9 10 50+ 40-49 30-39 20-29 1-19 N u m b e r o f Faci litie s Age (years) 6 leadership, such as former Assistant Secretaries of Defense for Health Affairs, Dr. W... --------------------------------------------------------------------------------------------------------------------------------- ENGLISH MULTIPLIED BY GIVES METRIC MULTIPLIED BY GIVES ENGLISH 1 1.000000 1.000000 2 1.000000 1.000000 3 BTU 0.293000 WH 3.412969 BTU 4 BTU/HR 0.293000 WATT 3.412969 BTU/HR 5 BTU/LB-F 4183.830078 J/KG-K 0.000239 BTU/LB-F 6 BTU/HR-SQFT-F 5.678260 W/M2-K 0...

Kiss, Christopher William

2012-07-16T23:59:59.000Z

179

NW Natural (Gas) - Business Energy Efficiency Rebate Program | Department  

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

NW Natural (Gas) - Business Energy Efficiency Rebate Program NW Natural (Gas) - Business Energy Efficiency Rebate Program NW Natural (Gas) - Business Energy Efficiency Rebate Program < Back Eligibility Commercial Fed. Government Industrial Local Government Nonprofit State Government Savings Category Heating & Cooling Commercial Heating & Cooling Heating Home Weatherization Commercial Weatherization Appliances & Electronics Other Manufacturing Water Heating Maximum Rebate Custom: $1/annual therm saved Program Info Funding Source Energy Trust of Oregon State District of Columbia Program Type Utility Rebate Program Rebate Amount HVAC Unit Heater: $1.50/kBtu Furnace: $3/kBtu/hr Radiant Heating (Non-Modulating): $6.50/kBtu/hr Radiant Heating (Modulating): $10/kBtu/hr Tank Water Heater: 2.50/kBtu/hr Tankless/Instantaneous Water Heater: $2.00/kBtu/hr

180

EIA - Annual Energy Outlook 2013 Early Release  

Gasoline and Diesel Fuel Update (EIA)

Consumption by Primary Fuel Consumption by Primary Fuel Total primary energy consumption grows by 7 percent in the AEO2013 Reference case, from 98 quadrillion Btu in 2011 to 104 quadrillion Btu in 2035-2.5 quadrillion Btu less than in AEO2012-and continues to grow at a rate of 0.6 percent per year, reaching about 108 quadrillion Btu in 2040 (Figure 7). The fossil fuel share of energy consumption falls from 82 percent in 2011 to 78 percent in 2040, as consumption of petroleum-based liquid fuels falls, largely as a result of the incorporation of new fuel efficiency standards for LDVs. figure dataWhile total liquid fuels consumption falls, consumption of domestically produced biofuels increases significantly, from 1.3 quadrillion Btu in 2011 to 2.1 quadrillion Btu in 2040, and its share of

Note: This page contains sample records for the topic "btl biomass-to-liquids btu" 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

EIA - Annual Energy Outlook 2014 Early Release  

Gasoline and Diesel Fuel Update (EIA)

Consumption by Primary Fuel Consumption by Primary Fuel Total primary energy consumption grows by 12% in the AEO2014 Reference case, from 95 quadrillion Btu in 2012 to 106 quadrillion Btu in 2040-1.3 quadrillion Btu less than in AEO2013 (Figure 8). The fossil fuel share of energy consumption falls from 82% in 2012 to 80% in 2040, as consumption of petroleum-based liquid fuels declines, largely as a result of slower growth in VMT and increased vehicle efficiency. figure dataTotal U.S. consumption of petroleum and other liquids, which was 35.9 quadrillion Btu (18.5 MMbbl/d) in 2012, increases to 36.9 quadrillion Btu (19.5 MMbbl/d) in 2018, then declines to 35.4 quadrillion Btu (18.7 MMbbl/d) in 2034 and remains at that level through 2040. Total consumption of domestically produced biofuels increases slightly through 2022 and then

182

Carbon Emissions: Petroleum Refining Industry  

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

Petroleum Refining Industry Petroleum Refining Industry Carbon Emissions in the Petroleum Refining Industry The Industry at a Glance, 1994 (SIC Code: 2911) Total Energy-Related Emissions: 79.9 million metric tons of carbon (MMTC) -- Pct. of All Manufacturers: 21.5% -- Nonfuel Emissions: 16.5 MMTC Total First Use of Energy: 6,263 trillion Btu -- Pct. of All Manufacturers: 28.9% Nonfuel Use of Energy Sources: 3,110 trillion Btu (49.7%) -- Naphthas and Other Oils: 1,328 trillion Btu -- Asphalt and Road Oil: 1,224 trillion Btu -- Lubricants: 416 trillion Btu Carbon Intensity: 12.75 MMTC per quadrillion Btu Energy Information Administration, "1994 Manufacturing Energy Consumption Survey", "Monthly Refinery Report" for 1994, and Emissions of Greenhouse Gases in the United States 1998.

183

Fischer-Tropsch Fuels  

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

Fischer-Tropsch Fuels Fischer-Tropsch Fuels Background The Fischer-Tropsch (F-T) reaction converts a mixture of hydrogen and carbon monoxide-derived from coal, methane or biomass-to liquid fuels. The Department of Energy (DOE) refers to the coal-based process as Coal-to-Liquids. The F-T process was discovered by German scientists and used to make fuels during World War II. There has been continued interest of varying intensity in F-T technology

184

" Row: NAICS Codes; Column: Energy-Consumption Ratios;"  

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

N7.1. Consumption Ratios of Fuel, 1998;" N7.1. Consumption Ratios of Fuel, 1998;" " Level: National and Regional Data; " " Row: NAICS Codes; Column: Energy-Consumption Ratios;" " Unit: Varies." " "," ",,,"Consumption"," " " "," ",,"Consumption","per Dollar"," " " "," ","Consumption","per Dollar","of Value","RSE" "NAICS"," ","per Employee","of Value Added","of Shipments","Row" "Code(a)","Subsector and Industry","(million Btu)","(thousand Btu)","(thousand Btu)","Factors"

185

" Row: NAICS Codes; Column: Energy-Consumption Ratios;"  

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

1 Consumption Ratios of Fuel, 2002;" 1 Consumption Ratios of Fuel, 2002;" " Level: National and Regional Data; " " Row: NAICS Codes; Column: Energy-Consumption Ratios;" " Unit: Varies." " "," ",,,"Consumption"," " " "," ",,"Consumption","per Dollar"," " " "," ","Consumption","per Dollar","of Value","RSE" "NAICS"," ","per Employee","of Value Added","of Shipments","Row" "Code(a)","Subsector and Industry","(million Btu)","(thousand Btu)","(thousand Btu)","Factors"

186

Table A11. Total Inputs of Energy for Heat, Power, and Electricity Generatio  

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

1" 1" " (Estimates in Btu or Physical Units)" ,,,,"Distillate",,,"Coal" ,,,,"Fuel Oil",,,"(excluding" ,,"Net","Residual","and Diesel",,,"Coal Coke",,"RSE" ,"Total","Electricity(a)","Fuel Oil","Fuel(b)","Natural Gas(c)","LPG","and Breeze)","Other(d)","Row" "End-Use Categories","(trillion Btu)","(million kWh)","(1000 bbls)","(1000 bbls)","(billion cu ft)","(1000 bbls)","(1000 short tons)","(trillion Btu)","Factors" ,,,,,,,,,,, ,"Total United States"

187

Table A4. Total Inputs of Energy for Heat, Power, and Electricity Generation  

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

1 " 1 " " (Estimates in Btu or Physical Units)" " "," "," "," "," "," "," "," "," ","Coke"," "," " " "," "," ","Net","Residual","Distillate","Natural Gas(d)"," ","Coal","and Breeze"," ","RSE" "SIC"," ","Total","Electricity(b)","Fuel Oil","Fuel Oil(c)","(billion","LPG","(1000","(1000","Other(e)","Row" "Code(a)","Industry Groups and Industry","(trillion Btu)","(million kWh)","(1000 bbls)","(1000 bbls)","cu ft)","(1000 bbls)","short tons)","short tons)","(trillion Btu)","Factors"

188

Table A37. Total Inputs of Energy for Heat, Power, and Electricity  

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

1",,,,,,,"Coal" 1",,,,,,,"Coal" " (Estimates in Btu or Physical Units)",,,,,,,"(excluding" ,,,,"Distillate",,,"Coal Coke" ,,"Net",,"Fuel Oil",,,"and" ,,"Electricity(a)","Residual","and Diesel","Natural Gas",,"Breeze)",,"RSE" ,"Total","(million","Fuel Oil","Fuel","(billion","LPG","(1000 short","Other","Row" "End-Use Categories","(trillion Btu)","kWh)","(1000 bbls)","(1000 bbls)","cu ft)","(1000 bbls)","tons)","(trillion Btu)","Factors"

189

Released: November 2009  

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

2 Consumption Ratios of Fuel, 2006;" 2 Consumption Ratios of Fuel, 2006;" " Level: National and Regional Data; " " Row: Values of Shipments and Employment Sizes;" " Column: Energy-Consumption Ratios;" " Unit: Varies." ,,,"Consumption" ,,"Consumption","per Dollar" ,"Consumption","per Dollar","of Value" "Economic","per Employee","of Value Added","of Shipments" "Characteristic(a)","(million Btu)","(thousand Btu)","(thousand Btu)" ,"Total United States" "Value of Shipments and Receipts" "(million dollars)"

190

Table 6.2 Consumption Ratios of Fuel, 2002  

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

2 Consumption Ratios of Fuel, 2002;" 2 Consumption Ratios of Fuel, 2002;" " Level: National and Regional Data; " " Row: Values of Shipments and Employment Sizes;" " Column: Energy-Consumption Ratios;" " Unit: Varies." ,,,"Consumption" " ",,"Consumption","per Dollar"," " " ","Consumption","per Dollar","of Value","RSE" "Economic","per Employee","of Value Added","of Shipments","Row" "Characteristic(a)","(million Btu)","(thousand Btu)","(thousand Btu)","Factors"

191

" Column: Energy-Consumption Ratios;"  

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

3 Consumption Ratios of Fuel, 2006;" 3 Consumption Ratios of Fuel, 2006;" " Level: National Data; " " Row: Values of Shipments within NAICS Codes;" " Column: Energy-Consumption Ratios;" " Unit: Varies." ,,,,"Consumption" ,,,"Consumption","per Dollar" ,,"Consumption","per Dollar","of Value" "NAICS",,"per Employee","of Value Added","of Shipments" "Code(a)","Economic Characteristic(b)","(million Btu)","(thousand Btu)","(thousand Btu)" ,,"Total United States" " 311 - 339","ALL MANUFACTURING INDUSTRIES"

192

Table A36. Total Inputs of Energy for Heat, Power, and Electricity  

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

,,,,,,,,"Coal" ,,,,,,,,"Coal" " Part 1",,,,,,,,"(excluding" " (Estimates in Btu or Physical Units)",,,,,"Distillate",,,"Coal Coke" ,,,,,"Fuel Oil",,,"and" ,,,"Net","Residual","and Diesel","Natural Gas",,"Breeze)",,"RSE" "SIC",,"Total","Electricity(b)","Fuel Oil","Fuel","(billion","LPG","(1000 Short","Other","Row" "Code(a)","End-Use Categories","(trillion Btu)","(million kWh)","(1000 bbls)","(1000 bbls)","cu ft)","(1000 bbls)","tons)","(trillion Btu)","Factors",

193

" Column: Energy-Consumption Ratios;"  

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

3 Consumption Ratios of Fuel, 2002;" 3 Consumption Ratios of Fuel, 2002;" " Level: National Data; " " Row: Values of Shipments within NAICS Codes;" " Column: Energy-Consumption Ratios;" " Unit: Varies." " "," ",,,"Consumption"," " " "," ",,"Consumption","per Dollar" " "," ","Consumption","per Dollar","of Value","RSE" "NAICS",,"per Employee","of Value Added","of Shipments","Row" "Code(a)","Economic Characteristic(b)","(million Btu)","(thousand Btu)","(thousand Btu)","Factors"

194

" Row: Employment Sizes within NAICS Codes;"  

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

4 Consumption Ratios of Fuel, 2006;" 4 Consumption Ratios of Fuel, 2006;" " Level: National Data; " " Row: Employment Sizes within NAICS Codes;" " Column: Energy-Consumption Ratios;" " Unit: Varies." ,,,,"Consumption" ,,,"Consumption","per Dollar" ,,"Consumption","per Dollar","of Value" "NAICS",,"per Employee","of Value Added","of Shipments" "Code(a)","Economic Characteristic(b)","(million Btu)","(thousand Btu)","(thousand Btu)" ,,"Total United States" " 311 - 339","ALL MANUFACTURING INDUSTRIES"

195

" Electricity Generation by Census Region, Industry Group, and Selected"  

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

1" 1" " (Estimates in Btu or Physical Units)" " "," "," "," "," "," "," "," "," ","Coke"," "," " " "," "," "," ","Residual","Distillate","Natural Gas(d)"," ","Coal","and Breeze"," ","RSE" "SIC"," ","Total","Electricity(b)","Fuel Oil","Fuel Oil(c)","(billion","LPG","(1000","(1000","Other(e)","Row" "Code(a)","Industry Groups and Industry","(trillion Btu)","(million kWh)","(1000 bbls)","(1000 bbls)","cu ft)","(1000 bbls)","short tons)","short tons)","(trillion Btu)","Factors"

196

" Row: Employment Sizes within NAICS Codes;"  

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

3. Consumption Ratios of Fuel, 1998;" 3. Consumption Ratios of Fuel, 1998;" " Level: National Data; " " Row: Employment Sizes within NAICS Codes;" " Column: Energy-Consumption Ratios;" " Unit: Varies." " "," ",,,"Consumption"," " " "," ",,"Consumption","per Dollar" " "," ","Consumption","per Dollar","of Value","RSE" "NAICS",,"per Employee","of Value Added","of Shipments","Row" "Code(a)","Economic Characteristic(b)","(million Btu)","(thousand Btu)","(thousand Btu)","Factors"

197

" Row: Employment Sizes within NAICS Codes;"  

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

4 Consumption Ratios of Fuel, 2002;" 4 Consumption Ratios of Fuel, 2002;" " Level: National Data; " " Row: Employment Sizes within NAICS Codes;" " Column: Energy-Consumption Ratios;" " Unit: Varies." " "," ",,,"Consumption"," " " "," ",,"Consumption","per Dollar" " "," ","Consumption","per Dollar","of Value","RSE" "NAICS",,"per Employee","of Value Added","of Shipments","Row" "Code(a)","Economic Characteristic(b)","(million Btu)","(thousand Btu)","(thousand Btu)","Factors"

198

SAS Output  

Annual Energy Outlook 2012 (EIA)

5. Receipts, Average Cost, and Quality of Fossil Fuels: Electric Utilities, 2002 - 2012 Coal Petroleum Liquids Receipts Average Cost Receipts Average Cost Period (Billion Btu)...

199

ENERGY UTILIZATION AND ENVIRONMENTAL CONTROL TECHNOLOGIES IN THE COAL-ELECTRIC CYCLE  

E-Print Network (OSTI)

application (coal gasification, coal combustion followed byversions of advanced gasification processes show promise ofFixed-Bed Low-Btu Coal Gasification Systems for Retrofitting

Ferrell, G.C.

2010-01-01T23:59:59.000Z

200

Workbook Contents  

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

Name","Description"," Of Series","Frequency","Latest Data for" ,"Data 1","New York Heat Content of Natural Gas Deliveries to Consumers (BTU per Cubic...

Note: This page contains sample records for the topic "btl biomass-to-liquids btu" 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

PROJECTS FROM FEDERAL REGION IX DOE APPROPRIATE ENERGY TECHNOLOGY PILOT PROGRAM - PART I  

E-Print Network (OSTI)

welded together like sewer pipe. Biogas production from theintends to convert the biogas into electricity. The wasteproduce 7.6 million Btu of biogas annually. This estimate

Case, C.W.

2011-01-01T23:59:59.000Z

202

E-Print Network 3.0 - anaerobic solid-liquid system Sample Search...  

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

of British Columbia Collection: Engineering 3 www.manuremanagement.cornell.edu Biogas Casebook Summary: Transfer Institutions Btu British thermal unit SLS Solid-liquid...

203

Air movement as an energy efficient means toward occupant comfort  

E-Print Network (OSTI)

only by electrical lighting (481 trillion BTU vs. 1340only by electrical lighting (141 billion kWh vs. 393 billion

Arens, Edward; Zhang, Hui; Pasut, Wilmer; Zhai, Yongchao; Hoyt, Tyler; Huang, Li

2013-01-01T23:59:59.000Z

204

Fluid Bed Waste Heat Boiler Operating Experience in Dirty Gas Streams  

E-Print Network (OSTI)

from 13 to 15 million BTU per hour for fired boiler efficiencies of 80% to 70% respectively. The savings represents 85 to 90% of the energy entering the waste heat boiler. Equiva lent furnace efficiency increases from 25% to over 60% on high fire... Fired Boiler Efficiency 0.70 0.75 0.80 Energy Savings Furnace Efficiency Corresponding Peak Fuel Equivalent at High (1) . Savi ngs Fire on Melt 4453 kw (15.1x10 6 BTU/hr) 69% 4156 kw (14.1x10 6 BTU/hr) 66% 3896 kw (13.3x10 6 BTU/hr) 63% (1...

Kreeger, A. H.

205

Innovative Process and Materials Technologies | Department of...  

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

110 trillion Btu per year. Continuous Processing of High Thermal Conductivity Polyethylene Fibers and Sheets (Massachusetts Institute of Technology (MIT) - Cambridge, MA) A...

206

Federal Energy and Water Management Awards 2014  

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

Djibouti In FY 2013, the energy team at Camp Lemonnier, Djibouti implemented an air conditioning improvement project that saves 61 billion Btu and 2 million annually....

207

Electric and Gasoline Vehicle Lifecycle Cost and Energy-Use Model  

E-Print Network (OSTI)

= the efficiency of the propane space heater (BTU-delivered/the efficiency of the heater, and the cost of propane. The

Delucchi, Mark; Burke, Andy; Lipman, Timothy; Miller, Marshall

2000-01-01T23:59:59.000Z

208

Energy Efficiency Services Sector: Workforce Size and Expectations for Growth  

E-Print Network (OSTI)

through EERE ..37ARRA BLS Btu CEE DHHS DOE EE EERE EESS EIA ESCO FERC FTE FYObtained 2008 budget data from EERE Workforce data for 2008

Goldman, Charles

2010-01-01T23:59:59.000Z

209

Current Size and Remaining Market Potential of the U.S. Energy Service Company Industry  

E-Print Network (OSTI)

and Kathleen Hogan (DOE-EERE) for their ongoing support ofARRA Btu C&I CBECS DOE ECM EERE EIA ESC ESCO ESPC FEMP HUD

Stuart, Elizabeth

2014-01-01T23:59:59.000Z

210

Table E6. Transportation Sector Energy Price Estimates, 2012  

Annual Energy Outlook 2012 (EIA)

E6. Transportation Sector Energy Price Estimates, 2012 (Dollars per Million Btu) State Primary Energy Retail Electricity Total Energy Coal Natural Gas Petroleum Total Aviation...

211

Level: National and Regional Data; Row: Selected NAICS Codes...  

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

Btu. Wood Residues and Wood-Related Pulping Liquor Wood Byproducts and NAICS or Biomass Agricultural Harvested Directly from Mill Paper-Related Code(a) Subsector and...

212

Table 11a. Coal Prices to Electric Generating Plants, Projected...  

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

a. Coal Prices to Electric Generating Plants, Projected vs. Actual" "Projected Price in Constant Dollars" " constant dollars per million Btu in ""dollar year"" specific to each...

213

California department of education HQ block 225: California's valedictorian  

E-Print Network (OSTI)

G L A N C E intensity (EUI) of 43 kBtu/ft 2 yr demonstratefor an ENERGY STAR label. The EUI has improved by about 15%,

Bauman, Fred; Webster, Tom; Dickerhoff, Darryl J; Fentress, Curtis; Popowski, Matt

2009-01-01T23:59:59.000Z

214

Case study report: David Brower Center  

E-Print Network (OSTI)

utilization intensity (EUI) was 47 kBtu-sf/yr. 1 Performancegeneration is determined, the EUI will be even lower. Page 5

Bauman, Fred; Webster, Tom; Dickerhoff, Darryl; Schiavon, Stefano; Feng, Dove; Basu, Chandrayee

2011-01-01T23:59:59.000Z

215

Ready to Retrofit: The Process of Project Team Selection, Building Benchmarking, and Financing Commercial Building Energy Retrofit Projects  

E-Print Network (OSTI)

Savings Performance Contract EUI Energy Use Intensity IGAenergy use intensity (EUI) metric such as a thousand Btu perstudent (for a school). The EUI metric is normalized for key

Sanders, Mark D.

2014-01-01T23:59:59.000Z

216

Annual Energy Review, 1996  

Gasoline and Diesel Fuel Update (EIA)

that was generated from nonrenewable energy sources and -0.03 quadrillion Btu for hydroelectric pumped storage. Notes: Data are preliminary. Totals may not equal sum of...

217

Better Buildings Federal Award 2012 Competition  

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

The Better Buildings Federal Award recognizes the Federal Government's highest-performing buildings through a competition to reduce annual energy use intensity (Btu per square foot of facility...

218

Annual Energy Outlook 2012  

Gasoline and Diesel Fuel Update (EIA)

36 Reference case Energy Information Administration Annual Energy Outlook 2012 6 Table A3. Energy prices by sector and source (2010 dollars per million Btu, unless otherwise...

219

Chinese Rural Vehicles: An Explanatory Analysis of Technology, Economics, Industrial Organization, Energy Use, Emissions, and Policy  

E-Print Network (OSTI)

diesel fuel consumption in 2000 was 69.5 million metric tons (MMT) 79 (see Table 9-1) or 2.96 quadrillion BTU.

Sperling, Dan; Lin, Zhenhong; Hamilton, Peter

2004-01-01T23:59:59.000Z

220

ENERGY ANALYSIS PROGRAM. CHAPTER FROM THE ENERGY AND ENVIRONMENT DIVISION ANNUAL REPORT 1978  

E-Print Network (OSTI)

diesel is combined with a topping cycle waste heat boiler which generates 12.6 Mw of steam at 27.4 x 10 6 Btu/

Various, Various,

2011-01-01T23:59:59.000Z

Note: This page contains sample records for the topic "btl biomass-to-liquids btu" 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

MARINE KELP: ENERGY RESOURCE IN THE COASTAL ZONE  

E-Print Network (OSTI)

Feed Supplements Algin Liquid Sludge Effluents Gas ScrubberIntermediate BTU Gas (Methane) Sludge Processing IC0 2 Sludge Fertilizer Feedstock Figure l. Complete Marine

Ritschard, Ronald L.

2014-01-01T23:59:59.000Z

222

Impacts of Electric Vehicles on Primary Energy Consumption and Petroleum Displacement  

E-Print Network (OSTI)

to Btu, EC is the electricity consumption of EVs in Kwh perreductions EV in electricity consumption contributedsensitive to EV electricity consumption, which,in turn,is

Wang, Quanlu; Delucchi, Mark A.

1991-01-01T23:59:59.000Z

223

Wood Chip Gasification in a Commercial Downdraft Gasifier  

Science Journals Connector (OSTI)

Fixed bed and moving bed gasifiers for the production of low Btu gas...1 After the war, the need for gasifiers dwindled although the Swedes continued their development...

Walter P. Walawender; S. M. Chern; L. T. Fan

1985-01-01T23:59:59.000Z

224

Sulfidation of coal gasifier heat exchanger alloys  

Science Journals Connector (OSTI)

Three steels, viz., INCOLOY* 800H, Fecralloy, and AlSI 310, were exposed to a simulated low Btu coal gasifier product gas at 450 C. Sulfidation...

S. R. J. Saunders; S. Schlierer

1986-03-01T23:59:59.000Z

225

CHAMPS-Multizone?A Combined Heat, Air, Moisture and Pollutant Simulation Environment for Whole-building Performance Analysis  

E-Print Network (OSTI)

Layer 3 Concrete Block Foam Insulation Wood Siding Table 7b2 Layer 3 Concrete Block Foam Insulation Wood Siding k (Btu-

Feng, Wei

2014-01-01T23:59:59.000Z

226

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

Gasoline and Diesel Fuel Update (EIA)

3 Table G1. Heat contents Fuel Units Approximate heat content Coal 1 Production ... million Btu per short ton 20.136 Consumption...

227

A9RB1B5.tmp  

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

(d) The conversion from physical units to Btu is calculated using a subset of conversion factors used in the calculations of gross energy consumption in EIA's Monthly Energy...

228

PART V: DISPOSITION OF NATURAL AND SUPPLEMENTAL GAS WITHIN OR...  

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

year (volume delivered directly to consumers multiplied by average Btu content per unit volume) and dividing by the total volume delivered directly to consumers during that...

229

Financing Program Support for ARRA Recipients  

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

Glossary * ARRA American Reinvestment and Recovery Act * BTU British thermal unit * EE Energy efficiency * EECGB Energy efficiency conservation block grant * OMB ...

230

Energy information systems (EIS): Technology costs, benefit, and best practice uses  

E-Print Network (OSTI)

and natural gas energy savings: Electrical energy savings (gas energy cost savings: Electrical energy cost savings ($/sf) = Electrical energy savings (kBtu/sf) National

Granderson, Jessica

2014-01-01T23:59:59.000Z

231

PROCESS DEVELOPMENT STUDIES ON THE BIOCONVERSION OF CELLULOSE AND PRODUCTION OF ETHANOL  

E-Print Network (OSTI)

PER GALLON ANHYDROUS ETHANOL) ENERGY CONSUMPTION FARMINGmaterial. Table 17 ETHANOL SEPARATION ENERGY REQUIREMENTS *PRODUCTION OF ETHANOL FROM MOLASSES* (ENERGIES ARE IN BTU

Wilke, Charles R.

2011-01-01T23:59:59.000Z

232

Iowa's 2nd congressional district: Energy Resources | Open Energy...  

Open Energy Info (EERE)

BTU Iowa Renewable Energy LLC Riksch Biofuels Solar Dynamics Utility Companies in Iowa's 2nd congressional district Interstate Power and Light Co Retrieved from "http:...

233

Table 5.3 End Uses of Fuel Consumption, 2010;  

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

Row: End Uses within NAICS Codes; Column: Energy Sources, including Net Demand for Electricity; Unit: Physical Units or Btu. Distillate Coal Fuel Oil (excluding Coal Net Demand...

234

Word Pro - S8  

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

Electricity Flow, 2013 (Quadrillion Btu) 1 Blast furnace gas and other manufactured and waste gases derived from fossil fuels. 2 Batteries, chemicals, hydrogen, pitch, purchased...

235

Word Pro - S1  

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

(Quadrillion Btu) Production Trade Stock Change and Other d Consumption Fossil Fuels a Nuclear Electric Power Renew- able Energy b Total Imports Exports Net Imports c Fossil...

236

Kosovo: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

","inlineLabel":"","visitedicon":"" Country Profile Name Kosovo Population Unavailable GDP Unavailable Energy Consumption Quadrillion Btu 2-letter ISO code XK 3-letter ISO code...

237

Falkland Islands: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

nlineLabel":"","visitedicon":"" Country Profile Name Falkland Islands Population 2,932 GDP Unavailable Energy Consumption Quadrillion Btu 2-letter ISO code FK 3-letter ISO code...

238

Report: An Updated Annual Energy Outlook 2009 Reference Case...  

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

666,1876.378052,1886.589233,1896.617065,1906.307617,1915.627686,1924.664062,1933.551636 " Energy Intensity" " (million Btu per household)" " Delivered Energy Consumption",95.737358...

239

Energy Information Administration - Commercial Energy Consumption...  

Gasoline and Diesel Fuel Update (EIA)

A. Consumption and Gross Energy Intensity by Year Constructed for Sum of Major Fuels for All Buildings, 2003 Sum of Major Fuel Consumption (trillion Btu) Total Floorspace of...

240

Energy Information Administration - Commercial Energy Consumption...  

Gasoline and Diesel Fuel Update (EIA)

A. Consumption and Gross Energy Intensity by Climate Zonea for All Buildings, 2003 Sum of Major Fuel Consumption (trillion Btu) Total Floorspace of Buildings (million square feet)...

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


241

Report: An Updated Annual Energy Outlook 2009 Reference Case...  

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

086,1876.765991,1887.016235,1897.062622,1906.736938,1916.007446,1924.966064,1933.756714 " Energy Intensity" " (million Btu per household)" " Delivered Energy Consumption",95.737365...

242

Energy Information Administration - Commercial Energy Consumption...  

Gasoline and Diesel Fuel Update (EIA)

0. Consumption and Gross Energy Intensity by Climate Zonea for Non-Mall Buildings, 2003 Sum of Major Fuel Consumption (trillion Btu) Total Floorspace of Buildings (million square...

243

New Jersey Industrial Energy Program | Department of Energy  

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

452.1 trillion British thermal units (Btu). As part of an initiative to reduce the energy intensity of the American manufacturing sector, the United States Department of...

244

Leading the Way in Energy Best Practices | Department of Energy  

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

fleet efficiency, which ultimately saves taxpayers money. This year's Federal Energy and Water Management Award winners saved a total of 1.9 trillion British thermal units (Btu)...

245

L:\\main\\pkc\\aeotabs\\aeo2009\\stim_all.wpd  

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

An Updated Annual Energy Outlook 2009 Reference Case 16 Table A1. Total Energy Supply and Disposition Summary (Quadrillion Btu per Year, Unless Otherwise Noted) Supply,...

246

Public Health Benefits of End-Use Electrical Energy Efficiency in California: An Exploratory Study  

E-Print Network (OSTI)

Cogen Cogen Natural Gas Landfill Gas Tulare Tulare Woodwasteas agricultural and wood waste, landfill gas, and mlmicipalscf digester gas, or Btu/ scf landfill gas. HVs are given in

McKone, Thomas E.

2011-01-01T23:59:59.000Z

247

Workbook Contents  

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

Heat Content of Natural Gas Deliveries to Consumers (BTU per Cubic Foot)" ,"Click worksheet name or tab at bottom for data" ,"Worksheet Name","Description"," Of...

248

Investigation of Fuel Quality Impact on the Combustion and Exhaust...  

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

SI Engine Operated on Low BTU Gases Research results validate an engine simulation model and provide guidelines for the improved control of combustion stability of SI...

249

Table 6. Electric Power Delivered Fuel Prices and Quality for Coal, Petroleum, N  

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

8 PM)" 8 PM)" "Alaska" "Fuel, Quality",1991,1992,1993,1994,1995,1996,1997,1998,1999,2000,2001,2002,2003,2004,2005,2006,2007,2008,2009,2010 "Coal (cents per million Btu)","-","-","-","-","-","-","-","-","-","-","-","-","-","-","-","-","-",203,141,148 " Average heat value (Btu per pound)","-","-","-","-","-","-","-","-","-","-","-","-","-","-","-","-","-",8698,8520,8278 " Average sulfur Content (percent)","-","-","-","-","-","-","-","-","-","-","-","-","-","-","-","-","-",0.33,0.5,0.71

250

Table A23. Quantity of Purchased Electricity, Steam, and Natural Gas by Type  

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

3. Quantity of Purchased Electricity, Steam, and Natural Gas by Type" 3. Quantity of Purchased Electricity, Steam, and Natural Gas by Type" " of Supplier, Census Region, Industry Group, and Selected Industries, 1991" " (Estimates in Btu or Physical Units)" ,," Electricity",," Steam",," Natural Gas" ,," (Million kWh)",," (Billion Btu)",," (Billion cu ft)" ,," -------------------------",," -------------------------",," ---------------------------------------",,,"RSE" "SIC",,"Utility","Nonutility","Utility","Nonutility","Utility","Transmission","Other","Row"

251

11-14 An ideal vapor-compression refrigeration cycle with refrigerant-134a as the working fluid is considered. The rate of heat removal from the refrigerated space, the power input to the compressor, the rate of heat rejection to the environment,  

E-Print Network (OSTI)

, The exergy destruction in each component and the exergy efficiency of the compressor, the second-law efficiency, and the exergy destruction are to be determined. Assumptions 1 Steady operating conditions exist is 2.006=== Btu/lbm63.28 Btu/lbm43.57 COP inw qL (b) The exergy destruction in each component

Kostic, Milivoje M.

252

Waste Heat Recovery Submerged Arc Furnaces (SAF)  

E-Print Network (OSTI)

designed consumes power and fuel that yields an energy efficiency of approximately 40% (Total Btus required to reduce to elemental form/ Btu Input). The vast majority of heat is lost to the atmosphere or cooling water system. The furnaces can be modified...

O'Brien, T.

2008-01-01T23:59:59.000Z

253

Coke Gasification - A Solution to Excess Coke Capacity and High Energy Costs  

E-Print Network (OSTI)

effectively to produce medium-Btu (300 Btu/scf) gas which, in turn, can fuel the refinery furnaces to replace natural gas. Coke gasification should prove economical with natural gas price decontrol and the average price projected to rise to over $14.0 per...

Patel, S. S.

1982-01-01T23:59:59.000Z

254

Sustainable Building in China - A Green Leap Forward?  

E-Print Network (OSTI)

with an Energy Use Intensity (EUI) of 63 kWh/m 2 (20 kBtu/2 ), which is 61% of the mean EUI value of 103 kWh/m 2 (33with an Energy Use Intensity (EUI) of 63 kWh/m 2 (20 kBtu/ft

Diamond, Richard C.

2014-01-01T23:59:59.000Z

255

Monitoring-based HVAC Commissioning of an Existing Office Building for Energy Efficiciency  

E-Print Network (OSTI)

site energy use intensity (EUI) of this building is 268 kWh/indicates that its source EUI of 643 kWh/m 2 /yr (204 kBtu/the whole building source EUI of 580 kWh/m 2 /yr (184 kBtu/

Wang, Liping

2014-01-01T23:59:59.000Z

256

ENERGY AND ENVIRONMENT DIVISION ANNUAL REPORT 1978  

E-Print Network (OSTI)

1ol4 Btu; gasoline (total), 2.1 x 109 gallons; diesel fuel,Diesel Jet fuel Heavy oil Use Commercial Domestic Highway City Lead Carbon Unit 106 Btudiesel is combined with a topping cycle waste heat boiler which generates 12.6 Mw of steam at 27.4 x 106 Btu/

Cairns, E.L.

2011-01-01T23:59:59.000Z

257

A MULTI-COUNTRY ANALYSIS OF LIFECYCLE EMISSIONS FROM TRANSPORTATION FUELS AND MOTOR VEHICLES  

E-Print Network (OSTI)

gasoline LDVs or diesel HDVs. BTUs of process and end-useBTU) with theirs for oil-to- gasoline, oil-to-diesel, coal-BTU energy-conversion efficiency of the AFV engine or powertrain relative to that of the baseline gasoline or diesel

Delucchi, Mark

2005-01-01T23:59:59.000Z

258

A Multi-Country Analysis of Lifecycle Emissions From Transportation Fuels and Motor Vehicles  

E-Print Network (OSTI)

gasoline LDVs or diesel HDVs. BTUs of process and end-useBTU) with theirs for oil-to- gasoline, oil-to-diesel, coal-BTU energy-conversion efficiency of the AFV engine or powertrain relative to that of the baseline gasoline or diesel

Delucchi, Mark

2005-01-01T23:59:59.000Z

259

POWERS OF TEN 10 deka (da)  

E-Print Network (OSTI)

AND ENERGY FLOW Reference energy measure: 1joule (J) 1 British thermal unit (Btu) = 1 kJ 1 million Btu = 1 Celsius + 273.15 #12;ENERGY: REFERENCE NUMBERS APPROXIMATE VALUES OF THE MOST COMMON MEASURES OF ENERGY,000,000,000 gigajoules = 1 exajoule Reference energy-flow measure: 1 watt (W) = 1joule per second 1 million bbl of oil

Kammen, Daniel M.

260

The Hobbling of Coal: Policy and Regulatory Uncertainties  

Science Journals Connector (OSTI)

...use coal and that, after 1 January 1990, gas use...arid then providing tax rebates equal to the amount of...reduction that is set at $1.05 in 1979, falls to...Those us-ing less than 500 billion Btu would be ex-empt...larger users and those using 1.5 trillion Btu or more...

Richard L. Gordon

1978-04-14T23:59:59.000Z

Note: This page contains sample records for the topic "btl biomass-to-liquids btu" 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

Energy Resources Available to the United States, 1985 to 2000  

Science Journals Connector (OSTI)

...a point, we can substitute mon-ey in the...4 a ton, and natural gas at /$0.16 a...world petroleum and gas produc-tion has...Btu's); and Syngas he United States...Btu's. Alaskan natural gas will cost $4 to...

Earl T. Hayes

1979-01-19T23:59:59.000Z

262

Assessment of Energy Savings Potential from the Use of Demand Control Ventilation Systems in General Office Spaces in California  

E-Print Network (OSTI)

DCVcostsfromtheHVACenergycost savings. Table 6 OA Use Gas Use Energy Energy Cost PV kWh/ft kBtu/ft kBtu/n.a. n.a. n.a. n.a. HVAC Energy Cost Savings PV $/ft n.a.

Hong, Tianzhen

2010-01-01T23:59:59.000Z

263

Table A27. Quantity of Purchased Electricity, Steam, and Natural Gas by Type  

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

Quantity of Purchased Electricity, Steam, and Natural Gas by Type" Quantity of Purchased Electricity, Steam, and Natural Gas by Type" " of Supplier, Census Region, and Economic Characteristics of the Establishment," 1991 " (Estimates in Btu or Physical Units)" " "," Electricity",," Steam",," Natural Gas" ," (Million (kWh)",," (Billion Btu)",," (Billion cu ft)" ," -----------------------",," -----------------------",," ------------------------------------",,,"RSE" ,"Utility","Nonutility","Utility","Nonutility","Utility","Transmission","Other","Row"

264

Natural Gas Weekly Update, Printer-Friendly Version  

Gasoline and Diesel Fuel Update (EIA)

24, 2001 24, 2001 Mild temperatures and moderate demand helped prices to decline gradually last week as markets returned to relatively normal operation. (See Temperature Map) (See Deviation from Normal Temperatures Map) At the Henry Hub, the spot market price for natural gas ended the week at $2.04 per million Btu, down 37 cents per million Btu from the previous Friday. On the futures market, the near-month (October) NYMEX contract settled on Friday at $2.103 per million Btu - off close to 60 cents from the previous Friday. The spot price for West Texas Intermediate (WTI) crude oil fell steadily from $28.85 per barrel ($4.974 per million Btu) on Monday to $ 25.50 or $4.40 per million Btu on Friday. Prices: Spot prices at many major market locations took a downward turn last

265

EIA - Annual Energy Outlook 2012 Early Release  

Gasoline and Diesel Fuel Update (EIA)

Energy Consumption by Sector Energy Consumption by Sector Transportation figure data Delivered energy consumption in the transportation sector grows from 27.6 quadrillion Btu in 2010 to 28.8 quadrillion Btu in 2035 in the AEO2012 Reference case (Figure 7). Energy consumption by light-duty vehicles (LDVs) (including commercial light trucks) initially declines in the Reference case, from 16.5 quadrillion Btu in 2010 to 15.7 quadrillion Btu in 2025, due to projected increases in the fuel economy of highway vehicles. Projected energy consumption for LDVs increases after 2025, to 16.3 quadrillion Btu in 2035. The AEO2012 Reference case projections do not include proposed increases in LDV fuel economy standards-as outlined in the December 2011 EPA and NHTSA Notice of Proposed Rulemaking for 2017 and

266

Carbon Emissions: Chemicals Industry  

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

Chemicals Industry Chemicals Industry Carbon Emissions in the Chemicals Industry The Industry at a Glance, 1994 (SIC Code: 28) Total Energy-Related Emissions: 78.3 million metric tons of carbon (MMTC) -- Pct. of All Manufacturers: 21.1% -- Nonfuel Emissions: 12.0 MMTC Total First Use of Energy: 5,328 trillion Btu -- Pct. of All Manufacturers: 24.6% Energy Sources Used As Feedstocks: 2,297 trillion Btu -- LPG: 1,365 trillion Btu -- Natural Gas: 674 trillion Btu Carbon Intensity: 14.70 MMTC per quadrillion Btu Energy Information Administration, "1994 Manufacturing Energy Consumption Survey" and Emissions of Greenhouse Gases in the United States 1998 Energy-Related Carbon Emissions, 1994 Source of Carbon Carbon Emissions (million metric tons) All Energy Sources 78.3 Natural Gas 32.1

267

Home Energy Saver  

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

Glossary Glossary Heating, Ventilation and Cooling Terminology System Capacity System capacity is a measurement of the total amount of heat or cooling the furnace, heat pump or air conditioner can produce in one hour. This amount is reported in Btu/hr on the nameplate of the equipment. Btu Btu, short for British Thermal Unit is a unit of heat energy. One Btu is the amount of heat needed to raise the temperature of one pound of water 1°F. To get a rough idea of how much heat energy this is, the heat given off by burning one wooden kitchen match is approximately one Btu. AFUE The AFUE, or Annualized Fuel Utilization Efficiency, is the ratio of the total useful heat the gas furnace delivers to the house to the heat value of the fuel it consumes. Heat Pump A heat pump is basically an air conditioner with a reversible valve

268

file://C:\Documents and Settings\bh5\My Documents\Energy Effici  

Gasoline and Diesel Fuel Update (EIA)

b b Page Last Modified: May 2010 Table 2b. End Uses of Fuel Consumption (Primary 1 Energy) for Selected Industries, 1998, 2002, and 2006 (Trillion Btu) Note: The Btu conversion factors used for primary electricity are 10,197 Btu/KWh, 10,173 Btu/KWh, and 9,919 Btu/KWh for 1998, 2002, and 2006, respectively. Sources: Energy Information Administration, Form EIA-846, Manufacturing Energy Consumption Surveys, 1998, 2002, and 2006. and Monthly Energy Review November 2005, and September 2009 DOE/EIA-0035(2005, 2009),Table A6. MECS Survey Years NAICS Subsector and Industry 1998 2002 2006 311 Food 1,468 1,572 1,665 312 Beverage and Tobacco Products 156 156 166 313 Textile Mills 457 375 304 314 Textile Product Mills 85 94 110 315 Apparel 84 54 27 316 Leather and Allied Products 14

269

Definition: British thermal unit | Open Energy Information  

Open Energy Info (EERE)

thermal unit thermal unit Jump to: navigation, search Dictionary.png British thermal unit The amount of heat required to raise the temperature of one pound of water one degree Fahrenheit; often used as a unit of measure for the energy content of fuels.[1][2] View on Wikipedia Wikipedia Definition The British thermal unit (BTU or Btu) is a traditional unit of energy equal to about 1055 joules. It is the amount of energy needed to cool or heat one pound of water by one degree Fahrenheit. In scientific contexts the BTU has largely been replaced by the SI unit of energy, the joule. The unit is most often used as a measure of power (as BTU/h) in the power, steam generation, heating, and air conditioning industries, and also as a measure of agricultural energy production (BTU/kg). It is still used

270

Performance summary of the Balcomb solar home  

SciTech Connect

The heating performance of the Balcomb passive solar home is re-evaluated based on detailed review of 85 channels of data taken during six weeks of 1980. This led to a re-analysis of 176 days of data taken over the winter of 1978-79. Auxiliary heat during this winter was 7.4 million Btu which compares with 66.0 million Btu total heat losses from the house plus 46.4 million Btu losses from the greenhouse. Auxiliary heat predicted using the solar load ratio method is 8.1 million Btu. Solar savings are estimated as 57 million Btu. Good thermal comfort conditions are documented. Energy flows are tabulated for each month. Energy flows are tabulated for each month. Conclusions regarding detailed heat flow and storage in the house are presented.

Balcomb, J.D.; Hedstrom, J.C.; Perry, J.E. Jr.

1981-01-01T23:59:59.000Z

271

The adiabatic adsorption-desorption characteristics of silica gel beds  

E-Print Network (OSTI)

coefficient, Btu/(ft -min-F) 2 hd h d, ic)p Desiccant enthalpy, Btu/ibm d Initial value of desiccant enthalpy (process side), Btu/ibm d h d, ic)R Initial value of desiccant enthalpy (regeneration side), Btu/ibm d ho Mass transfer coefficient between...] Ref. [9] Ref. [9] Ref. [11] Calculated 0. 000754 ibm/ft-min 1. 0 Btu/ibm-F Ref. [4] Ref. [5] 13 h (Z, e, O) = h a ' ' a, ic)p X(Z, e, t) = X(Z, e + Zv, t) (26) (27) X(Z, e, O) = X, . ) hd(Z, e, t) = hd(Z, e + 2n, t) (28) (29) hd(Z, e...

Barker, James Marshall

2012-06-07T23:59:59.000Z

272

Fischer?Tropsch Synfuels from Biomass: Maximizing Carbon Efficiency and Hydrocarbon Yield  

Science Journals Connector (OSTI)

This paper collects yield and efficiency estimates for FT synfuel production from biomass feedstocks. ... In comparison to other biofuels, advantages include (i) flexible use of all kinds of biomass feedstocks (including waste materials) and, therefore, no competition with the production of food, (ii) relatively high yields per arable land (100?180 GJ ha?1 year?1), and (iii) high fuel qualities to be used in present distribution infrastructures and high-efficiency engine technologies. ... Flow scheme for the conversion of biomass feedstocks to liquid hydrocarbon fuels (BTL) and formal chemical reactions. ...

Dominik Unruh; Kyra Pabst; Georg Schaub

2010-03-30T23:59:59.000Z

273

Commercial Buildings Energy Consumption and Expenditures 1992 - Executive  

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

& Expenditures > Executive Summary & Expenditures > Executive Summary 1992 Consumption & Expenditures Executive Summary Commercial Buildings Energy Consumption and Expenditures 1992 presents statistics about the amount of energy consumed in commercial buildings and the corresponding expenditures for that energy. These data are based on the 1992 Commercial Buildings Energy Consumption Survey (CBECS), a national energy survey of buildings in the commercial sector, conducted by the Energy Information Administration (EIA) of the U.S. Department of Energy. Figure ES1. Energy Consumption is Commercial Buidings by Energy Source, 1992 Energy Consumption: In 1992, the 4.8 million commercial buildings in the United States consumed 5.5 quadrillion Btu of electricity, natural gas, fuel oil, and district heat. Of those 5.5 quadrillion Btu, consumption of site electricity accounted for 2.6 quadrillion Btu, or 48.0 percent, and consumption of natural gas accounted for 2.2 quadrillion Btu, or 39.6 percent. Fuel oil consumption made up 0.3 quadrillion Btu, or 4.0 percent of the total, while consumption of district heat made up 0.4 quadrillion Btu, or 7.9 percent of energy consumption in that sector. When the energy losses that occur at the electricity generating plants are included, the overall energy consumed by commercial buildings increases to about 10.8 quadrillion Btu (Figure ES1).

274

"Table A32. Total Quantity of Purchased Energy Sources by Census Region,"  

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

Quantity of Purchased Energy Sources by Census Region," Quantity of Purchased Energy Sources by Census Region," " Census Division, Industry Group, and Selected Industries, 1994" " (Estimates in Btu or Physical Units)" ,,,,,,"Natural",,,"Coke" " "," ","Total","Electricity","Residual","Distillate","Gas(c)"," ","Coal","and Breeze"," ","RSE" "SIC"," ","(trillion","(million","Fuel Oil","Fuel Oil(b)","(billion","LPG","(1000","(1000","Other(d)","Row" "Code(a)","Industry Group and Industry","Btu)","kWh)","(1000 bbl)","(1000 bbl)","cu ft)","(1000 bbl)","short tons)","short tons)","(trillion Btu)","Factors"

275

" Row: End Uses within NAICS Codes;"  

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

1 End Uses of Fuel Consumption, 2006;" 1 End Uses of Fuel Consumption, 2006;" " Level: National Data; " " Row: End Uses within NAICS Codes;" " Column: Energy Sources, including Net Electricity;" " Unit: Physical Units or Btu." ,,,,,"Distillate",,,"Coal" ,,,,,"Fuel Oil",,,"(excluding Coal" ,,,"Net","Residual","and","Natural Gas(d)","LPG and","Coke and Breeze)" "NAICS",,"Total","Electricity(b)","Fuel Oil","Diesel Fuel(c)","(billion","NGL(e)","(million","Other(f)" "Code(a)","End Use","(trillion Btu)","(million kWh)","(million bbl)","(million bbl)","cu ft)","(million bbl)","short tons)","(trillion Btu)"

276

"NAICS",,"per Employee","of Value Added","of Shipments"  

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

1 Relative Standard Errors for Table 6.1;" 1 Relative Standard Errors for Table 6.1;" " Unit: Percents." ,,,,"Consumption" ,,,"Consumption","per Dollar" ,,"Consumption","per Dollar","of Value" "NAICS",,"per Employee","of Value Added","of Shipments" "Code(a)","Subsector and Industry","(million Btu)","(thousand Btu)","(thousand Btu)" ,,"Total United States" 311,"Food",3.8,4.3,4.1 3112," Grain and Oilseed Milling",8.2,5.8,5.6 311221," Wet Corn Milling",0,0,0 31131," Sugar Manufacturing",0,0,0 3114," Fruit and Vegetable Preserving and Specialty Foods ",7.3,6.7,6.2

277

" Row: NAICS Codes; Column: Energy Sources;"  

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

1 Fuel Consumption, 2006;" 1 Fuel Consumption, 2006;" " Level: National and Regional Data; " " Row: NAICS Codes; Column: Energy Sources;" " Unit: Physical Units or Btu." ,,,,,,,,,,,,"Coke" ,,,,"Net",,"Residual","Distillate","Natural Gas(d)",,"LPG and","Coal","and Breeze" "NAICS",,"Total",,"Electricity(b)",,"Fuel Oil","Fuel Oil(c)","(billion",,"NGL(e)","(million","(million","Other(f)" "Code(a)","Subsector and Industry","(trillion Btu)",,"(million kWh)",,"(million bbl)","(million bbl)","cu ft)",,"(million bbl)","short tons)","short tons)","(trillion Btu)"

278

"Table A15. Selected Energy Operating Ratios for Total Energy Consumption for"  

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

Selected Energy Operating Ratios for Total Energy Consumption for" Selected Energy Operating Ratios for Total Energy Consumption for" " Heat, Power, and Electricity Generation by Census Region and Economic" " Characteristics of the Establishment, 1991" ,,,"Consumption","Major" " "," ","Consumption","per Dollar","Byproducts(b)","Fuel Oil(c)"," " " ","Consumption","per Dollar","of Value","as a Percent","as a Percent","RSE" " ","per Employee","of Value Added","of Shipments","of Consumption","of Natural Gas","Row" "Economic Characteristics(a)","(million Btu)","(thousand Btu)","(thousand Btu)","(percent)","(percent)","Factors"

279

"Table A45. Selected Energy Operating Ratios for Total Energy Consumption"  

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

5. Selected Energy Operating Ratios for Total Energy Consumption" 5. Selected Energy Operating Ratios for Total Energy Consumption" " for Heat, Power, and Electricity Generation by Industry Group," " Selected Industries, and Value of Shipment Categories, 1994" ,,,,,"Major" ,,,"Consumption","Consumption per","Byproducts(c)","Fuel Oil(d)" ,,"Consumption","per Dollar","Dollar of Value","as a Percent","as a Percent","RSE" "SIC",,"per Employee","of Value Added","of Shipments","of Consumption","of Natural Gas","Row" "Code(a)","Economic Characteristics(b)","(million Btu)","(thousand Btu)","(thousand Btu)","(percents)","(percents)","Factors"

280

" Row: NAICS Codes; Column: Energy-Consumption Ratios;"  

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

1 Consumption Ratios of Fuel, 2006;" 1 Consumption Ratios of Fuel, 2006;" " Level: National and Regional Data; " " Row: NAICS Codes; Column: Energy-Consumption Ratios;" " Unit: Varies." ,,,,"Consumption" ,,,"Consumption","per Dollar" ,,"Consumption","per Dollar","of Value" "NAICS",,"per Employee","of Value Added","of Shipments" "Code(a)","Subsector and Industry","(million Btu)","(thousand Btu)","(thousand Btu)" ,,"Total United States" 311,"Food",879.8,5,2.2 3112," Grain and Oilseed Milling",6416.6,17.5,5.7

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


281

"Table A46. Selected Energy Operating Ratios for Total Energy Consumption"  

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

Selected Energy Operating Ratios for Total Energy Consumption" Selected Energy Operating Ratios for Total Energy Consumption" " for Heat, Power, and Electricity Generation by Industry Group," " Selected Industries, and Employment Size Categories, 1994" ,,,,,"Major" ,,,"Consumption","Consumption per","Byproducts(c)","Fuel Oil(d)" ,,"Consumption","per Dollar","Dollar of Value","as a Percent","as a Percent","RSE" "SIC",,"per Employee","of Value Added","of Shipments","of Consumption","of Natural Gas","Row" "Code(a)","Economic Characteristics(b)","(million Btu)","(thousand Btu)","(thousand Btu)","(percents)","(percents)","Factors"

282

"Table A8. Selected Energy Operating Ratios for Total Energy Consumption for"  

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

A8. Selected Energy Operating Ratios for Total Energy Consumption for" A8. Selected Energy Operating Ratios for Total Energy Consumption for" " Heat, Power, and Electricity Generation by Census Region, Industry Group, and" " Selected Industries, 1991" ,,,,,"Major" ,,,,"Consumption","Byproducts(b)" ,,,"Consumption","per Dollar","as a","Fuel Oil(c) as" ,,"Consumption","per Dollar","of Value","Percent of","a Percent of","RSE" "SIC"," ","per Employee","of Value Added","of Shipments","Consumsption","Natural Gas","Row" "Code(a)","Industry Groups and Industry","(million Btu)","(thousand Btu)","(thousand Btu)","(PERCENT)","(percent)","Factors"

283

"Table A51. Selected Energy Operating Ratios for Total Energy Consumption for"  

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

1. Selected Energy Operating Ratios for Total Energy Consumption for" 1. Selected Energy Operating Ratios for Total Energy Consumption for" " Heat, Power, and Electricity Generation by Census Region and Economic" " Characteristics of the Establishment, 1991 " ,,,,,"Major" ,,,"Consumption","Consumption per","Byproducts(c)","Fuel Oil(d)" ,,"Consumption","per Dollar","Dollar of Value","as a Percent","as a Percent","RSE" "SIC",,"per Employee","of Value Added","of Shipments","of Consumption","of Natural Gas","Row" "Code(a)","Economic Characteristics(b)","(million Btu)","(thousand Btu)","(thousand Btu)","(percent)","(percent)","Factors"

284

"Table A47. Selected Energy Operating Ratios for Total Energy Consumption for"  

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

7. Selected Energy Operating Ratios for Total Energy Consumption for" 7. Selected Energy Operating Ratios for Total Energy Consumption for" " Heat, Power, and Electricity Generation by Census Region, Census Division, Industry Group, and" " Selected Industries, 1994" ,,,,,"Major" ,,,,"Consumption","Byproducts(b)" ,,,"Consumption","per Dollar","as a","Fuel Oil(c) as" ,,"Consumption","per Dollar","of Value","Percent of","a Percent of","RSE" "SIC"," ","per Employee","of Value Added","of Shipments","Consumption","Natural Gas","Row" "Code(a)","Industry Group and Industry","(million Btu)","(thousand Btu)","(thousand Btu)","(percents)","(percents)","Factors"

285

"Table A22. Total Quantity of Purchased Energy Sources by Census Region,"  

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

2. Total Quantity of Purchased Energy Sources by Census Region," 2. Total Quantity of Purchased Energy Sources by Census Region," " Industry Group, and Selected Industries, 1991" " (Estimates in Btu or Physical Units)" ,,,,,,"Natural",,,"Coke" " "," ","Total","Electricity","Residual","Distillate","Gas(c)"," ","Coal","and Breeze"," ","RSE" "SIC"," ","(trillion","(million","Fuel Oil","Fuel Oil(b)","(billion","LPG","(1000","(1000","Other(d)","Row" "Code(a)","Industry Groups and Industry","Btu)","kWh)","(1000 bbls)","(1000 bbls)","cu ft)","(1000 bbls)","short tons)","short tons)","(trillion Btu)","Factors"

286

" Row: End Uses within NAICS Codes;"  

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

1 End Uses of Fuel Consumption, 2010;" 1 End Uses of Fuel Consumption, 2010;" " Level: National Data; " " Row: End Uses within NAICS Codes;" " Column: Energy Sources, including Net Electricity;" " Unit: Physical Units or Btu." ,,,,,"Distillate",,,"Coal" ,,,,,"Fuel Oil",,,"(excluding Coal" ,,,"Net","Residual","and","Natural Gas(d)","LPG and","Coke and Breeze)" "NAICS",,"Total","Electricity(b)","Fuel Oil","Diesel Fuel(c)","(billion","NGL(e)","(million","Other(f)" "Code(a)","End Use","(trillion Btu)","(million kWh)","(million bbl)","(million bbl)","cu ft)","(million bbl)","short tons)","(trillion Btu)"

287

" Row: NAICS Codes; Column: Energy Sources;"  

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

1 Offsite-Produced Fuel Consumption, 2010;" 1 Offsite-Produced Fuel Consumption, 2010;" " Level: National and Regional Data; " " Row: NAICS Codes; Column: Energy Sources;" " Unit: Physical Units or Btu." ,,,,,,,,,"Coke" ,,,,"Residual","Distillate","Natural Gas(d)","LPG and","Coal","and Breeze" "NAICS",,"Total","Electricity(b)","Fuel Oil","Fuel Oil(c)","(billion","NGL(e)","(million","(million","Other(f)" "Code(a)","Subsector and Industry","(trillion Btu)","(million kWh)","(million bbl)","(million bbl)","cu ft)","(million bbl)","short tons)","short tons)","(trillion Btu)"

288

Monthly energy review: September 1996  

SciTech Connect

Energy production during June 1996 totaled 5.6 quadrillion Btu, a 0.5% decrease from the level of production during June 1995. Energy consumption during June 1996 totaled 7.1 quadrillion Btu, 2.7% above the level of consumption during June 1995. Net imports of energy during June 1996 totaled 1.6 quadrillion Btu, 4.5% above the level of net imports 1 year earlier. Statistics are presented on the following topics: energy consumption, petroleum, natural gas, oil and gas resource development, coal, electricity, nuclear energy, energy prices, and international energy. 37 figs., 59 tabs.

NONE

1996-09-01T23:59:59.000Z

289

Well-to-Wheels analysis of landfill gas-based pathways and their addition to the GREET model.  

SciTech Connect

Today, approximately 300 million standard cubic ft/day (mmscfd) of natural gas and 1600 MW of electricity are produced from the decomposition of organic waste at 519 U.S. landfills (EPA 2010a). Since landfill gas (LFG) is a renewable resource, this energy is considered renewable. When used as a vehicle fuel, compressed natural gas (CNG) produced from LFG consumes up to 185,000 Btu of fossil fuel and generates from 1.5 to 18.4 kg of carbon dioxide-equivalent (CO{sub 2}e) emissions per million Btu of fuel on a 'well-to-wheel' (WTW) basis. This compares with approximately 1.1 million Btu and 78.2 kg of CO{sub 2}e per million Btu for CNG from fossil natural gas and 1.2 million Btu and 97.5 kg of CO{sub 2}e per million Btu for petroleum gasoline. Because of the additional energy required for liquefaction, LFG-based liquefied natural gas (LNG) requires more fossil fuel (222,000-227,000 Btu/million Btu WTW) and generates more GHG emissions (approximately 22 kg CO{sub 2}e /MM Btu WTW) if grid electricity is used for the liquefaction process. However, if some of the LFG is used to generate electricity for gas cleanup and liquefaction (or compression, in the case of CNG), vehicle fuel produced from LFG can have no fossil fuel input and only minimal GHG emissions (1.5-7.7 kg CO{sub 2}e /MM Btu) on a WTW basis. Thus, LFG-based natural gas can be one of the lowest GHG-emitting fuels for light- or heavy-duty vehicles. This report discusses the size and scope of biomethane resources from landfills and the pathways by which those resources can be turned into and utilized as vehicle fuel. It includes characterizations of the LFG stream and the processes used to convert low-Btu LFG into high-Btu renewable natural gas (RNG); documents the conversion efficiencies and losses of those processes, the choice of processes modeled in GREET, and other assumptions used to construct GREET pathways; and presents GREET results by pathway stage. GREET estimates of well-to-pump (WTP), pump-to-wheel (PTW), and WTW energy, fossil fuel, and GHG emissions for each LFG-based pathway are then summarized and compared with similar estimates for fossil natural gas and petroleum pathways.

Mintz, M.; Han, J.; Wang, M.; Saricks, C.; Energy Systems

2010-06-30T23:59:59.000Z

290

Coal surface control for advanced fine coal flotation  

SciTech Connect

The initial goal of the research project was to develop methods of coal surface control in advanced froth flotation to achieve 90% pyritic sulfur rejection, while operating at Btu recoveries above 90% based on run-of-mine quality coal. Moreover, the technology is to concomitantly reduce the ash content significantly (to six percent or less) to provide a high-quality fuel to the boiler (ash removal also increases Btu content, which in turn decreases a coal's emission potential in terms of lbs SO{sub 2}/million Btu). (VC)

Fuerstenau, D.W.; Hanson, J.S.; Diao, J.; Harris, G.H.; De, A.; Sotillo, F. (California Univ., Berkeley, CA (United States)); Somasundaran, P.; Harris, C.C.; Vasudevan, T.; Liu, D.; Li, C. (Columbia Univ., New York, NY (United States)); Hu, W.; Zou, Y.; Chen, W. (Utah Univ., Salt Lake City, UT (United States)); Choudhry, V.; Shea, S.; Ghosh, A.; Sehgal, R. (Praxis Engineers, Inc., Milpitas, CA (United States))

1992-03-01T23:59:59.000Z

291

Coal surface control for advanced fine coal flotation. Final report, October 1, 1988--March 31, 1992  

SciTech Connect

The initial goal of the research project was to develop methods of coal surface control in advanced froth flotation to achieve 90% pyritic sulfur rejection, while operating at Btu recoveries above 90% based on run-of-mine quality coal. Moreover, the technology is to concomitantly reduce the ash content significantly (to six percent or less) to provide a high-quality fuel to the boiler (ash removal also increases Btu content, which in turn decreases a coal`s emission potential in terms of lbs SO{sub 2}/million Btu). (VC)

Fuerstenau, D.W.; Hanson, J.S.; Diao, J.; Harris, G.H.; De, A.; Sotillo, F. [California Univ., Berkeley, CA (United States); Somasundaran, P.; Harris, C.C.; Vasudevan, T.; Liu, D.; Li, C. [Columbia Univ., New York, NY (United States); Hu, W.; Zou, Y.; Chen, W. [Utah Univ., Salt Lake City, UT (United States); Choudhry, V.; Shea, S.; Ghosh, A.; Sehgal, R. [Praxis Engineers, Inc., Milpitas, CA (United States)

1992-03-01T23:59:59.000Z

292

Originally Released: July 2009  

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

1 Nonfuel (Feedstock) Use of Combustible Energy, 2006;" 1 Nonfuel (Feedstock) Use of Combustible Energy, 2006;" " Level: National and Regional Data; " " Row: NAICS Codes; Column: Energy Sources;" " Unit: Physical Units or Btu." ,,,,,,,,,,,"Coke" ,,,,"Residual","Distillate","Natural Gas(c)",,"LPG and",,"Coal","and Breeze" "NAICS",,"Total",,"Fuel Oil","Fuel Oil(b)","(billion",,"NGL(d)",,"(million","(million","Other(e)" "Code(a)","Subsector and Industry","(trillion Btu)",,"(million bbl)","(million bbl)","cu ft)",,"(million bbl)",,"short tons)","short tons)","(trillion Btu)"

293

"Table A50. Selected Energy Operating Ratios for Total Energy Consumption for"  

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

0. Selected Energy Operating Ratios for Total Energy Consumption for" 0. Selected Energy Operating Ratios for Total Energy Consumption for" " Heat, Power, and Electricity Generation by Industry Group," " Selected Industries, and Economic Characteristics of the" " Establishment, 1991 (Continued)" ,,,,,"Major" ,,,"Consumption","Consumption per","Byproducts(c)","Fuel Oil(d)" ,,"Consumption","per Dollar","Dollar of Value","as a Percent of","as a Percent","RSE" "SIC",,"per Employee","of Value Added","of Shipments","of Consumption","of Natural Gas","Row" "Code(a)","Economic Characteristics(b)","(million Btu)","(thousand Btu)","(thousand Btu)","(Percent)","(percent)","Factors"

294

Table A9. Total Primary Consumption of Energy for All Purposes by Census  

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

A9. Total Primary Consumption of Energy for All Purposes by Census" A9. Total Primary Consumption of Energy for All Purposes by Census" " Region and Economic Characteristics of the Establishment, 1991" " (Estimates in Btu or Physical Units)" ,,,,,,,,"Coke" " "," ","Net","Residual","Distillate","Natural Gas(d)"," ","Coal","and Breeze"," ","RSE" " ","Total","Electricity(b)","Fuel Oil","Fuel Oil(c)","(billion","LPG","(1000","(1000","Other(e)","Row" "Economic Characteristics(a)","(trillion Btu)","(million kWh)","(1000 bbls)","(1000 bbls)","(cu ft)","(1000 bbls)","short tons)","short tons)","(trillion Btu)","Factors"

295

"Table A33. Total Quantity of Purchased Energy Sources by Census Region, Census Division,"  

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

Quantity of Purchased Energy Sources by Census Region, Census Division," Quantity of Purchased Energy Sources by Census Region, Census Division," " and Economic Characteristics of the Establishment, 1994" " (Estimates in Btu or Physical Units)" ,,,,,"Natural",,,"Coke" " ","Total","Electricity","Residual","Distillate","Gas(c)"," ","Coal","and Breeze","Other(d)","RSE" " ","(trillion","(million","Fuel Oil","Fuel Oil(b)","(billion","LPG","(1000 ","(1000","(trillion","Row" "Economic Characteristics(a)","Btu)","kWh)","(1000 bbl)","(1000 bbl)","cu ft)","(1000 bbl)","short tons)","short tons)","Btu)","Factors"

296

Categorical Exclusion Determinations: California | Department of Energy  

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

September 18, 2012 September 18, 2012 CX-009257: Categorical Exclusion Determination Radiography of Explosive Samples B321C CX(s) Applied: B3.6 Date: 09/18/2012 Location(s): California Offices(s): Lawrence Livermore Site Office September 17, 2012 CX-009372: Categorical Exclusion Determination Small Scale Coal-Biomass to Liquids Using Highly Selective Fischer-Tropsch Synthesis CX(s) Applied: A9 Date: 09/17/2012 Location(s): California Offices(s): National Energy Technology Laboratory September 17, 2012 CX-009370: Categorical Exclusion Determination Carbon Mineralization by Aqueous Precipitation for Beneficial Use of carbon dioxide from Flue Gas - Pilot Plant CX(s) Applied: A1, B3.6 Date: 09/17/2012 Location(s): California, California Offices(s): National Energy Technology Laboratory

297

NETL F 451.1/1-1, Categorical Exclusion Designation Form  

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

FE0010231 FE0010231 Southern Research Institute FE Southern Company, NCCC SCC/Gasification Division 2013-2015/ 3 years Arun C Bose Wilsonville, Shelby County, Alabama Small Scale Coal-Biomass to Liquids Using Highly Selective FT Synthesis At NCCC, a bench-scale (5 lb/hr) reactor skid will be installed, connected to existing syngas (CO+H2) slipstream infrastructure, operated using coal and coal-biomass derived syngas from existing gasifier. Arun Bose Digitally signed by Arun Bose DN: cn=Arun Bose, o=NETL, ou=SCC-Gasification Division, email=arun.bose@netl.doe.gov, c=US Date: 2012.09.12 08:55:34 -04'00' 09 12 2012 john ganz Digitally signed by john ganz DN: cn=john ganz, o=environmental compliance division, ou=office of general counsel, email=john.ganz@netl.doe.gov, c=US

298

Categorical Exclusion Determinations: National Energy Technology Laboratory  

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

7, 2012 7, 2012 CX-009374: Categorical Exclusion Determination Development of a Carbon Dioxide Chemical Sensor for Downhole Carbon Dioxide Monitoring in Carbon Sequestration CX(s) Applied: B3.6 Date: 09/17/2012 Location(s): New Mexico Offices(s): National Energy Technology Laboratory September 17, 2012 CX-009373: Categorical Exclusion Determination Testing of an Advanced Dry Cooling Technology for Power Plants CX(s) Applied: B3.6 Date: 09/17/2012 Location(s): North Dakota Offices(s): National Energy Technology Laboratory September 17, 2012 CX-009372: Categorical Exclusion Determination Small Scale Coal-Biomass to Liquids Using Highly Selective Fischer-Tropsch Synthesis CX(s) Applied: A9 Date: 09/17/2012 Location(s): California Offices(s): National Energy Technology Laboratory

299

U.S. DEP.ARTlVIENT OF ENERGY EERE PROJECT MANAGEMENT CENTER  

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

ARTlVIENT OF ENERGY ARTlVIENT OF ENERGY EERE PROJECT MANAGEMENT CENTER NEPA DETERlVIINATION RECIPIENT:Auburn University STATE:AL PROJECT Biomass to Liquid Fuels and Electric Power Research TITLE: Funding Opportunity Announcement Number Procurement Instrument Number NEPA Control Number CID Number CDP DE-EE0003115 GFO-0003115-00 1 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: B3.6 Siting, construction (or modification), operation, and decommissioning of facilities for indoor bench-scale research projects and conventional laboratory operations (for example, preparation of chemical standards and sample analysis);

300

Investigation of Effects of Coal and Biomass Contaminants on the Performance of Water-Gas-Shift and Fischer-Tropsch Catalysts  

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

Effects of Coal Effects of Coal and Biomass Contaminants on the Performance of Water-Gas-Shift and Fischer-Tropsch Catalysts Background Coal-Biomass-to-Liquids (CBTL) processes gasify coal, biomass, and mixtures of coal/ biomass to produce synthesis gas (syngas) that can be converted to liquid hydrocarbon fuels. Positive benefits of these processes include the use of feedstocks from domestic sources and lower greenhouse gas production than can be achieved from using conventional petroleum-based fuels. However, syngas generated by coal and biomass co-gasification contains a myriad of trace contaminants that may poison the water- gas-shift (WGS) and Fischer-Tropsch (FT) catalysts used in the gas-to-liquid processes. While the effect of coal contaminants on FT processes is well studied, more research

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301

Page not found | Department of Energy  

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

21 - 24130 of 28,560 results. 21 - 24130 of 28,560 results. Download CX-005196: Categorical Exclusion Determination Biomass to Liquid Fuels and Electric Power Research CX(s) Applied: A9, B3.6 Date: 02/16/2011 Location(s): Alabama Office(s): Energy Efficiency and Renewable Energy, Golden Field Office http://energy.gov/nepa/downloads/cx-005196-categorical-exclusion-determination Download CX-005198: Categorical Exclusion Determination Development of Molten-Salt Heat Transfer Fluid Technology for Parabolic Trough Solar Power Plants CX(s) Applied: A9, B3.6 Date: 02/16/2011 Location(s): Colorado Office(s): Energy Efficiency and Renewable Energy, Golden Field Office http://energy.gov/nepa/downloads/cx-005198-categorical-exclusion-determination Download CX-005202: Categorical Exclusion Determination

302

Slide 1  

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

Bruce M. Brown Bruce M. Brown Infrastructure and Partnership Coordinator August 20, 2013 Carbon Storage R&D Project Review Meeting Pittsburgh, PA * DOE Carbon Storage Program * Core R&D * Regional Partnerships Overview BIG SKY WESTCARB SWP PCOR MGSC SECARB MRCSP SEC Office of Coal and Power R&D Core Program Components Total FY 2013 Funding $317.5 Million * Carbon Capture - $65.6 Million * Carbon Storage - $109.9 Million * Advanced Energy Systems- $95.2 Million - Advanced Combustion Systems - $15.2 Million - Gasification - $37.1 Million - Hydrogen Turbines - $14.3 Million - Solid Oxide Fuel Cells - $23.8 Million - Coal & Coal Biomass to Liquids - $4.8 Million * Cross Cutting Research - $46.8 Million *FY13 total budget reflects Sequestration and Across the Board Rescission

303

Page not found | Department of Energy  

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

81 - 18990 of 26,764 results. 81 - 18990 of 26,764 results. Download CX-001231: Categorical Exclusion Determination Test Reactor Area-653 Heating, Ventilation, Air Conditioning Modifications CX(s) Applied: B2.1, B2.5 Date: 03/15/2010 Location(s): Idaho Office(s): Idaho Operations Office, Nuclear Energy http://energy.gov/nepa/downloads/cx-001231-categorical-exclusion-determination Download CX-001181: Categorical Exclusion Determination Santiam Substation Renovation CX(s) Applied: B1.16 Date: 03/12/2010 Location(s): Linn County, Oregon Office(s): Bonneville Power Administration http://energy.gov/nepa/downloads/cx-001181-categorical-exclusion-determination Download CX-005196: Categorical Exclusion Determination Biomass to Liquid Fuels and Electric Power Research CX(s) Applied: A9, B3.6 Date: 02/16/2011

304

Categorical Exclusion Determinations: B3.6 | Department of Energy  

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

20, 2012 20, 2012 CX-009354: Categorical Exclusion Determination High Resolution 3D Laser Imaging for Inspection, Maintenance, Repair and Operations - Phase II CX(s) Applied: A9, A11, B3.6 Date: 09/20/2012 Location(s): Colorado Offices(s): National Energy Technology Laboratory September 19, 2012 CX-009363: Categorical Exclusion Determination Development and Test of a 1,000 Level 3C Fiber Optic Borehole Seismic Receiver Array Applied to Carbon Sequestration CX(s) Applied: A1, A9, A11, B3.6 Date: 09/19/2012 Location(s): Multiple Offices(s): National Energy Technology Laboratory September 19, 2012 CX-009362: Categorical Exclusion Determination Small Scale Coal-Biomass to Liquids Using Highly Selective FT Synthesis CX(s) Applied: B3.6 Date: 09/19/2012 Location(s): Alabama Offices(s): National Energy Technology Laboratory

305

NETL: Coal/Biomass Feed and Gasification  

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

Coal/Biomass Feed & Gasification Coal/Biomass Feed & Gasification Coal and Coal/Biomass to Liquids Coal/Biomass Feed and Gasification The Coal/Biomass Feed and Gasification Key Technology is advancing scientific knowledge of the production of liquid hydrocarbon fuels from coal and/or coal-biomass mixtures. Activities support research for handling and processing of coal/biomass mixtures, ensuring those mixtures are compatible with feed delivery systems, identifying potential impacts on downstream components, catalyst and reactor optimization, and characterizing the range of products and product quality. Active projects within the program portfolio include the following: Coal-biomass fuel preparation Development of Biomass-Infused Coal Briquettes for Co-Gasification Coal-biomass gasification modeling

306

CX-005196: Categorical Exclusion Determination | Department of Energy  

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

96: Categorical Exclusion Determination 96: Categorical Exclusion Determination CX-005196: Categorical Exclusion Determination Biomass to Liquid Fuels and Electric Power Research CX(s) Applied: A9, B3.6 Date: 02/16/2011 Location(s): Alabama Office(s): Energy Efficiency and Renewable Energy, Golden Field Office Auburn University proposes to use federal funding to research and analyze bio-refining systems for improvements within the process to increase productivity and economic value of electric power, liquid fuels, and other bio-based products. This project will involve five tasks. The first task will be to investigate productivity and economic constraints associated with production, harvest, and transportation of forest biomass. The second task will be to develop and refine techniques for fractionation of forest

307

CX-005196: Categorical Exclusion Determination | Department of Energy  

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

5196: Categorical Exclusion Determination 5196: Categorical Exclusion Determination CX-005196: Categorical Exclusion Determination Biomass to Liquid Fuels and Electric Power Research CX(s) Applied: A9, B3.6 Date: 02/16/2011 Location(s): Alabama Office(s): Energy Efficiency and Renewable Energy, Golden Field Office Auburn University proposes to use federal funding to research and analyze bio-refining systems for improvements within the process to increase productivity and economic value of electric power, liquid fuels, and other bio-based products. This project will involve five tasks. The first task will be to investigate productivity and economic constraints associated with production, harvest, and transportation of forest biomass. The second task will be to develop and refine techniques for fractionation of forest

308

Page not found | Department of Energy  

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

21 - 4430 of 9,640 results. 21 - 4430 of 9,640 results. Download CX-009371: Categorical Exclusion Determination Audio/Video Technology Refresh: PGH/MGN CX(s) Applied: B1.15, B1.23, B2.2 Date: 09/17/2012 Location(s): West Virginia, Pennsylvania Offices(s): National Energy Technology Laboratory http://energy.gov/nepa/downloads/cx-009371-categorical-exclusion-determination Download CX-009372: Categorical Exclusion Determination Small Scale Coal-Biomass to Liquids Using Highly Selective Fischer-Tropsch Synthesis CX(s) Applied: A9 Date: 09/17/2012 Location(s): California Offices(s): National Energy Technology Laboratory http://energy.gov/nepa/downloads/cx-009372-categorical-exclusion-determination Download CX-009373: Categorical Exclusion Determination Testing of an Advanced Dry Cooling Technology for Power Plants

309

CX-006273: Categorical Exclusion Determination | Department of Energy  

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

73: Categorical Exclusion Determination 73: Categorical Exclusion Determination CX-006273: Categorical Exclusion Determination Center for Biomass Utilization Renewal of Grant DE-FG36-08GO88054 CX(s) Applied: A9, B3.6, B5.1 Date: 07/25/2011 Location(s): North Dakota Office(s): Energy Efficiency and Renewable Energy, Golden Field Office The University of North Dakota Energy and Environmental Research Center proposes to use the Department of Energy funding to demonstrate the feasibility of converting biomass into alternative forms of energy. Phase 3 activities include: small-scale biomass conversion; bench and pilot scale conversion of biomass to liquid fuels; renewable fuels to heat, power and products; project management and strategic studies; fuels of the future research and development laboratory; and educational activities and

310

Biomass Resources Overview and Perspectives on Best Fits for Fuel Cells  

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

Biomass Resources Overview Biomass Resources Overview and Perspectives on Best Fits for Fuel Cells Darlene Steward, NREL Biogas and Fuel Cells Workshop Golden, CO June 11-13, 2012 2 Objective * Identify the primary opportunities and challenges for producing and utilizing methane from renewable resources o Biogas from digestion of: - Manure Management - Wastewater Treatment - Food Processing o Landfill gas 3 Bio-energy Pathways; Three Broad Categories of Products Biomass to liquid fuels pathways Source; EPA, NREL, State Bioenergy Primer, Sept. 15, 2009 Biomass to bioproducts pathways 4 Energy Product Pathway is the Focus of this Workshop Biomass to electricity and/or heat pathways Focus on * Landfill gas * Wastewater treatment sludge * Animal manure * Food processing Source; EPA, NREL, State Bioenergy Primer, Sept. 15, 2009

311

EIA - Annual Energy Outlook 2007 with Projections to 2030 - Issues in Focus  

Gasoline and Diesel Fuel Update (EIA)

Issues in Focus Issues in Focus Annual Energy Outlook 2007 with Projections to 2030 Issues in Focus Introduction This section of the AEO provides in-depth discussions on topics of special interest that may affect the projections, including significant changes in assumptions and recent developments in technologies for energy production, energy consumption, and energy supply. In view of recent increases in energy prices, this year’s topics include discussions of the underlying cost factors in key industries and how consumers respond to higher energy prices. The potential impacts of developing oil and natural gas resources in the Outer Continental Shelf (OCS), developments related to an Alaska natural gas pipeline, and key issues for the development of new nuclear and biomass-to-liquids technologies are also discussed.

312

NREL: Learning - Biofuels Basics  

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

Biofuels Basics Biofuels Basics Content on this page requires a newer version of Adobe Flash Player. Get Adobe Flash player This video provides an overview of NREL research on converting biomass to liquid fuels. Text Version Unlike other renewable energy sources, biomass can be converted directly into liquid fuels, called "biofuels," to help meet transportation fuel needs. The two most common types of biofuels in use today are ethanol and biodiesel. Ethanol is an alcohol, the same as in beer and wine (although ethanol used as a fuel is modified to make it undrinkable). It is most commonly made by fermenting any biomass high in carbohydrates through a process similar to beer brewing. Today, ethanol is made from starches and sugars, but NREL scientists are developing technology to allow it to be made from cellulose

313

NETL: Gasifipedia  

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

Coal Coal DOE Supported R&D for Coal Feeding The Department of Energy is currently developing technology for high pressure dry coal feeding and feeding of low-cost, low rank coals, in three particular R&D areas: Development of High-Pressure Dry Feed Pump for Gasification Systems Evaluation of the Benefits of Advanced Dry Feed System for Low Rank Coal Liquid Carbon Dioxide/Coal Slurry for Feeding Low-Rank Coal to Gasifiers Additionally, feeding of coal and biomass mixtures is a closely related technology under development in the Coal & Coal/Biomass to Liquids program, which will help improve the economics and environmental impact of coal use in synthesis of liquid transportation fuels. One of the projects related to coal/biomass feeding and gasification is on fuel preparation, improving both feeding and gasification characteristics of coal/biomass mixtures:

314

Page not found | Department of Energy  

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

41 - 6050 of 8,172 results. 41 - 6050 of 8,172 results. Download CX-009371: Categorical Exclusion Determination Audio/Video Technology Refresh: PGH/MGN CX(s) Applied: B1.15, B1.23, B2.2 Date: 09/17/2012 Location(s): West Virginia, Pennsylvania Offices(s): National Energy Technology Laboratory http://energy.gov/nepa/downloads/cx-009371-categorical-exclusion-determination Download CX-009372: Categorical Exclusion Determination Small Scale Coal-Biomass to Liquids Using Highly Selective Fischer-Tropsch Synthesis CX(s) Applied: A9 Date: 09/17/2012 Location(s): California Offices(s): National Energy Technology Laboratory http://energy.gov/nepa/downloads/cx-009372-categorical-exclusion-determination Download CX-009373: Categorical Exclusion Determination Testing of an Advanced Dry Cooling Technology for Power Plants

315

Page not found | Department of Energy  

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

31 - 26040 of 28,904 results. 31 - 26040 of 28,904 results. Download CX-001507: Categorical Exclusion Determination National Outdoor Leadership School Retrofit #2 CX(s) Applied: B5.1 Date: 04/01/2010 Location(s): Lander, Wyoming Office(s): Energy Efficiency and Renewable Energy, Golden Field Office http://energy.gov/nepa/downloads/cx-001507-categorical-exclusion-determination Download CX-001230: Categorical Exclusion Determination Replace 200,000 Gallon Water Storage Tank at Material Fuels Complex CX(s) Applied: B1.15 Date: 03/15/2010 Location(s): Idaho Office(s): Idaho Operations Office, Nuclear Energy http://energy.gov/nepa/downloads/cx-001230-categorical-exclusion-determination Download CX-005196: Categorical Exclusion Determination Biomass to Liquid Fuels and Electric Power Research

316

NETL F 451.1/1-1, Categorical Exclusion Designation Form  

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

427 427 Altex Technologies Corporation FE Pennsylvania State University SCC - Fuels Division FY12; 11/01/2012 - 10/31/2014 Steven Markovich 412-386-7537 State College, PA Laboratory Scale Coal-Biomass to Liquids (CBTL) Production and Assessment The primary objective for this project is to assess the current oligomerization catalysts developed from our previous biomass/coal-to-biofuel projects for catalytic conversion of olefins. Steven Markovich Digitally signed by Steven Markovich DN: cn=Steven Markovich, o=Fuels Division, ou=DOE/NETL/SCC/Fuels, email=markovis@netl.doe.gov, c=US Date: 2012.09.18 10:35:09 -04'00' 09 18 12 Cliff Whyte Digitally signed by Cliff Whyte DN: cn=Cliff Whyte, o=US Dept of Energy, ou=NETL- OPFC, email=Cliff.Whyte@netl.doe.gov, c=US Date: 2012.09.21 12:57:18

317

Word Pro - S10  

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

Energy Energy Note. Renewable Energy Production and Consump- tion. In Tables 1.1, 1.3, and 10.1, renewable energy consumption consists of: conventional hydroelectricity net generation (converted to Btu using the fossil-fuels heat rate-see Table A6); geothermal electricity net generation (converted to Btu using the fossil-fuels heat rate-see Table A6), and geothermal heat pump and geothermal direct use energy; solar thermal and photovoltaic electricity net generation (converted to Btu using the fossil-fuels heat rate -see Table A6), and solar thermal direct use energy; wind electricity net generation (converted to Btu using the fossil- fuels heat rate-see Table A6); wood and wood-derived fuels consumption; biomass waste (municipal solid waste from biogenic sources, landfill gas, sludge waste, agricul-

318

Carbon Emissions: Iron and Steel Industry  

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

Iron and Steel Industry Iron and Steel Industry Carbon Emissions in the Iron and Steel Industry The Industry at a Glance, 1994 (SIC Code: 3312) Total Energy-Related Emissions: 39.9 million metric tons of carbon (MMTC) -- Pct. of All Manufacturers: 10.7% -- Nonfuel Emissions: 22.2 MMTC Total First Use of Energy: 1,649 trillion Btu -- Pct. of All Manufacturers: 7.6% Nonfuel Use of Energy: 886 trillion Btu (53.7%) -- Coal: 858 trillion Btu (used to make coke) Carbon Intensity: 24.19 MMTC per quadrillion Btu Energy Information Administration, "1994 Manufacturing Energy Consumption Survey" and Emissions of Greenhouse Gases in the United States 1998 Energy-Related Carbon Emissions, 1994 Source of Carbon Carbon Emissions (million metric tons) All Energy Sources 39.9 Coal 22.7

319

Residential Buildings Historical Publications reports, data and housing  

Gasoline and Diesel Fuel Update (EIA)

7 7 Average Natural Gas Residential Buildings Consumption Expenditures per Total per Square per per per Total Total Floorspace Building Foot per Household per Square per Household Households Number (billion (million (thousand Household Member Building Foot Household Member Characteristics (million) (million) sq. ft.) Btu) Btu) (million Btu) (million Btu) (dollars) (dollars) (dollars) (dollars) Total U.S. Households 57.3 42.5 99.4 114 49 84.3 33 615 0.26 456 176 Census Region and Division Northeast 11.7 7.4 21.2 139 49 88.5 34 898 0.31 571 221 New England 1.7 1.0 3.0 155 49 86.8 33 1,044 0.33 586 223 Middle Atlantic 10.0 6.5 18.2 137 49 88.8 35 877 0.31 568 221

320

Residential Buildings Historical Publications reports, data and housing  

Gasoline and Diesel Fuel Update (EIA)

3 3 Average Natural Gas Residential Buildings Consumption Expenditures per Total per Square per per per Total Total Floorspace Building Foot per Household per Square per Household Households Number (billion (million (thousand Household Member Building Foot Household Member Characteristics (million) (million) sq. ft.) Btu) Btu) (million Btu) (million Btu) (dollars) (dollars) (dollars) (dollars) Total U.S. Households 58.7 46.0 111.9 115 47 89.9 34 696 0.29 546 206 Census Region and Division Northeast 12.2 7.7 23.3 145 48 90.9 35 1,122 0.37 703 272 New England 2.2 1.2 4.2 154 45 85.7 34 1,298 0.38 722 290 Middle Atlantic 10.0 6.4 19.1 143 48 92.0 35 1,089 0.37 699 269

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


321

Residential Buildings Historical Publications reports, data and housing  

Gasoline and Diesel Fuel Update (EIA)

4 4 Average Electricity Residential Buildings Consumption Expenditures per Total per Square per per per Total Total Floorspace Building Foot per Household per Square per Household Households Number (billion (million (thousand Household Member Building Foot Household Member Characteristics (million) (million) sq. ft.) Btu) Btu) (million Btu) (million Btu) (dollars) (dollars) (dollars) (dollars) Total 86.3 67.4 144.3 37 17 28.8 11 808 0.38 632 234 Census Region and Division Northeast 18.3 13.0 35.0 31 12 22.3 8 938 0.35 665 245 New England 4.3 3.1 9.0 31 11 22.6 8 869 0.30 635 227 Middle Atlantic 14.0 9.9 26.0 32 12 22.2 8 959 0.36 674 251

322

Residential Buildings Historical Publications reports, data and housing  

Gasoline and Diesel Fuel Update (EIA)

Fuel Oil/Kerosene, 2001 Fuel Oil/Kerosene, 2001 Average Fuel Oil/Kerosene Residential Buildings Consumption Expenditures per Total per Square per per per Total Total Floorspace Building Foot per Household per Square per Household Households Number (billion (million (thousand Household Member Building Foot Household Member Characteristics (million) (million) sq. ft.) Btu) Btu) (million Btu) (million Btu) (dollars) (dollars) (dollars) (dollars) Total U.S. Households 11.2 9.4 26.0 80 29 67.1 26 723 0.26 607 236 Census Region and Division Northeast 7.1 5.4 16.8 111 36 84.7 33 992 0.32 757 297 New England 2.9 2.5 8.0 110 35 96.3 39 1,001 0.32 875 350 Middle Atlantic 4.2 2.8 8.8 112 36 76.6 30 984 0.32 675 260

323

Residential Buildings Historical Publications reports, data and housing  

Gasoline and Diesel Fuel Update (EIA)

0 0 Average Natural Gas Residential Buildings Consumption Expenditures per Total per Square per per per Total Total Floorspace Building Foot per Household per Square per Household Households Number (billion (million (thousand Household Member Building Foot Household Member Characteristics (million) (million) sq. ft.) Btu) Btu) (million Btu) (million Btu) (dollars) (dollars) (dollars) (dollars) Total U.S. Households 57.7 44.8 106.3 109 46 84.2 32 609 0.26 472 181 Census Region and Division Northeast 11.9 7.7 23.6 134 44 86.8 33 952 0.31 615 232 New England 2.0 1.1 3.5 146 45 76.0 29 1,135 0.35 592 227 Middle Atlantic 9.9 6.6 20.1 133 44 89.1 34 923 0.30 620 234

324

EIA - 2010 International Energy Outlook  

Gasoline and Diesel Fuel Update (EIA)

Analyses> International Energy Outlook 2010 - Highlights Analyses> International Energy Outlook 2010 - Highlights International Energy Outlook 2010 - Highlights print version PDF Logo World marketed energy consumption increases by 49 percent from 2007 to 2035 in the Reference case. Total energy demand in non-OECD countries increases by 84 percent, compared with an increase of 14 percent in OECD countries. In the IEO2010 Reference case, which does not include prospective legislation or policies, world marketed energy consumption grows by 49 percent from 2007 to 2035. Total world energy use rises from 495 quadrillion British thermal units (Btu) in 2007 to 590 quadrillion Btu in 2020 and 739 quadrillion Btu in 2035 (Figure 1). Figure 1. World marketed energy consumption, 2007-2035 (quadrillion Btu) Chart data

325

Residential Buildings Historical Publications reports, data and housing  

Gasoline and Diesel Fuel Update (EIA)

4 4 Average Natural Gas Residential Buildings Consumption Expenditures per Total per Square per per per Total Total Floorspace Building Foot per Household per Square per Household Households Number (billion (million (thousand Household Member Building Foot Household Member Characteristics (million) (million) sq. ft.) Btu) Btu) (million Btu) (million Btu) (dollars) (dollars) (dollars) (dollars) Total U.S. Households 55.4 41.3 93.2 121 53 89.9 33 722 0.32 537 198 Census Region and Division Northeast 11.7 7.5 21.1 125 44 79.2 30 925 0.33 588 221 New England 2.0 1.3 4.2 122 39 80.3 29 955 0.30 626 224 Middle Atlantic 9.7 6.1 16.9 125 45 78.9 30 919 0.33 580 220

326

Residential Buildings Historical Publications reports, data and housing  

Gasoline and Diesel Fuel Update (EIA)

1 1 Average LPG Residential Buildings Consumption Expenditures per Total per Square per per per Total Total Floorspace Building Foot per Household per Square per Household Households Number (billion (million (thousand Household Member Building Foot Household Member Characteristics (million) (million) sq. ft.) Btu) Btu) (million Btu) (million Btu) (dollars) (dollars) (dollars) (dollars) Total U.S. Households 7.3 7.2 12.2 44 26 42.8 15 389 0.23 382 133 Census Region and Division Northeast 1.2 1.1 2.7 29 11 26.2 9 318 0.13 288 94 New England 0.5 0.4 1.0 25 11 22.5 8 282 0.12 250 91 Middle Atlantic 0.7 0.7 1.7 31 12 28.6 9 341 0.13 312 96

327

Residential Buildings Historical Publications reports, data and housing  

Gasoline and Diesel Fuel Update (EIA)

7 7 Average Fuel Oil/Kerosene Residential Buildings Consumption Expenditures per Total per Square per per per Total Total Floorspace Building Foot per Household per Square per Household Households Number (billion (million (thousand Household Member Building Foot Household Member Characteristics (million) (million) sq. ft.) Btu) Btu) (million Btu) (million Btu) (dollars) (dollars) (dollars) (dollars) Total U.S. Households 17.4 14.0 33.3 87 37 70.3 27 513 0.22 414 156 Census Region and Division Northeast 9.1 6.3 17.8 140 49 96.0 37 808 0.28 556 212 New England 2.6 2.0 5.8 130 46 102.1 39 770 0.27 604 233 Middle Atlantic 6.5 4.2 12.1 144 51 93.6 36 826 0.29 537 204

328

PriceTechNotes2012.vp  

Gasoline and Diesel Fuel Update (EIA)

Data: Data: Prices and Expenditures 135 A P P E N D I X A Price and Expenditure Variables ARICD Asphalt and road oil price in the industrial Dollars per million Btu ARICDZZ is independent. sector. ARICDUS = ARICVUS / ARICBUS * 1000 ARICV Asphalt and road oil expenditures in the Million dollars ARICVZZ = ARICBZZ * ARICDZZ / 1000 industrial sector. ARICVUS = SARICVZZ ARTCD Asphalt and road oil average price, all sectors. Dollars per million Btu ARTCD = ARICD ARTCV Asphalt and road oil total expenditures. Million dollars ARTCV = ARICV ARTXD Asphalt and road oil average price, all end-use Dollars per million Btu ARTXD = ARTXV / ARTXB * 1000 sectors. ARTXV Asphalt and road oil total end-use expenditures. Million dollars ARTXV = ARICV AVACD Aviation gasoline price in the transportation Dollars per million Btu AVACDZZ is independent. sector. AVACDUS = AVACVUS / AVACBUS * 1000 AVACV Aviation gasoline expenditures

329

Residential Buildings Historical Publications reports, data and housing  

Gasoline and Diesel Fuel Update (EIA)

7 7 Average Electricity Residential Buildings Consumption Expenditures per Total per Square per per per Total Total Floorspace Building Foot per Household per Square per Household Households Number (billion (million (thousand Household Member Building Foot Household Member Characteristics (million) (million) sq. ft.) Btu) Btu) (million Btu) (million Btu) (dollars) (dollars) (dollars) (dollars) Total 90.5 70.4 156.8 39 18 30.5 12 875 0.39 680 262 Census Region and Division Northeast 19.0 13.2 36.8 34 12 23.3 9 934 0.34 648 251 New England 4.3 3.0 8.4 33 12 22.9 9 864 0.30 600 234 Middle Atlantic 14.8 10.2 28.4 34 12 23.4 9 954 0.34 661 256

330

Residential Buildings Historical Publications reports, data and housing  

Gasoline and Diesel Fuel Update (EIA)

2001 2001 Average Electricity Residential Buildings Consumption Expenditures per Total per Square per per per Total Total Floorspace Building Foot per Household per Square per Household Households Number (billion (million (thousand Household Member Building Foot Household Member Characteristics (million) (million) sq. ft.) Btu) Btu) (million Btu) (million Btu) (dollars) (dollars) (dollars) (dollars) Total 107.0 85.2 211.2 46 18 36.0 14 1,178 0.48 938 366 Census Region and Division Northeast 20.3 14.1 43.7 37 12 26.0 11 1,268 0.41 883 362 New England 5.4 4.1 13.2 32 10 24.0 10 1,121 0.35 852 358 Middle Atlantic 14.8 10.0 30.5 40 13 27.0 11 1,328 0.44 894 364

331

Residential Buildings Historical Publications reports, data and housing  

Gasoline and Diesel Fuel Update (EIA)

4 4 Average LPG Residential Buildings Consumption Expenditures per Total per Square per per per Total Total Floorspace Building Foot per Household per Square per Household Households Number (billion (million (thousand Household Member Building Foot Household Member Characteristics (million) (million) sq. ft.) Btu) Btu) (million Btu) (million Btu) (dollars) (dollars) (dollars) (dollars) Total U.S. Households 7.8 7.7 12.0 41 26 40.1 15 406 0.26 398 146 Census Region and Division Northeast 1.4 1.2 2.7 23 10 20.1 7 295 0.13 264 91 New England 0.5 0.4 1.0 31 14 27.6 9 370 0.17 330 114 Middle Atlantic 0.9 0.8 1.8 18 8 15.9 6 253 0.11 226 79

332

Residential Buildings Historical Publications reports, data and housing  

Gasoline and Diesel Fuel Update (EIA)

90 90 Average Fuel Oil/Kerosene Residential Buildings Consumption Expenditures per Total per Square per per per Total Total Floorspace Building Foot per Household per Square per Household Households Number (billion (million (thousand Household Member Building Foot Household Member Characteristics (million) (million) sq. ft.) Btu) Btu) (million Btu) (million Btu) (dollars) (dollars) (dollars) (dollars) Total U.S. Households 16.3 13.5 33.2 77 31 63.9 23 609 0.25 506 181 Census Region and Division Northeast 8.9 6.4 19.3 121 40 87.7 32 950 0.32 690 253 New England 2.5 2.1 5.9 121 43 99.0 39 956 0.34 784 307 Middle Atlantic 6.3 4.4 13.4 121 39 83.2 30 947 0.31 652 234

333

Residential Buildings Historical Publications reports, data and housing  

Gasoline and Diesel Fuel Update (EIA)

97 97 Average Electricity Residential Buildings Consumption Expenditures Total per Floor- per Square per per per Total Total space (1) Building Foot per Household per Square per Household Households Number (billion (million (thousand Household Member Building Foot Household Member Characteristics (million) (million) sq. ft.) Btu) Btu) (million Btu) (million Btu) (dollars) (dollars) (dollars) (dollars) Total 101.4 83.2 168.8 42 21 35.0 13 1,061 0.52 871 337 Census Region and Division Northeast 19.7 15.1 34.6 32 14 25.0 10 1,130 0.49 863 345 New England 5.3 4.2 9.3 31 14 24.0 9 1,081 0.49 854 336 Middle Atlantic 14.4 10.9 25.3 33 14 25.0 10 1,149 0.49 867 349

334

Residential Buildings Historical Publications reports, data and housing  

Gasoline and Diesel Fuel Update (EIA)

1 1 Average Fuel Oil/Kerosene Residential Buildings Consumption Expenditures per Total per Square per per per Total Total Floorspace Building Foot per Household per Square per Household Households Number (billion (million (thousand Household Member Building Foot Household Member Characteristics (million) (million) sq. ft.) Btu) Btu) (million Btu) (million Btu) (dollars) (dollars) (dollars) (dollars) Total U.S. Households 14.6 11.0 28.9 116 44 87.9 32 1,032 0.39 781 283 Census Region and Division Northeast 8.9 5.9 18.0 158 51 103.5 36 1,405 0.46 923 323 New England 2.4 1.7 5.1 148 50 105.3 36 1,332 0.45 946 327 Middle Atlantic 6.5 4.1 12.8 161 52 102.9 36 1,435 0.46 915 322

335

EIA - Annual Energy Outlook 2012 Early Release  

Gasoline and Diesel Fuel Update (EIA)

Consumption by Primary Fuel Consumption by Primary Fuel Total primary energy consumption, which was 101.4 quadrillion Btu in 2007, grows by 10 percent in the AEO2012 Reference case, from 98.2 quadrillion Btu in 2010 to 108.0 quadrillion Btu in 2035-6 quadrillion Btu less than the AEO2011 projection for 2035. The fossil fuel share of energy consumption falls from 83 percent of total U.S. energy demand in 2010 to 77 percent in 2035. Biofuel consumption has been growing and is expected to continue to grow over the projection period. However, the projected increase would present challenges, particularly for volumes of ethanol beyond the saturation level of the E10 gasoline pool. Those additional volumes are likely to be slower in reaching the market, as infrastructure and consumer demand adjust. In

336

Residential Buildings Historical Publications reports, data and housing  

Gasoline and Diesel Fuel Update (EIA)

0 0 Average Fuel Oil/Kerosene Residential Buildings Consumption Expenditures per Total per Square per per per Total Total Floorspace Building Foot per Household per Square per Household Households Number (billion (million (thousand Household Member Building Foot Household Member Characteristics (million) (million) sq. ft.) Btu) Btu) (million Btu) (million Btu) (dollars) (dollars) (dollars) (dollars) Total U.S. Households 15.4 11.6 29.7 131 51 99.0 36 1,053 0.41 795 287 Census Region and Division Northeast 9.2 6.0 18.2 176 59 116.2 42 1,419 0.47 934 335 New England 2.7 2.0 6.0 161 53 118.3 42 1,297 0.43 954 336 Middle Atlantic 6.5 4.1 12.2 184 61 115.3 42 1,478 0.49 926 335

337

Residential Buildings Historical Publications reports, data and housing  

Gasoline and Diesel Fuel Update (EIA)

1 1 Average Electricity Residential Buildings Consumption Expenditures per Total per Square per per per Total Total Floorspace Building Foot per Household per Square per Household Households Number (billion (million (thousand Household Member Building Foot Household Member Characteristics (million) (million) sq. ft.) Btu) Btu) (million Btu) (million Btu) (dollars) (dollars) (dollars) (dollars) Total 83.1 66.1 144.2 37 17 29.1 10 678 0.31 539 192 Census Region and Division Northeast 17.9 12.1 35.1 33 11 22.1 8 830 0.29 561 195 New England 4.3 2.9 8.3 31 11 21.3 8 776 0.27 531 189 Middle Atlantic 13.7 9.2 26.7 33 11 22.4 8 847 0.29 571 197

338

Residential Buildings Historical Publications reports, data and housing  

Gasoline and Diesel Fuel Update (EIA)

Natural Gas, 1997 Natural Gas, 1997 Average Natural Gas Residential Buildings Consumption Expenditures Total per Floor- per Square per per per Total Total space (1) Building Foot per Household per Square per Household Households Number (billion (million (thousand Household Member Building Foot Household Member Characteristics (million) (million) sq. ft.) Btu) Btu) (million Btu) (million Btu) (dollars) (dollars) (dollars) (dollars) Total U.S. Households 61.9 51.3 106.1 103 50 85.3 32 698 0.34 579 218 Census Region and Division Northeast 11.8 8.3 19.9 123 52 86.9 35 1,097 0.46 772 310 New England 1.9 1.4 3.3 123 50 87.0 32 1,158 0.48 819 301 Middle Atlantic 9.9 6.9 16.6 124 52 86.9 36 1,085 0.45 763 312

339

Residential Buildings Historical Publications reports, data and housing  

Gasoline and Diesel Fuel Update (EIA)

3 3 Average Electricity Residential Buildings Consumption Expenditures per Total per Square per per per Total Total Floorspace Building Foot per Household per Square per Household Households Number (billion (million (thousand Household Member Building Foot Household Member Characteristics (million) (million) sq. ft.) Btu) Btu) (million Btu) (million Btu) (dollars) (dollars) (dollars) (dollars) Total U.S. Households 96.6 76.4 181.2 43 18 34.0 13 1,061 0.45 840 321 Census Region and Division Northeast 19.5 13.8 40.1 34 12 24.1 9 1,144 0.39 809 309 New England 5.1 3.7 10.6 33 11 24.1 9 1,089 0.38 797 311 Middle Atlantic 14.4 10.1 29.4 35 12 24.2 9 1,165 0.40 814 309

340

Residential Buildings Historical Publications reports, data and housing  

Gasoline and Diesel Fuel Update (EIA)

7 7 Average Fuel Oil/Kerosene Residential Buildings Consumption Expenditures Total per Floor- per Square per per per Total Total space (1) Building Foot per Household per Square per Household Households Number (billion (million (thousand Household Member Building Foot Household Member Characteristics (million) (million) sq. ft.) Btu) Btu) (million Btu) (million Btu) (dollars) (dollars) (dollars) (dollars) Total U.S. Households 13.2 11.0 23.2 97 46 81.1 31 694 0.33 578 224 Census Region and Division Northeast 8.2 6.2 14.5 136 57 101.3 40 950 0.40 710 282 New England 3.1 2.7 5.8 126 60 111.5 45 902 0.43 797 321 Middle Atlantic 5.2 3.4 8.8 143 56 95.1 38 988 0.39 657 260

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


341

Table 1.1 First Use of Energy for All Purposes (Fuel and Nonfuel), 2010;  

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

1 First Use of Energy for All Purposes (Fuel and Nonfuel), 2010; 1 First Use of Energy for All Purposes (Fuel and Nonfuel), 2010; Level: National and Regional Data; Row: NAICS Codes; Column: Energy Sources and Shipments; Unit: Physical Units or Btu. Coke and Shipments Net Residual Distillate Natural Gas(e) LPG and Coal Breeze of Energy Sources NAICS Total(b) Electricity(c) Fuel Oil Fuel Oil(d) (billion NGL(f) (million (million Other(g) Produced Onsite(h) Code(a) Subsector and Industry (trillion Btu) (million kWh) (million bbl) (million bbl) cu ft) (million bbl) short tons) short tons) (trillion Btu) (trillion Btu) Total United States 311 Food 1,162 75,407 2 4 567 2 8 * 96 * 3112 Grain and Oilseed Milling 355 16,479 * * 119 Q 6 0 47 * 311221 Wet Corn Milling 215 7,467 * * 51 * 5 0 26 0 31131 Sugar Manufacturing

342

All Consumption Tables.vp  

Gasoline and Diesel Fuel Update (EIA)

6 6 State Energy Data 2011: Consumption Table C11. Energy Consumption by Source, Ranked by State, 2011 Rank Coal Natural Gas a Petroleum b Retail Electricity Sales State Trillion Btu State Trillion Btu State Trillion Btu State Trillion Btu 1 Texas 1,695.2 Texas 3,756.9 Texas 5,934.3 Texas 1,283.1 2 Indiana 1,333.4 California 2,196.6 California 3,511.4 California 893.7 3 Ohio 1,222.6 Louisiana 1,502.9 Louisiana 1,925.7 Florida 768.0 4 Pennsylvania 1,213.0 New York 1,246.9 Florida 1,680.3 Ohio 528.0 5 Illinois 1,052.2 Florida 1,236.6 New York 1,304.0 Pennsylvania 507.6 6 Kentucky 1,010.6 Pennsylvania 998.6 Pennsylvania 1,255.6 New York 491.5

343

EIA - Annual Energy Outlook 2013 Early Release  

Gasoline and Diesel Fuel Update (EIA)

Energy Consumption by Sector Energy Consumption by Sector Transportation figure data Delivered energy consumption in the transportation sector remains relatively constant at about 27 quadrillion Btu from 2011 to 2040 in the AEO2013 Reference case (Figure 6). Energy consumption by LDVs (including commercial light trucks) declines in the Reference case, from 16.1 quadrillion Btu in 2011 to 14.0 quadrillion Btu in 2025, due to incorporation of the model year 2017 to 2025 GHG and CAFE standards for LDVs. Despite the projected increase in LDV miles traveled, energy consumption for LDVs further decreases after 2025, to 13.0 quadrillion Btu in 2035, as a result of fuel economy improvements achieved through stock turnover as older, less efficient vehicles are replaced by newer, more fuel-efficient vehicles. Beyond 2035, LDV energy demand begins to level off

344

Total Energy - Data - U.S. Energy Information Administration (EIA)  

Gasoline and Diesel Fuel Update (EIA)

Total Energy Flow, (Quadrillion Btu) Total Energy Flow, (Quadrillion Btu) Total Energy Flow diagram image Footnotes: 1 Includes lease condensate. 2 Natural gas plant liquids. 3 Conventional hydroelectric power, biomass, geothermal, solar/photovoltaic, and wind. 4 Crude oil and petroleum products. Includes imports into the Strategic Petroleum Reserve. 5 Natural gas, coal, coal coke, biofuels, and electricity. 6 Adjustments, losses, and unaccounted for. 7 Natural gas only; excludes supplemental gaseous fuels. 8 Petroleum products, including natural gas plant liquids, and crude oil burned as fuel. 9 Includes 0.01 quadrillion Btu of coal coke net exports. 10 Includes 0.13 quadrillion Btu of electricity net imports. 11 Total energy consumption, which is the sum of primary energy consumption, electricity retail sales, and electrical system energy losses.

345

Residential Buildings Historical Publications reports, data and housing  

Gasoline and Diesel Fuel Update (EIA)

3 3 Average Fuel Oil/Kerosene Residential Buildings Consumption Expenditures per Total per Square per per per Total Total Floorspace Building Foot per Household per Square per Household Households Number (billion (million (thousand Household Member Building Foot Household Member Characteristics (million) (million) sq. ft.) Btu) Btu) (million Btu) (million Btu) (dollars) (dollars) (dollars) (dollars) Total U.S. Households 13.8 11.6 29.8 92 36 77.5 28 604 0.23 506 186 Census Region and Division Northeast 7.9 5.9 17.2 133 45 98.7 36 854 0.29 636 234 New England 2.8 2.4 6.6 125 45 105.6 40 819 0.30 691 262 Middle Atlantic 5.0 3.5 10.6 138 45 94.8 34 878 0.29 605 219

346

Residential Buildings Historical Publications reports, data and housing  

Gasoline and Diesel Fuel Update (EIA)

0 0 Average Electricity Residential Buildings Consumption Expenditures per Total per Square per per per Total Total Floorspace Building Foot per Household per Square per Household Households Number (billion (million (thousand Household Member Building Foot Household Member Characteristics (million) (million) sq. ft.) Btu) Btu) (million Btu) (million Btu) (dollars) (dollars) (dollars) (dollars) Total 81.6 65.3 142.5 38 17 30.3 11 625 0.29 500 178 Census Region and Division Northeast 17.7 12.2 34.8 33 12 23.0 8 742 0.26 514 181 New England 4.3 2.9 8.9 34 11 23.1 8 747 0.25 508 177 Middle Atlantic 13.4 9.3 26.0 33 12 22.9 8 740 0.27 516 183

347

Residential Buildings Historical Publications reports, data and housing  

Gasoline and Diesel Fuel Update (EIA)

2001 2001 Average Natural Gas Residential Buildings Consumption Expenditures per Total per Square per per per Total Total Floorspace Building Foot per Household per Square per Household Households Number (billion (million (thousand Household Member Building Foot Household Member Characteristics (million) (million) sq. ft.) Btu) Btu) (million Btu) (million Btu) (dollars) (dollars) (dollars) (dollars) Total U.S. Households 66.9 53.8 137.2 90 35 72.4 27 873 0.34 702 265 Census Region and Division Northeast 12.5 7.8 25.4 126 39 78.3 33 1,434 0.44 889 372 New England 2.3 1.5 5.5 128 34 82.5 35 1,567 0.42 1,014 428 Middle Atlantic 10.3 6.3 19.9 126 40 77.4 32 1,403 0.45 861 360

348

Residential Buildings Historical Publications reports, data and housing  

Gasoline and Diesel Fuel Update (EIA)

4 4 Average Fuel Oil/Kerosene Residential Buildings Consumption Expenditures per Total per Square per per per Total Total Floorspace Building Foot per Household per Square per Household Households Number (billion (million (thousand Household Member Building Foot Household Member Characteristics (million) (million) sq. ft.) Btu) Btu) (million Btu) (million Btu) (dollars) (dollars) (dollars) (dollars) Total U.S. Households 17.5 13.8 32.0 91 39 71.9 27 697 0.30 550 203 Census Region and Division Northeast 9.5 6.6 18.2 141 51 97.3 35 1,066 0.38 734 266 New England 2.5 1.9 5.6 140 49 108.8 39 1,105 0.38 856 306 Middle Atlantic 7.0 4.6 12.6 142 52 93.2 34 1,050 0.38 690 252

349

Residential Buildings Historical Publications reports, data and housing  

Gasoline and Diesel Fuel Update (EIA)

Natural Gas, 1980 Natural Gas, 1980 Average Natural Gas Residential Buildings Consumption Expenditures per Total per Square per per per Total Total Floorspace Building Foot per Household per Square per Household Households Number (billion (million (thousand Household Member Building Foot Household Member Characteristics (million) (million) sq. ft.) Btu) Btu) (million Btu) (million Btu) (dollars) (dollars) (dollars) (dollars) Total U.S. Households 51.6 39.7 88.5 125 56 96.2 34 497 0.22 383 137 Census Region and Division Northeast 10.9 6.5 18.8 144 50 86.6 31 771 0.27 463 168 New England 1.9 0.9 3.1 162 47 78.9 28 971 0.28 472 169 Middle Atlantic 9.0 5.6 15.7 141 51 88.1 32 739 0.27 461 168

350

Army Energy Initiatives Task Force  

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

UNCLASSIFIED UNCLASSIFIED Army Energy Initiatives Task Force Kathy Ahsing Director, Planning and Development UNCLASSIFIED 2 Perfect Storm UNCLASSIFIED 3 U.S. Army Energy Consumption, 2010 23% 77% 42% 58%  Facilities  Vehicles & Equipment (Tactical and Non-tactical) Sources: Energy Information Agency, 2010 Annual Energy Review; Agency Annual Energy Management Data Reports submitted to DOE's Federal Energy Management Program (Preliminary FY 2010) 32% 68% DoD 80% Army 21% Federal Gov 1% Federal Government United States Department of Defense U.S. = 98,079 Trillion Btu DoD = 889 Trillion Btu Fed Gov = 1,108 Trillion Btu U.S. Army = 189 Trillion Btu FY10 Highlights - $2.5+B Operational Energy Costs - $1.2 B Facility Energy Costs

351

Carbon Emissions: Paper Industry  

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

Paper Industry Paper Industry Carbon Emissions in the Paper Industry The Industry at a Glance, 1994 (SIC Code: 26) Total Energy-Related Emissions: 31.6 million metric tons of carbon (MMTC) -- Pct. of All Manufacturers: 8.5% Total First Use of Energy: 2,665 trillion Btu -- Pct. of All Manufacturers: 12.3% -- Pct. Renewable Energy: 47.7% Carbon Intensity: 11.88 MMTC per quadrillion Btu Renewable Energy Sources (no net emissions): -- Pulping liquor: 882 trillion Btu -- Wood chips and bark: 389 trillion Btu Energy Information Administration, "1994 Manufacturing Energy Consumption Survey" and Emissions of Greenhouse Gases in the United States 1998 Energy-Related Carbon Emissions, 1994 Source of Carbon Carbon Emissions (million metric tons) All Energy Sources 31.6 Net Electricity 11.0

352

EIA - Annual Energy Outlook 2008 (Early Release)-Energy-Energy Consumption  

Gasoline and Diesel Fuel Update (EIA)

Consumption Consumption Annual Energy Outlook 2008 (Early Release) Energy Consumption Total primary energy consumption in the AEO2008 reference case increases at an average rate of 0.9 percent per year, from 100.0 quadrillion Btu in 2006 to 123.8 quadrillion Btu in 2030—7.4 quadrillion Btu less than in the AEO2007 reference case. In 2030, the levels of consumption projected for liquid fuels, natural gas, and coal are all lower in the AEO2008 reference case than in the AEO2007 reference case. Among the most important factors resulting in lower total energy demand in the AEO2008 reference case are lower economic growth, higher energy prices, greater use of more efficient appliances, and slower growth in energy-intensive industries. Figure 2. Delivered energy consumption by sector, 1980-2030 (quadrillion Btu). Need help, contact the National Energy Information Center at 202-586-8800.

353

Residential Buildings Historical Publications reports, data and housing  

Gasoline and Diesel Fuel Update (EIA)

2001 2001 Average LPG Residential Buildings Consumption Expenditures per Total per Square per per per Total Total Floorspace Building Foot per Household per Square per Household Households Number (billion (million (thousand Household Member Building Foot Household Member Characteristics (million) (million) sq. ft.) Btu) Btu) (million Btu) (million Btu) (dollars) (dollars) (dollars) (dollars) Total U.S. Households 9.4 9.2 19.6 41 19 40.2 16 607 0.29 598 231 Census Region and Division Northeast 1.7 1.7 4.5 31 11 29.8 11 538 0.20 519 186 New England 0.7 0.7 2.2 34 11 33.1 12 580 0.19 569 209 Middle Atlantic 1.0 0.9 2.4 29 11 27.4 10 506 0.20 482 169

354

Residential Buildings Historical Publications reports, data and housing  

Gasoline and Diesel Fuel Update (EIA)

2 2 Average Natural Gas Residential Buildings Consumption Expenditures per Total per Square per per per Total Total Floorspace Building Foot per Household per Square per Household Households Number (billion (million (thousand Household Member Building Foot Household Member Characteristics (million) (million) sq. ft.) Btu) Btu) (million Btu) (million Btu) (dollars) (dollars) (dollars) (dollars) Total U.S. Households 54.2 41.0 91.8 116 52 87.6 32 658 0.29 498 183 Census Region and Division Northeast 11.6 7.3 21.1 132 46 82.6 31 951 0.33 598 221 New England 2.0 1.3 4.5 126 35 77.9 28 1,062 0.30 658 235 Middle Atlantic 9.6 6.0 16.5 133 49 83.6 31 928 0.34 585 217

355

PriceTechNotes2011.vp  

Gasoline and Diesel Fuel Update (EIA)

Data Data 2011: Prices and Expenditures 135 A P P E N D I X A Price and Expenditure Variables ARICD Asphalt and road oil price in the industrial Dollars per million Btu ARICDZZ is independent. sector. ARICDUS = ARICVUS / ARICBUS * 1000 ARICV Asphalt and road oil expenditures in the Million dollars ARICVZZ = ARICBZZ * ARICDZZ / 1000 industrial sector. ARICVUS = SARICVZZ ARTCD Asphalt and road oil average price, all sectors. Dollars per million Btu ARTCD = ARICD ARTCV Asphalt and road oil total expenditures. Million dollars ARTCV = ARICV ARTXD Asphalt and road oil average price, all end-use Dollars per million Btu ARTXD = ARTXV / ARTXB * 1000 sectors. ARTXV Asphalt and road oil total end-use expenditures. Million dollars ARTXV = ARICV AVACD Aviation gasoline price in the transportation Dollars per million Btu AVACDZZ is independent. sector. AVACDUS = AVACVUS / AVACBUS * 1000 AVACV Aviation gasoline

356

ANALYSIS OF THE CALIFORNIA ENERGY INDUSTRY  

E-Print Network (OSTI)

Al MUilE 16 MMTIVl COAL GASIFICATION - HIGH STU 1250 MMCF/Olfacilities, particularly coal gasification plants,coal-fired5 5T/yr ore) Coal Gasification (Hi BTU (80Xl0 9 ft 3/yr)

Authors, Various

2010-01-01T23:59:59.000Z

357

Addressing the problem with natural ventilation : producing a guide for designers to integrate natural ventilation into the early stages of building design  

E-Print Network (OSTI)

Currently, the United States alone is responsible for approximately twenty percent of the world's total energy consumption. This consumption is equivalent to roughly 100 quadrillion Btu of energy, or in plainer terms, over ...

Fennessy, Kristian (Kristian M.)

2014-01-01T23:59:59.000Z

358

Reduction of Water Consumption  

E-Print Network (OSTI)

Cooling systems using water evaporation to dissipate waste heat, will require one pound of water per 1,000 Btu. To reduce water consumption, a combination of "DRY" and "WET" cooling elements is the only practical answer. This paper reviews...

Adler, J.

359

Buildings Energy Data Book: 4.1 Federal Buildings Energy Consumption  

Buildings Energy Data Book (EERE)

1 FY 2007 Federal Primary Energy Consumption (Quadrillion Btu) Buildings and Facilities 0.88 VehiclesEquipment 0.69 (mostly jet fuel and diesel) Total Federal Government...

360

--No Title--  

Buildings Energy Data Book (EERE)

1 FY 2007 Federal Primary Energy Consumption (Quadrillion Btu) Buildings and Facilities 0.88 VehiclesEquipment 0.69 (mostly jet fuel and diesel) Total Federal Government...

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


361

Word Pro - S2  

Gasoline and Diesel Fuel Update (EIA)

2.1 Energy Consumption by Sector (Quadrillion Btu) Total Consumption by End-Use Sector, 1949-2013 Total Consumption by End-Use Sector, Monthly By Sector, September 2014 22 U.S....

362

Federal Energy and Water Management Awards 2014  

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

in 2013 alone-with an estimated annual energy savings of 590 billion Btu, or 10.5% of FY 2013 annual energy consumption. His use of alternative financing to implement medium and...

363

On Methods for the Large-Scale Production of Hydrogen from Water  

Science Journals Connector (OSTI)

Off-peak power would give sufficiently cheap hydrogen with classical electrolyzers. Emerging technology could produce it at between $0.85 and $2.90 (106 Btu)-1 for electricity costs (bulk purchase) between 2 and ...

J. OM. Bockris

1975-01-01T23:59:59.000Z

364

Coal/biomass gasifier lab tests are a success  

Science Journals Connector (OSTI)

Coal/biomass gasifier lab tests are a success ... The process produces a medium-Btu gas from a mixture of coal, municipal solid waste, and dewatered sewage sludge. ...

1980-02-25T23:59:59.000Z

365

Federal Energy and Water Management Awards 2014  

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

to reduce energy use by 9.8 billion Btu and energy costs by more than 141,000 per year. Water savings are estimated at 62,000 gallons per year. The building design surpassed the...

366

USA Energy Demand and World Markets  

Science Journals Connector (OSTI)

In the AEO95 model reference case scenario, the United States is projected to consume 104 quadrillion Btu of primary energy resources in 2010, 19 percent more than in 1993. Primary energy consumption includes ...

Charles E. Brown Ph.D.

2002-01-01T23:59:59.000Z

367

Wisconsin Save Energy Now Program  

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

Among Wisconsins economic sectors, the industrial sector represents the highest level of energy consumption. In 2007, this sector consumed approximately 623.5 trillion British thermal units (Btu)....

368

Better Buildings Federal Award  

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

The Better Buildings Federal Award recognizes the Federal Government's highest-performing buildings through a competition to reduce annual energy use intensity (Btu per square foot of facility space) on a year-over-year basis.

369

Calendar Year 2007 Program Benefits for U.S. EPA Energy Star Labeled Products: Expanded Methodology  

E-Print Network (OSTI)

for U.S. EPA Energy Star. AHAM. 2003. Energy ConsumptionScottsdale, Arizona: In-Stat. AHAM (Association of HomeAcronyms and Abbreviations AFUE AHAM ASHP ASHRAE REF UEC Btu

Sanchez, Marla

2010-01-01T23:59:59.000Z

370

ITP Chemicals: Chemical Bandwidth Study - Energy Analysis: A...  

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

TBtu Fuel Oil & LPG 65 TBtu Coal 294 TBtu Other 408 TBtu Electricity 508 TBtu Natural Gas 1698 TBtu T otal Feedstock Energy 3342 T Btu Natural Gas 561 TBtu Heavy Liquids 1390...

371

CONTROL STRATEGIES FOR ABANDONED IN-SITU OIL SHALE RETORTS  

E-Print Network (OSTI)

recovery Vent gas '\\Raw shale oil Recycled gas compressorThis process produces shale oil, a low BTU gas, and char,Oil Shale Process" in Oil Shale and Tar Sands, J. W. Smith

Persoff, P.

2011-01-01T23:59:59.000Z

372

Energy Analysis and Diagnostics: A Computer Based Tool for Industrial Self Assessment  

E-Print Network (OSTI)

each BTU of energy produced. This paper describes the design and development of a computer based tool (ENERGEX) which aids the industrial user in developing energy conservation opportunities (ECOs) in plants. The software system is capable...

Gopalakrishnan, B.; Plummer, R. W.; Nagarajan, S.; Kolluri, R.

373

Feasibility of Achieving a Zero-Net-Energy, Zero-Net-Cost Homes  

E-Print Network (OSTI)

9000BTUDaikingMicro?SplitHeatpumpsystemwithtwoSizingStorageandHeatPump (withTank)WaterHeaters." the useofageothermalheatpump,aretheonlymeasures

Al-Beaini, S.

2010-01-01T23:59:59.000Z

374

Table 6. Electric Power Delivered Fuel Prices and Quality for...  

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

2003, 2002, 2001, 2000, 1999, 1998, 1997, 1996, 1995, 1994, 1993, 1992, 1991, 1990 "Coal (dollars per million Btu)",0,2.71,2.95,2.55,2.51,,, "Average heat value...

375

Table 6. Electric Power Delivered Fuel Prices and Quality for...  

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

2003, 2002, 2001, 2000, 1999, 1998, 1997, 1996, 1995, 1994, 1993, 1992, 1991, 1990 "Coal (dollars per million Btu)",0,1.73,1.48,1.41,2.03,,, "Average heat value...

376

E-Print Network 3.0 - actuator ball bearings Sample Search Results  

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

in Figure 4, a BTU involves a large load-bearing ball supported by many small... with paint, while nonreflecting balls made out of nylon ... Source: Cooperstock, Jeremy R. -...

377

table_11b.xls  

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

b. Coal Prices to Electric Generating Plants, Projected vs. Actual Projected Price in Nominal Dollars nominal dollars per million Btu 1993 1994 1995 1996 1997 1998 1999 2000 2001...

378

CASE STUDY OF KRESGE FOUNDATION OFFICE COMPLEX  

E-Print Network (OSTI)

sourceenergyuseintensity(EUI)asthemetricfor theSTARscoreof40. TheEUIandENERGYSTARratingsforkWh) ENERGYSTARsiteEUI(kBtu/ft /yr) ENERGYSTAR

Goins, John

2011-01-01T23:59:59.000Z

379

Building Performance Simulation  

E-Print Network (OSTI)

low energy buildings, with site EUI of 40 or lowerbuildings in the US (EUI of 90 kBtu/ft). Thisthe bubble represents the EUI. These buildings were

Hong, Tianzhen

2014-01-01T23:59:59.000Z

380

Assessment of Energy Impact of Window Technologies for Commercial Buildings  

E-Print Network (OSTI)

Energy Usage Intensity (EUI) of commercial buildings showednatural gas. The site energy EUI listed in Table 15 to Tableis calculated as, Site Energy EUI (kBtu/ft) = Site Energy (

Hong, Tianzhen

2014-01-01T23:59:59.000Z

Note: This page contains sample records for the topic "btl biomass-to-liquids btu" 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

Evaluating the energy performance of the first generation of LEED-certified commercial buildings  

E-Print Network (OSTI)

modeled energy use intensity (EUI), which is the energy usefor the modeled whole-building EUI is 111 kBtu/ft2 -yr. Theis excluded). The mean EUI based on the energy bills is 124

Diamond, Rick

2011-01-01T23:59:59.000Z

382

Simulation of energy performance of underfloor air distribution (UFAD) systems  

E-Print Network (OSTI)

13 Table 7. Summary of UFAD HVAC EUI and percen tagethe HVAC component energy use intensity (EUI) results. Theis site-based annual HVAC EUI (kBtu/ft 2 /yr). Two baseline

2009-01-01T23:59:59.000Z

383

Case study of Kresge Foundation office complex.  

E-Print Network (OSTI)

sourceenergyuseintensity(EUI)asthemetricfor theSTARscoreof40. TheEUIandENERGYSTARratingsforkWh) ENERGYSTARsiteEUI(kBtu/ft /yr) ENERGYSTAR

Goins, John

2011-01-01T23:59:59.000Z

384

Annual Energy Review 1997  

Annual Energy Outlook 2012 (EIA)

in quadrillion Btu, 0.16 net imported electricity from nonrenewable sources; -0.04 hydroelectric pumped storage; and -0.10 ethanol blended into motor gasoline, which is accounted...

385

Annual Energy Review 1999  

Gasoline and Diesel Fuel Update (EIA)

in quadrillion Btu, 0.11 net imported electricity from nonrenewable sources; -0.06 hydroelectric pumped storage; and -0.11 ethanol blended into motor gasoline, which is accounted...

386

Annual Energy Review 1998  

Annual Energy Outlook 2012 (EIA)

in uadrillion Btu, 0.09 net imported electricity from nonrenewable sources -0.05 hydroelectric pumped storage and -0.11 ethanol blended into motor gasoline, which is accounted...

387

Energy Information Administration/Annual Energy Review  

Annual Energy Outlook 2012 (EIA)

0.05 electricity net imports from fossil fuels. Includes, in quadrillion Btu, -0.09 hydroelectric pumped storage and -0.15 ethanol blended into motor gasoline, which is accounted...

388

Annual Energy Review 2000  

Gasoline and Diesel Fuel Update (EIA)

Includes, in quadrillion Btu, 0.10 electricity net imports from fossil fuels; -0.06 hydroelectric pumped storage; and -0.14 ethanol blended into motor gasoline, which is accounted...

389

Transportation Energy Futures  

E-Print Network (OSTI)

diesel-powered trucks consumeonly about 2 of the 15 quadril- lion BtusDiesel Methanol/ethanol Ethanol Ethanol Hydrogen $ per physical gallon 0.80-I.10 $ per million Btu

Sperling, Daniel

1989-01-01T23:59:59.000Z

390

Public Health Benefits of End-Use Electrical Energy Efficiency in California: An Exploratory Study  

E-Print Network (OSTI)

Cogen Cogen Natural Gas Landfill Gas Tulare Tulare Woodwasteand wood waste, landfill gas, and mlmicipal solid waste andscf digester gas, or Btu/ scf landfill gas. HVs are given in

McKone, Thomas E.

2011-01-01T23:59:59.000Z

391

Table 6. Electric Power Delivered Fuel Prices and Quality for...  

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

"Average heat value (Btu per pound)",9513,9731,9753,9751,9902,9920,9975,10021,9967,10123,10255,10235,10425,10487,10563,10566,10504,10677,10925,10853,10995,1105...

392

Analysis of Gasifier Samples Collected with a High-Temperature/High-Pressure Cascade Impactor: Electron Spectroscopy for Chemical Analysis, Energy Dispersive X-Ray Analysis, and Scanning Electron Microscopy  

Science Journals Connector (OSTI)

A particulate sample was collected from the process stream of a low Btu gasifier in a cascade impactor operated at 400C and 1012 atmospheres pressure. Stainless steel shim stock...

Rothenberg, S J; Brundle, C R; Denee, P B; Carpenter, R L; Newton, G J; Henderson, R F

1984-01-01T23:59:59.000Z

393

ENERGY AND ENVIRONMENT DIVISION ANNUAL REPORT 1978  

E-Print Network (OSTI)

wt. %) from the oil shale to the water, gas and oil are Cd,waters, oils and gases from in situ oil shale processes andretorting produces shale oil, a low BTU gas, a sol'id waste

Cairns, E.L.

2011-01-01T23:59:59.000Z

394

How Much Energy Does Each State Produce? | Department of Energy  

Office of Environmental Management (EM)

Much Energy Does Each State Produce? How Much Energy Does Each State Produce? Energy Production in Trillion Btu: 2012 Click on each state to learn more about how much energy it...

395

Trends in Supercritical Fluid Chromatography: 1997  

Science Journals Connector (OSTI)

......chromatographic data for HPLC and...disposal is combustion in large scale...produce less heat (less than 3000 Btu/lb) upon combustion, the resulting...polyaromatic hydrocarbons (PAHs) decreased...column. These combustion products then......

Larry T. Taylor

1997-08-01T23:59:59.000Z

396

Experimental and Simulation Study of Fluidization Behavior of Palm Biomass in a Circulating Fluidized Bed Riser  

Science Journals Connector (OSTI)

? Department of Chemical Engineering, Higher Technological Institute, Tenth of Ramdan City, Egypt ... Compared with the other renewable energy resources, biomass is abundant in annual production, up to 2740 quads (1 quad = 1015 Btu), with geographically widespread distribution in the world. ...

Ahmad Hussain; Iqbal Ahmed; Hani Hussain Sait; Mohamed Ismail Bassyouni; Abdelkarim Morsy Hegab; Syed Waheed ul Hasan; Farid Nasir Ani

2013-11-15T23:59:59.000Z

397

Alternative Fuels Data Center  

Alternative Fuels and Advanced Vehicles Data Center (EERE)

CNG is equal to 5.66 pounds, 126.67 standard cubic feet, or an amount of CNG that has an energy content of 114,100 British Thermal Units (BTU). Liquefied natural gas (LNG) used in...

398

Annual Report to Congress on Federal Government Energy Management...  

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

at www.eere.energy.govindustry. A-1 APPENDIX A DATA TABLES A-2 TABLE 1-A TOTAL PRIMARY ENERGY CONSUMPTION BY FEDERAL AGENCIES (In Billions of Btu, with Conversions to Millions...

399

Annual Report to Congress on Federal Government Energy Management...  

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

at www.eere.energy.govindustry. 15 APPENDIX A DATA TABLES A-1 TABLE 1-A TOTAL PRIMARY ENERGY CONSUMPTION BY FEDERAL AGENCIES (In Billions of Btu, with Conversions to Millions...

400

Microsoft PowerPoint - Teacher workshop Feb 20 2012 Reifsnider...  

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

2 Food consumption rate per capita U.S. 10 2 Electric razor 10 1 Energy Unit Equivalent Energy Conversions Personal Power 1 Btu 1055 joules or 778 ft-lb or 252 cal 1 calorie...

Note: This page contains sample records for the topic "btl biomass-to-liquids btu" 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

Generic copy of DOEs IDIQ ESPC contract  

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

electric demand savings (kWyr) is the sum of the monthly demand savings 4) Energy conversion factors for MBtu: MBtu10 6 Btu; Electricity - 0.003413 MBtukWh; Natural Gas - 0.1...

402

Fuel Ethanol from Cellulosic Biomass  

Science Journals Connector (OSTI)

...impacts as well, which include engine performance, infrastructure...Comparative automotive engine operation when fueled with...biomass with 50% moisture by diesel truck requiring 2000 Btu per...actively studied because of its fundamental interest and applications...

LEE R. LYND; JANET H. CUSHMAN; ROBERTA J. NICHOLS; CHARLES E. WYMAN

1991-03-15T23:59:59.000Z

403

Swimming Pool Covers | Department of Energy  

Energy Savers (EERE)

1 degree, but each pound of 80F water that evaporates takes a whopping 1,048 Btu of heat out of the pool. This pie chart shows outdoor pool energy loss characteristics:...

404

U.S. Department of Energy U.S. Energy...  

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

report year's response, explain the change in short tons Part 6 What is the average heat (Btu) content for all coal mined at this mine during the reporting year? Btulb....

405

Fact #792: August 12, 2013 Energy Consumption by Sector and Energy Source, 1982 and 2012  

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

In the last 30 years, overall energy consumption has grown by about 22 quadrillion Btu. The share of energy consumption by the transportation sector has seen modest growth in that time from about...

406

Economics of Plant Energy Savings Projects in a Changing Market  

E-Print Network (OSTI)

Energy prices have exhibited significant volatility in recent years. For example, natural gas prices ranged from $4 to $15 per MM BTU's in calendar years 2005 through 2011. Future prices are uncertain but are likely to retain a high level...

White, D. C.

2011-01-01T23:59:59.000Z

407

Word Pro - Untitled1  

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

Btu) Year Primary Energy 2 Electric Power Sector 11,12 Retail Electricity 13 Total Energy 9,10,14 Coal Natural Gas 3 Petroleum Nuclear Fuel Biomass 8 Total 9,10 Distillate...

408

Word Pro - Untitled1  

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

Selected Years, 1949-2011 (Sum of Tables 8.4b and 8.4c; Trillion Btu) Year Fossil Fuels Nuclear Electric Power 5 Renewable Energy Other 9 Electricity Net Imports 10 Total Coal 1...

409

Faroe Islands: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

"inlineLabel":"","visitedicon":"" Country Profile Name Faroe Islands Population 48,351 GDP 2,450,000,000 Energy Consumption 0.01 Quadrillion Btu 2-letter ISO code FO 3-letter...

410

Monaco: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

up":"","inlineLabel":"","visitedicon":"" Country Profile Name Monaco Population 35,352 GDP 5,424,000,000 Energy Consumption Quadrillion Btu 2-letter ISO code MC 3-letter ISO...

411

American Samoa: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

inlineLabel":"","visitedicon":"" Country Profile Name American Samoa Population 55,519 GDP Unavailable Energy Consumption 0.01 Quadrillion Btu 2-letter ISO code AS 3-letter ISO...

412

Report: An Updated Annual Energy Outlook 2009 Reference Case...  

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

4288.022461,4495.833008,4718.956055 "Energy Intensity" " (thousand Btu per 2000 dollar of GDP)" " Delivered Energy",6.45164299,6.422497749,6.280744553,6.26495409,6.143614769,6.0102...

413

Report: An Updated Annual Energy Outlook 2009 Reference Case...  

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

4369.788574,4597.428223,4843.846191 "Energy Intensity" " (thousand Btu per 2000 dollar of GDP)" " Delivered Energy",6.45164299,6.422497749,6.283946991,6.304526806,6.22622776,6.0826...

414

Microsoft PowerPoint - IEMTF FY13 Govt Progress 2014-05-22.pptx  

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

Energy Management Program U.S. Department of Energy 2 Key Findings for FY 2013 * Facility energy intensity fell short of the 24% goal with a 20.6% reduction from FY03; BtuSqft...

415

Better Buildings Federal Award | Department of Energy  

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

Federal Government's highest-performing buildings through a competition to reduce annual energy use intensity (Btu per square foot of facility space) on a year-over-year basis....

416

Energy Information Administration - Commercial Energy Consumption...  

Annual Energy Outlook 2012 (EIA)

A. Consumption and Gross Energy Intensity by Census Region for Sum of Major Fuels for All Buildings, 2003 Sum of Major Fuel Consumption (trillion Btu) Total Floorspace of Buildings...

417

Better Buildings Federal Award 2013 Guidelines for Entering ...  

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

Federal Government's highest-performing buildings through a competition to reduce annual energy intensity (Btu per square foot of facility space) on a year-over-year basis. The...

418

Energy Information Administration - Commercial Energy Consumption...  

Annual Energy Outlook 2012 (EIA)

C7A. Consumption and Gross Energy Intensity by Census Division for Sum of Major Fuels for All Buildings, 2003: Part 1 Sum of Major Fuel Consumption (trillion Btu) Total Floorspace...

419

Better Buildings Federal Award 2012 Competition | Department...  

Office of Environmental Management (EM)

Federal Government's highest-performing buildings through a competition to reduce annual energy use intensity (Btu per square foot of facility space) on a year-over-year basis....

420

Energy Information Administration - Commercial Energy Consumption...  

Annual Energy Outlook 2012 (EIA)

. Consumption and Gross Energy Intensity by Census Region for Sum of Major Fuels for Non-Mall Buildings, 2003 Sum of Major Fuel Consumption (trillion Btu) Total Floorspace of...

Note: This page contains sample records for the topic "btl biomass-to-liquids btu" 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

Better Buildings Federal Award 2013 Competition | Department...  

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

Federal Government's highest-performing buildings through a competition to reduce annual energy use intensity (Btu per square foot of facility space) on a year-over-year basis....

422

Energy Information Administration - Commercial Energy Consumption...  

Gasoline and Diesel Fuel Update (EIA)

A. Consumption and Gross Energy Intensity by Census Division for Sum of Major Fuels for All Buildings, 2003: Part 3 Sum of Major Fuel Consumption (trillion Btu) Total Floorspace of...

423

Energy Information Administration - Commercial Energy Consumption...  

Annual Energy Outlook 2012 (EIA)

. Consumption and Gross Energy Intensity by Year Constructed for Sum of Major Fuels for Non-Mall Buildings, 2003 Sum of Major Fuel Consumption (trillion Btu) Total Floorspace of...

424

Energy Information Administration - Commercial Energy Consumption...  

Gasoline and Diesel Fuel Update (EIA)

Table C8A. Consumption and Gross Energy Intensity by Census Division for Sum of Major Fuels for All Buildings, 2003: Part 2 Sum of Major Fuel Consumption (trillion Btu) Total...

425

Analysis of the Energy Intensity of Industries in California  

E-Print Network (OSTI)

the aggregate energy-intensity of industry. Applied Energyindustries with final energy intensities of 12.3 Billion BtuAs mentioned, the energy intensity of this sector is much

Can, Stephane de la Rue du

2014-01-01T23:59:59.000Z

426

Window-Related Energy Consumption in the US Residential and Commercial Building Stock  

E-Print Network (OSTI)

BTU/yr) Non. Wind Infilt SHGC Wind. Solar Wind. Cond InfiltU Factor Other Loads SHGC Window Solar Cond Infiltrationof average U-factor and SHGC for current window sales. We

Apte, Joshua; Arasteh, Dariush

2008-01-01T23:59:59.000Z

427

Simulation of radiant cooling performance with evaporative cooling sources  

E-Print Network (OSTI)

a trade-off between cooling power and faster reaction time,a trade-off between cooling power and faster reaction time,derived potential peak cooling power of 77 W/m 2 (24 Btu/hr-

Moore, Timothy

2008-01-01T23:59:59.000Z

428

Word Pro - Untitled1  

Annual Energy Outlook 2012 (EIA)

Btu) Overview, 1949-2013 Overview, Monthly Overview, July 2014 Net Imports, January-July Web Page: http:www.eia.govtotalenergydatamonthlysummary. Source: Table 1.1. 2 U.S....

429

Monthly Energy Review - September 2014  

Gasoline and Diesel Fuel Update (EIA)

Btu) Overview, 1949-2013 Overview, Monthly Overview, June 2014 Net Imports, January-June Web Page: http:www.eia.govtotalenergydatamonthlysummary. Source: Table 1.1. 2 U.S....

430

Monthly Energy Review - August 2014  

Gasoline and Diesel Fuel Update (EIA)

Btu) Overview, 1949-2013 Overview, Monthly Overview, May 2014 Net Imports, January-May Web Page: http:www.eia.govtotalenergydatamonthlysummary. Source: Table 1.1. 2 U.S....

431

Buildings Energy Data Book: 4.1 Federal Buildings Energy Consumption  

Buildings Energy Data Book (EERE)

4 Federal Agency Progress Toward the Renewable Energy Goal (Trillion Btu) (1) Total Renewable Energy Usage DOD EPA (2) DOE GSA NASA DOI Others All Agencies Note(s): Source(s):...

432

Buildings Energy Data Book: 4.1 Federal Buildings Energy Consumption  

Buildings Energy Data Book (EERE)

2 FY 2007 Federal Building Energy Use Shares, by Fuel Type and Agency Site Primary | Primary | FY 2007 Fuel Type Percent Percent | Agency Percent | (1015 Btu) Electricity 49.4%...

433

Using Post-Occupancy Evaluation to Inform Design and Improve Performance  

E-Print Network (OSTI)

p p ro a c h e s t o p e rf o rm a n c e actual performance lighting 0 20 40 60 80 100 Gloria Marshall ES Garrett ES York ES * highest rating in SHW study * Re-site Partial re-site New design %age satisfaction rate ESL-KT-13-12-15 CATEE 2013...: Clean Air Through Energy Efficiency Conference, San Antonio, Texas Dec. 16-18 0 5 10 15 20 25 30 35 Gloria Marshall ES Garrett ES York ES Actual 25.2 kBTU/sqft/yr Predicted 18.4 kBTU/sqft/yr Actual 23.9 kBTU/sqft/yr Predicted 32.3 kBTU/sqft/yr No energy...

Langer, S.

2013-01-01T23:59:59.000Z

434

Residential Buildings Historical Publications reports, data and housing  

Gasoline and Diesel Fuel Update (EIA)

2 2 Average Fuel Oil/Kerosene Residential Buildings Consumption Expenditures per Total per Square per per per Total Total Floorspace Building Foot per Household per Square per Household Households Number (billion (million (thousand Household Member Building Foot Household Member Characteristics (million) (million) sq. ft.) Btu) Btu) (million Btu) (million Btu) (dollars) (dollars) (dollars) (dollars) Total U.S. Households 15.5 12.2 30.0 98 40 77.1 27 829 0.34 650 231 Census Region and Division Northeast 8.8 6.0 17.4 138 48 94.5 34 1,163 0.40 796 283 New England 2.5 1.9 5.9 131 43 101.9 36 1,106 0.36 863 309 Middle Atlantic 6.3 4.1 11.5 142 50 91.5 32 1,191 0.42 769 272

435

Questar Gas - Commercial Energy Efficiency Rebate Program | Department of  

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

Questar Gas - Commercial Energy Efficiency Rebate Program Questar Gas - Commercial Energy Efficiency Rebate Program Questar Gas - Commercial Energy Efficiency Rebate Program < Back Eligibility Commercial Fed. Government Local Government Nonprofit State Government Savings Category Heating & Cooling Commercial Heating & Cooling Heating Home Weatherization Commercial Weatherization Appliances & Electronics Other Water Heating Windows, Doors, & Skylights Maximum Rebate Custom: 50% of the eligible incurred project cost Program Info State Utah Program Type Utility Rebate Program Rebate Amount Custom: $1/therm saved Water Heater: $50-$100 or $2/kBtu/hour input Condensing/Hybrid Water Heater: $350 Clothes Washer: $50-$75 Furnace: $200-$400 Boiler: $2-$3.25/kBtu Tankless Gas Water Heater: $2/kBtu Unit Heater: $1.25-$6/kBtu

436

Table 6. Electric Power Delivered Fuel Prices and Quality for Coal, Petroleum, N  

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

1 PM)" 1 PM)" "Maine" "Fuel, Quality",1990,1991,1992,1993,1994,1995,1996,1997,1998,1999,2002,2003,2004,2005,2006,2007,2008,2009,2010 "Coal (cents per million Btu)","-","-","-","-","-","-","-","-","-","-",241,237,262,266,327,319,367,506,619 " Average heat value (Btu per pound)","-","-","-","-","-","-","-","-","-","-",13138,13124,12854,12823,12784,13171,12979,12779,13011 " Average sulfur Content (percent)","-","-","-","-","-","-","-","-","-","-",0.71,0.69,0.77,0.78,0.7,0.65,0.72,0.82,0.72

437

" of Supplier, Census Region, Census Division, and Economic Characteristics"  

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

Quantity of Purchased Electricity and Steam by Type" Quantity of Purchased Electricity and Steam by Type" " of Supplier, Census Region, Census Division, and Economic Characteristics" " of the Establishment, 1994" " (Estimates in Btu or Physical Units)" ," Electricity",," Steam" ," (million kWh)",," (billion Btu)" ,,,,,"RSE" " ","Utility","Nonutility","Utility","Nonutility","Row" "Economic Characteristics(a)","Supplier(b)","Supplier(c)","Supplier(b)","Supplier(c)","Factors"

438

" Census Region, Census Division, Industry Group, and Selected Industries, 1994"  

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

Quantity of Purchased Electricity and Steam by Type of Supplier," Quantity of Purchased Electricity and Steam by Type of Supplier," " Census Region, Census Division, Industry Group, and Selected Industries, 1994" " (Estimates in Btu or Physical Units)" ,," Electricity",," Steam" ,," (million kWh)",," (billion Btu)" ,,,,,,"RSE" "SIC",,"Utility","Nonutility","Utility","Nonutility","Row" "Code(a)","Industry Group and Industry","Supplier(b)","Supplier(c)","Supplier(b)","Supplier(c)","Factors"

439

U. S. Industrial Energy Consumption and Conservation: Past and Future Perspectives  

E-Print Network (OSTI)

-bed combustors and medium Btu gasifiers to enable use of coal for gas turbines. Motors. Another partly developed technology which may have a major impact on industrial energy is motor controls. Although small motors are often remarkably inefficient, most...-bed combustors and medium Btu gasifiers to enable use of coal for gas turbines. Motors. Another partly developed technology which may have a major impact on industrial energy is motor controls. Although small motors are often remarkably inefficient, most...

Ganeriwal, R; Ross, M. H.

1980-01-01T23:59:59.000Z

440

7-46E The COP and the refrigeration rate of an ice machine are given. The power consumption is to be determined.  

E-Print Network (OSTI)

25°F Analysis The cooling load of this ice machine is #12; #12; Btu/h4732Btu/lbm169lbm/h28LL qm7-15 7-46E The COP and the refrigeration rate of an ice machine are given. The power consumption is to be determined. Assumptions The ice machine operates steadily. Ice Machine Outdoors R COP = 2.4 QL water 55°F ice

Bahrami, Majid

Note: This page contains sample records for the topic "btl biomass-to-liquids btu" 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

An analysis of energy use in two Texas state agencies  

E-Print Network (OSTI)

, electricity and natural gas prices for monthly equations; and electricity and natural gas prices, facility age, building density, and whether or not the facility has boilers, heat pumps, electrical heating, electrical chillers, or evaporative coolers...: Regression results from analysis of monthly electricity use (Btu/sq ft/month) for Texas state schools, hospitals, and centers 46 Table V-2: Regression results from analysis of monthly natural gas use (Btu/sq ft/month) for Texas state schools, hospitals...

Rothbauer, Kent Christopher

2012-06-07T23:59:59.000Z

442

Combined Cycles and Cogeneration - An Alternative for the Process Industries  

E-Print Network (OSTI)

SYSTEM Gasification Numerous programs are underway for gasification of solid fuels and heavy oils and it is among these systems that many feel medium Btu gas will be pro duced for use in combined cycle systems. Many of the problems now facing... the gasification approach are economic in nature caused by the compe titive costs of gas and oil. In addition, in areas lacking a coal infrastructure, extraordinary costs still exist in the early years. FIG. 13 INTEGRATED INTERMEDIATE Btu GASIFICATION CYCLE...

Harkins, H. L.

1981-01-01T23:59:59.000Z

443

M. Bahrami ENSC388 Tutorial #1 1 ENSC 388 Week #2, Tutorial #1 Dimensions and Units  

E-Print Network (OSTI)

b) SI Unit Using conversion factors the kinetic energy can be written in SI units. J Btu J Btu)2( 3 )1.62( 4 (Eq1) Part b) SI Unit Using conversion factors the mass flow rate can be written in SI conversion factors the power can be written in SI units. kW hp kW hpW 407.0 1 746.0 545.0 (Eq4

Bahrami, Majid

444

Certain plant and animal (beef cattle) responses to management practices on phosphorus deficient ranges of the King Ranch in South Texas  

E-Print Network (OSTI)

CERTAIK i>LMT ABU RSIKAL (BlOtF M 'l 'M ) CEERRTA 1* CE M.MA!Gl?aS'f P?A0'TI?ES CP PBOSFSflBtlS IW ICIBKT IJSKGSS RT AIK i>LMB i U S L i ( CERT lOtFO 1 Ms?arifcafc IAKi>L By Oi ' 'K Scott O)AR1 F**.R!G? aK AR style af? SRfAGfA (G1> P...'i)aAG8888888888888888888888888888888888888888888888888888888888888888888888888888888888888888888888 ?? CERTA IK iI>CCRLCM nSRfAif?G?m ya 5G yLRK*LaAiS (G.Ai'iXG. a** 'iSaAiRfK88888888888888888888888888888888888888 ?b ?2*G.i)GfAa' 'i!GKARS#8888888888888888888888888888888888888888888888888888888888888 jN yrss?tPP?? Fce p?l4g...

Ruby, Ellis Scott

2013-10-04T23:59:59.000Z

445

The effect of genetic and environmental factors on weaning weight of Hereford calves  

E-Print Network (OSTI)

. t eiven during preparation of this thosi. . To him I sm especially indebted. Alsos I wish to thank Mr. Walter Bruce, Mr. Don ??ook~ and Mr. L. A. Msddox t' or assistance in furnishing data; and John Williams snd Mr. N. L. Lisenbo for thetr sid... 10t06 sm 3t26 yn 7t44 pn 5tll sm St52 am 2t05 pn 3t38 pn 10t36 am 3t58 pn 6t18 am lt50 yn 4t44. pn 6t30 pn 5t01 am St37 am t 12t00 sm 4 t35 pn 4t55 am 6t20 sm Btl0 em 4. t04 pn 7t35 pn 9t52 am 2 t27 pn 4t09 pn 5t45 pn 4t55 am...

Carpenter, James Andrew

1961-01-01T23:59:59.000Z

446

Natural Gas Weekly Update  

Gasoline and Diesel Fuel Update (EIA)

24, 2001 24, 2001 Mild temperatures and moderate demand helped prices to decline gradually last week as markets returned to relatively normal operation. (See Temperature Map) (See Deviation from Normal Temperatures Map) At the Henry Hub, the spot market price for natural gas ended the week at $2.04 per million Btu, down 37 cents per million Btu from the previous Friday. On the futures market, the near-month (October) NYMEX contract settled on Friday at $2.103 per million Btu - off close to 60 cents from the previous Friday. The spot price for West Texas Intermediate (WTI) crude oil fell steadily from $28.85 per barrel ($4.974 per million Btu) on Monday to $ 25.50 or $4.40 per million Btu on Friday. Prices: Spot prices at many major market locations took a downward turn last week. Prices at the Henry Hub closed on Monday at $2.35 per million Btu, down 6 cents per million Btu from the previous Friday, and fell between 3 and 17 cents each day that followed. On Friday, prices dropped to $2.04 per million Btu, the lowest level since November 1999. Similarly, prices at many locations throughout the country fell throughout the week. At the New York and Chicago citygates, prices fell from $2.69 and $2.39 per million Btu to $2.30 and $2.04, respectively. Prices in the west at the Northern California (PG&E) and Southern California (SoCal) hubs climbed on Tuesday before falling to $1.67 and $1.79 on Friday. In the Rockies, prices fell below the $1 mark for the first time since 1998 as prices at some locations in Wyoming ranged between $0.83 and $1.10 on Friday. These price drops have occurred in part because industrial demand has continued to soften in the wake of the events of September 11, and in part because temperatures remain mild throughout much of the country.

447

All Consumption Tables.vp  

Gasoline and Diesel Fuel Update (EIA)

3. Energy Consumption per Capita by End-Use Sector, Ranked by State, 2011 3. Energy Consumption per Capita by End-Use Sector, Ranked by State, 2011 Rank Residential Sector Commercial Sector Industrial Sector Transportation Sector Total Consumption State Million Btu State Million Btu State Million Btu State Million Btu State Million Btu 1 North Dakota 99.8 District of Columbia 193.1 Louisiana 585.8 Alaska 277.3 Wyoming 974.7 2 West Virginia 90.9 Wyoming 119.2 Wyoming 568.2 Wyoming 200.7 Louisiana 886.5 3 Missouri 89.4 North Dakota 106.9 Alaska 435.7 North Dakota 172.8 Alaska 881.3 4 Tennessee 87.8 Alaska 94.1 North Dakota 388.9 Louisiana 158.0 North Dakota 768.4 5 Kentucky 87.4 Montana 78.4 Iowa 243.4 Oklahoma 122.3 Iowa 493.6

448

Gasifier feed: Tailor-made from Illinois coals. Final technical report, September 1, 1991--December 31, 1992  

SciTech Connect

The main purpose of this project was to produce a feedstock from preparation plant fines from an Illinois (IL) coal that is ideal for a slurry fed, slagging, entrained-flow coal gasifier. The high-sulfur content and high-Btu value of IL coals are Particularly advantageous in such a gasifier; preliminary-calculations indicate that the increased cost of removing sulfur from the gas from a high-sulfur coal is more than offset b the increased revenue from the sale of the elemental sulfur; additionally the high-Btu IL coal concentrates more energy into the slurry of a given coal to water ratio. The Btu is--higher not only because of the hither Btu value of the coal but also because IL coal requires less water to produce a pumpable slurry than western coal, i.e., as little as 30--35% water may be used for IL coal as compared to approximately 45% for most western coals. During the contract extension, additional coal testing was completed confirming the fact that coal concentrates can be made from plant waste under a variety of flotation conditions 33 tests were conducted, yielding an average of 13326 Btu with 9.6% ash while recovering 86.0%-Of the energy value.

Ehrlinger, H.P. III [Illinois State Geological Survey, Champaign, IL (United States); Lytle, J.M.; Frost, R.R.; Lizzio, A.A.; Kohlenberger, L.B.; Brewer, K.K. [Illinois State Geological Survey, Champaign, IL (United States)]|[DESTEC Energy (United States)]|[Williams Technologies, Inc. (United States)]|[Illinois Coal Association (United States)

1992-12-31T23:59:59.000Z

449

Monthly energy review, July 1990  

SciTech Connect

US total energy consumption in July 1990 was 6.7 quadrillion Btu Petroleum products accounted for 42 percent of the energy consumed in July 1990, while coal accounted for 26 percent and natural gas accounted for 19 percent. Residential and commercial sector consumption was 2.3 quadrillion Btu in July 1990, up 2 percent from the July 1989 level. The sector accounted for 35 percent of July 1990 total consumption, about the same share as in July 1989. Industrial sector consumption was 2.4 quadrillion Btu in July 1990, up 2 percent from the July 1989 level. The industrial sector accounted for 36 percent of July 1990 total consumption, about the same share as in July 1989. Transportation sector consumption of energy was 1.9 quadrillion Btu in July 1990, up 1 percent from the July 1989 level. The sector consumed 29 percent of July 1990 total consumption, about the same share as in July 1989. Electric utility consumption of energy totaled 2.8 quadrillion Btu in July 1990, up 2 percent from the July 1989 level. Coal contributed 53 percent of the energy consumed by electric utilities in July 1990, while nuclear electric power contributed 21 percent; natural gas, 12 percent; hydroelectric power, 9 percent; petroleum, 5 percent; and wood, waste, geothermal, wind, photovoltaic, and solar thermal energy, about 1 percent.

Not Available

1990-10-29T23:59:59.000Z

450

Word Pro - Untitled1  

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

1 1 Table 1.14 Sales of Fossil Fuels Produced on Federal and American Indian Lands, Fiscal Years 2003-2011 Fiscal Year 7 Crude Oil and Lease Condensate Natural Gas Plant Liquids 1 Natural Gas 2 Coal 3 Total Fossil Fuels 4 Sales 5,6 Sales as Share of Total U.S. Production Sales 5,6 Sales as Share of Total U.S. Production Sales 5,6 Sales as Share of Total U.S. Production Sales 5,6 Sales as Share of Total U.S. Production Sales 5,6 Sales as Share of Total U.S. Production Million Barrels Quadrillion Btu Percent Million Barrels Quadrillion Btu Percent Trillion Cubic Feet Quadrillion Btu Percent Million Short Tons Quadrillion Btu Percent Quadrillion Btu Percent 2003 R 689 R 4.00 R 33.3 R 94 R 0.35 R 14.9 R 7.08 R 7.81 R 35.5 R 466 R 9.58 R 43.3 R 21.74 R 37.2 2004 R 680 R 3.94 R 33.8 R 105 R .39 R 16.0 R 6.68 R 7.38 R 34.0 R 484 R 9.89 R 43.9 R 21.60 R 37.0

451

Glossary: Energy-Related Carbon Emissions  

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

Glossary: Energy-Related Carbon Emissions Glossary: Energy-Related Carbon Emissions Glossary: Energy-Related Carbon Emissions For additional terms, refer to: the Glossary of Emissions of Greenhouse Gases in the United States 1998 for additional greenhouse gas related terms, the Glossary of Manufacturing Consumption of Energy 1994 for additional manufacturing terms, and Appendix F of Manufacturing Consumption of Energy 1994 for descriptions of the major industry groups. British Thermal Unit: The amount of heat required to raise the temperature of 1 pound of water by 1 degree Fahrenheit. One quadrillion Btu is 1015 Btu, or 1.055 exajoules. Btu: See British Thermal Unit. Carbon Dioxide: A colorless, odorless, non-poisonous gas that is a normal part of Earth's atmosphere. Carbon dioxide is a product of fossil-fuel combustion as well as other processes. It is considered a greenhouse gas as it traps heat radiated into the atmosphere and thereby contributes to the potential for global warming.

452

Originally Released: July 2009  

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

1 Nonfuel (Feedstock) Use of Combustible Energy, 2006 1 Nonfuel (Feedstock) Use of Combustible Energy, 2006 Level: National and Regional Data; Row: NAICS Codes; Column: Energy Sources Unit: Physical Units or Btu. Coke Residual Distillate Natural Gas(c) LPG and Coal and Breeze NAICS Total Fuel Oil Fuel Oil(b) (billion NGL(d) (million (million Other(e) Code(a) Subsector and Industry (trillion Btu) (million bbl) (million bbl) cu ft) (million bbl) short tons) short tons) (trillion Btu) Total United States 311 Food 3 0 * 2 * 0 * * 3112 Grain and Oilseed Milling 3 0 * 2 * 0 0 * 311221 Wet Corn Milling * 0 0 0 0 0 0 * 31131 Sugar Manufacturing * 0 * 0 * 0 * 0 3114 Fruit and Vegetable Preserving and Specialty Food * 0 0 0 * 0 0 0 3115 Dairy Product * 0 * * 0 0 0 * 3116 Animal Slaughtering and Processing

453

Table 5.1 End Uses of Fuel Consumption, 2010;  

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

5.1 End Uses of Fuel Consumption, 2010; 5.1 End Uses of Fuel Consumption, 2010; Level: National Data; Row: End Uses within NAICS Codes; Column: Energy Sources, including Net Electricity; Unit: Physical Units or Btu. Distillate Coal Fuel Oil (excluding Coal Net Residual and Natural Gas(d) LPG and Coke and Breeze) NAICS Total Electricity(b) Fuel Oil Diesel Fuel(c) (billion NGL(e) (million Other(f) Code(a) End Use (trillion Btu) (million kWh) (million bbl) (million bbl) cu ft) (million bbl) short tons) (trillion Btu) Total United States 311 - 339 ALL MANUFACTURING INDUSTRIES TOTAL FUEL CONSUMPTION 14,228 714,166 13 22 5,064 18 39 5,435 Indirect Uses-Boiler Fuel -- 7,788 7 3 2,074 3 26 -- Conventional Boiler Use -- 7,788 3 1 712 1 3 -- CHP and/or Cogeneration Process

454

Workbook Contents  

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

4 (Dollars per Million Btu)" 4 (Dollars per Million Btu)" ,"Click worksheet name or tab at bottom for data" ,"Worksheet Name","Description","# Of Series","Frequency","Latest Data for" ,"Data 1","Weekly Natural Gas Futures Contract 4 (Dollars per Million Btu)",1,"Weekly","12/13/2013" ,"Release Date:","12/18/2013" ,"Next Release Date:","12/27/2013" ,"Excel File Name:","rngc4w.xls" ,"Available from Web Page:","http://tonto.eia.gov/dnav/ng/hist/rngc4w.htm" ,"Source:","Energy Information Administration" ,"For Help, Contact:","infoctr@eia.doe.gov" ,,"(202) 586-8800",,,"12/18/2013 12:22:27 PM"

455

EIA - International Energy Outlook 2009-World Energy Demand and Economic  

Gasoline and Diesel Fuel Update (EIA)

World Energy and Economic Outlook World Energy and Economic Outlook International Energy Outlook 2009 Chapter 1 - World Energy Demand and Economic Outlook In the IEO2009 projections, total world consumption of marketed energy is projected to increase by 44 percent from 2006 to 2030. The largest projected increase in energy demand is for the non-OECD economies. Figure 10. World Marketed Energy Consumption, 1980-2030 (Quadrillion Btu). Need help, contact the National Energy Information Center at 202-586-8800. Figure Data Figure 11. World Marketed Energy Consumption: OECD and Non-OECD, 1980-2030 (Quadrillion Btu). Need help, contact the National Energy Information Center at 202-586-8800. Figure Data Figure 12. Marketed Energy Use by Region, 1990-2030 (Quadrillion Btu). Need help, contact the National Energy Information Center at 202-586-8800.

456

International Energy Outlook 2007  

Gasoline and Diesel Fuel Update (EIA)

marketed energy consumption is projected to increase by 57 percent marketed energy consumption is projected to increase by 57 percent from 2004 to 2030. Total energy demand in the non-OECD countries increases by 95 percent, compared with an increase of 24 percent in the OECD countries. In the IEO2007 reference case-which reflects a scenario where current laws and policies remain unchanged throughout the projection period-world marketed energy consumption is projected to grow by 57 percent over the 2004 to 2030 period. Total world energy use rises from 447 quadrillion British thermal units (Btu) in 2004 to 559 quadrillion Btu in 2015 and then to 702 qua- drillion Btu in 2030 (Figure 1). Global energy demand grows despite the relatively high world oil and natural gas prices that are projected to persist into the mid-term outlook. The most rapid growth in energy demand from 2004 to 2030 is projected for nations outside

457

CSV File Documentation: Consumption  

Gasoline and Diesel Fuel Update (EIA)

Consumption Consumption The State Energy Data System (SEDS) comma-separated value (CSV) files contain consumption estimates shown in the tables located on the SEDS website. There are four files that contain estimates for all states and years. Consumption in Physical Units contains the consumption estimates in physical units for all states; Consumption in Btu contains the consumption estimates in billion British thermal units (Btu) for all states. There are two data files for thermal conversion factors: the CSV file contains all of the conversion factors used to convert data between physical units and Btu for all states and the United States, and the Excel file shows the state-level conversion factors for coal and natural gas in six Excel spreadsheets. Zip files are also available for the large data files. In addition, there is a CSV file for each state, named

458

U.S. Energy Information Administration (EIA)  

Gasoline and Diesel Fuel Update (EIA)

Highlights Highlights Overview Figure 1. World energy consumption, 1990-2035. figure data In the IEO2011 Reference case, which does not incorporate prospective legislation or policies that might affect energy markets, world marketed energy consumption grows by 53 percent from 2008 to 2035. Total world energy use rises from 505 quadrillion British thermal units (Btu) in 2008 to 619 quadrillion Btu in 2020 and 770 quadrillion Btu in 2035 (Figure 1). Much of the growth in energy consumption occurs in countries outside the Organization for Economic Cooperation and Development (non-OECD nations),2 where demand is driven by strong long-term economic growth. Energy use in non-OECD nations increases by 85 percent in the Reference case, as compared with an increase of 18 percent for the OECD economies.

459

U.S. Energy Information Administration (EIA) - Source  

Gasoline and Diesel Fuel Update (EIA)

Commercial from Market Trends Commercial from Market Trends Industrial and commercial sectors lead U.S. growth in primary energy use figure data Total primary energy consumption, including fuels used for electricity generation, grows by 0.3 percent per year from 2011 to 2040, to 107.6 quadrillion Btu in 2040 in the AEO2013 Reference case (Figure 53). The largest growth, 5.1 quadrillion Btu from 2011 to 2040, is in the industrial sector, attributable to increased use of natural gas in some industries (bulk chemicals, for example) as a result of an extended period of relatively low prices coinciding with rising shipments in those industries. The industrial sector was more severely affected than the other end-use sectors by the 2007-2009 economic downturn; the increase in industrial energy consumption from 2008 through 2040 is 3.9 quadrillion Btu.

460

International Energy Outlook 2006 - World Energy and Economic Outlook  

Gasoline and Diesel Fuel Update (EIA)

1: World Energy and Economic Outlook 1: World Energy and Economic Outlook The IEO2006 projections indicate continued growth in world energy use, despite world oil prices that are 35 percent higher in 2025 than projected in last year’s outlook. Energy resources are thought to be adequate to support the growth expected through 2030. Figure 7. World Marketed Energy Consumption, 1980-2030 (Quadrillion Btu). Need help, contact the National Energy Information Center at 202-586-8800. Figure Data Figure 8. World Marketed Energy Use: OECD and Non-OECD, 1980-2030 (Quadrillion Btu). Need help, contact the National Energy Information Center at 202-586-8800. Figure Data Table 1. World Marketed Energy Consumption by Country Grouping, 2003-2030 (Quadrillion Btu) Printer friendly version Region 2003 2010 2015 2020 2025 2030 Average Annual Percent Change, 2003-2030

Note: This page contains sample records for the topic "btl biomass-to-liquids btu" 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

EIA - Annual Energy Outlook 2008 - Coal Production  

Gasoline and Diesel Fuel Update (EIA)

Coal Production Coal Production Annual Energy Outlook 2008 with Projections to 2030 Coal Production Figure 93. Coal production by region, 1970-2030 (quadrillion Btu). Need help, contact the National Energy Information Center at 202-586-8800. figure data Figure 94. U.S. coal production, 2006, 2015, and 2030 (quadrillion Btu). Need help, contact the National Energy Information Center at 202-586-8800. figure data Western Coal Production Continues To Increase Through 2030 In the AEO2008 reference case, increasing coal use for electricity generation at existing plants and construction of a few new coal-fired plants lead to annual production increases that average 0.3 percent per year from 2006 to 2015, when total production is 24.5 quadrillion Btu. In the absence of restrictions on CO2 emissions, the growth in coal production

462

Word Pro - Untitled1  

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

Table 1.5 Energy Consumption, Expenditures, and Emissions Indicators Estimates, Selected Years, 1949-2011 Year Energy Consumption Energy Consumption per Capita Energy Expenditures 1 Energy Expenditures 1 per Capita Gross Output 3 Energy Expenditures 1 as Share of Gross Output 3 Gross Domestic Product (GDP) Energy Expenditures 1 as Share of GDP Gross Domestic Product (GDP) Energy Consumption per Real Dollar of GDP Carbon Dioxide Emissions 2 per Real Dollar of GDP Quadrillion Btu Million Btu Million Nominal Dollars 4 Nominal Dollars 4 Billion Nominal Dollars 4 Percent Billion Nominal Dollars 4 Percent Billion Real (2005) Dollars 5 Thousand Btu per Real (2005) Dollar 5 Metric Tons Carbon Dioxide per Million Real (2005) Dollars 5 1949 31.982 214 NA NA NA NA 267.2 NA R 1,843.1 R 17.35 R 1,197 1950 34.616 227 NA NA NA NA

463

Word Pro - A  

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

Thermal Conversion Factor Thermal Conversion Factor Source Documentation Approximate Heat Content of Petro- leum and Natural Gas Plant Liquids Asphalt. The U.S. Energy Information Administration (EIA) adopted the thermal conversion factor of 6.636 million British thermal units (Btu) per barrel as estimated by the Bureau of Mines and first published in the Petro- leum Statement, Annual, 1956. Aviation Gasoline. EIA adopted the thermal conversion factor of 5.048 million Btu per barrel as adopted by the Bureau of Mines from the Texas Eastern Transmission Corporation publication Competition and Growth in Ameri- can Energy Markets 1947-1985, a 1968 release of histori- cal and projected statistics. Butane. EIA adopted the Bureau of Mines thermal conver- sion factor of 4.326 million Btu per barrel as published in

464

U.S. Energy Information Administration (EIA)  

Gasoline and Diesel Fuel Update (EIA)

Highlights Highlights Overview Figure 1. World energy consumption, 1990-2035. figure data In the IEO2011 Reference case, which does not incorporate prospective legislation or policies that might affect energy markets, world marketed energy consumption grows by 53 percent from 2008 to 2035. Total world energy use rises from 505 quadrillion British thermal units (Btu) in 2008 to 619 quadrillion Btu in 2020 and 770 quadrillion Btu in 2035 (Figure 1). Much of the growth in energy consumption occurs in countries outside the Organization for Economic Cooperation and Development (non-OECD nations),2 where demand is driven by strong long-term economic growth. Energy use in non-OECD nations increases by 85 percent in the Reference case, as compared with an increase of 18 percent for the OECD economies.

465

U.S. Energy Information Administration (EIA)  

Gasoline and Diesel Fuel Update (EIA)

Coal Coal Overview In the IEO2013 Reference case, which does not include prospective greenhouse gas reduction policies, coal remains the second largest energy source worldwide. World coal consumption rises at an average rate of 1.3 percent per year, from 147 quadrillion Btu in 2010 to 180 quadrillion Btu in 2020 and 220 quadrillion Btu in 2040 (Figure 70). The near-term increase reflects significant increases in coal consumption by China, India, and other non-OECD countries. In the longer term, growth of coal consumption decelerates as policies and regulations encourage the use of cleaner energy sources, natural gas becomes more economically competitive as a result of shale gas development, and growth of industrial use of coal slows largely as a result of China's industrial activities. Consumption is dominated by

466

ConsumTechNotes2011.vp  

Gasoline and Diesel Fuel Update (EIA)

Data Data 2011: Consumption 125 A P P E N D I X A ABICB Aviation gasoline blending components Billion Btu ABICBZZ = ABTCBZZ total consumed by the industrial sector. ABICBUS = ABTCBUS ABICP Aviation gasoline blending components Thousand barrels ABICPZZ = ABTCPZZ total consumed by the industrial sector. ABICPUS = ABTCPUS ABTCB Aviation gasoline blending components total Billion Btu ABTCBZZ = ABTCPZZ * 5.048 consumed. ABTCBUS = SABTCBZZ ABTCP Aviation gasoline blending components total Thousand barrels ABTCPZZ = (COCAPZZ / COCAPUS) * ABTCPUS consumed. ABTCPUS is independent. AICAP Aluminum ingot production capacity. Short tons AICAPZZ is independent. AICAPUS = SAICAPZZ ARICB Asphalt and road oil consumed by the Billion Btu ARICBZZ = ARICPZZ * 6.636 industrial sector. ARICBUS = SARICBZZ ARICP Asphalt and road oil consumed by the Thousand barrels ARICPZZ = ASICPZZ + RDICPZZ industrial

467

International Energy Outlook 2006  

Gasoline and Diesel Fuel Update (EIA)

The IEO2006 projections indicate continued growth in world energy use, despite The IEO2006 projections indicate continued growth in world energy use, despite world oil prices that are 35 percent higher in 2025 than projected in last year's outlook. Energy resources are thought to be adequate to support the growth expected through 2030. The International Energy Outlook 2006 (IEO2006) projects strong growth for worldwide energy demand over the 27-year projection period from 2003 to 2030. Despite world oil prices that are 35 percent higher in 2025 than projected in last year's outlook, world economic growth continues to increase at an average annual rate of 3.8 percent over the projection period, driving the robust increase in world energy use. Total world consumption of marketed energy expands from 421 quadrillion Brit- ish thermal units (Btu) in 2003 to 563 quadrillion Btu in 2015 and then to 722 quadrillion Btu in

468

ConsumTechNotes2012.vp  

Gasoline and Diesel Fuel Update (EIA)

Data: Data: Consumption 125 A P P E N D I X A ABICB Aviation gasoline blending components Billion Btu ABICBZZ = ABTCBZZ total consumed by the industrial sector. ABICBUS = ABTCBUS ABICP Aviation gasoline blending components Thousand barrels ABICPZZ = ABTCPZZ total consumed by the industrial sector. ABICPUS = ABTCPUS ABTCB Aviation gasoline blending components total Billion Btu ABTCBZZ = ABTCPZZ * 5.048 consumed. ABTCBUS = SABTCBZZ ABTCP Aviation gasoline blending components total Thousand barrels ABTCPZZ = (COCAPZZ / COCAPUS) * ABTCPUS consumed. ABTCPUS is independent. AICAP Aluminum ingot production capacity. Short tons AICAPZZ is independent. AICAPUS = SAICAPZZ ARICB Asphalt and road oil consumed by the Billion Btu ARICBZZ = ARICPZZ * 6.636 industrial sector. ARICBUS = SARICBZZ ARICP Asphalt and road oil consumed by the Thousand barrels ARICPZZ = ASICPZZ + RDICPZZ industrial sector.

469

Overview of Federal Energy Management Policy and Mandates  

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

Overview of Federal Energy Management Policy and Mandates Overview of Federal Energy Management Policy and Mandates Energy Intensity Reduction Goal The National Energy Conservation Policy Act (NECPA), as amended, requires Federal agencies to improve energy management in their facilities and operations. (42 U.S.C. 8253) Amendments to NECPA made by the Federal Energy Management Improvement Act of 1988 (P.L. 100-615), required each agency to achieve a 10 percent reduction in energy consumption in its Federal buildings by FY 1995, when measured against a FY 1985 baseline on a Btu-per-gross-square-foot (Btu/GSF) basis. It also directed DOE to establish life-cycle costing methods and coordinate Federal conservation activities through the Interagency Energy Management Task Force. Section 543 of NECPA contained provisions requiring a reduction in Btu/GSF of 20 percent by 2000,

470

Table 6. Electric Power Delivered Fuel Prices and Quality for Coal, Petroleum, N  

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

2 PM)" 2 PM)" "Rhode Island" "Fuel, Quality",1990,1991,1992,1993,1994,1995,1996,1997,1998,2002,2003,2004,2005,2006,2007,2008,2009,2010 "Petroleum (cents per million Btu)1",359,241,195,320,254,413,479,"-","-","-",730,802,1407,"-",1931,1649,934,1561 " Average heat value (Btu per gallon)",152445,151507,152617,150388,151314,139562,140390,"-","-","-",140564,140562,135160,"-",138571,141786,145243,140864 " Average sulfur Content (percent)",0.93,0.91,1,0.97,0.97,0.03,0.14,"-","-","-",0.14,0.09,0.03,"-",0.15,0.3,0.46,0.25 "Natural Gas (cents per million Btu)",217,198,213,239,222,185,223,326,329,455,650,680,951,734,781,1028,488,538

471

Level: National Data; Row: End Uses within NAICS Codes; Column: Energy Sources, including Net Electricity;  

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

1 End Uses of Fuel Consumption, 2006; 1 End Uses of Fuel Consumption, 2006; Level: National Data; Row: End Uses within NAICS Codes; Column: Energy Sources, including Net Electricity; Unit: Physical Units or Btu. Distillate Coal Fuel Oil (excluding Coal Net Residual and Natural Gas(d) LPG and Coke and Breeze) NAICS Total Electricity(b) Fuel Oil Diesel Fuel(c) (billion NGL(e) (million Other(f) Code(a) End Use (trillion Btu) (million kWh) (million bbl) (million bbl) cu ft) (million bbl) short tons) (trillion Btu) Total United States 311 - 339 ALL MANUFACTURING INDUSTRIES TOTAL FUEL CONSUMPTION 15,658 835,382 40 22 5,357 21 46 5,820 Indirect Uses-Boiler Fuel -- 12,109 21 4 2,059 2 25 -- Conventional Boiler Use -- 12,109 11 3 1,245 2 6 -- CHP and/or Cogeneration Process

472

Workbook Contents  

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

1 (Dollars per Million Btu)" 1 (Dollars per Million Btu)" ,"Click worksheet name or tab at bottom for data" ,"Worksheet Name","Description","# Of Series","Frequency","Latest Data for" ,"Data 1","Weekly Natural Gas Futures Contract 1 (Dollars per Million Btu)",1,"Weekly","12/13/2013" ,"Release Date:","12/18/2013" ,"Next Release Date:","12/27/2013" ,"Excel File Name:","rngc1w.xls" ,"Available from Web Page:","http://tonto.eia.gov/dnav/ng/hist/rngc1w.htm" ,"Source:","Energy Information Administration" ,"For Help, Contact:","infoctr@eia.doe.gov" ,,"(202) 586-8800",,,"12/18/2013 12:22:42 PM"

473

Word Pro - S1.lwp  

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

Primary Energy Consumption per Real Dollar of Gross Domestic Product, 1949-2012 Primary Energy Consumption per Real Dollar of Gross Domestic Product, 1949-2012 (Thousand Btu per Chained (2009) Dollar) Note: See "Real Dollars" in Glossary. Web Page: http://www.eia.gov/totalenergy/data/monthly/#summary. Source: Table 1.7. 16 U.S. Energy Information Administration / Monthly Energy Review November 2013 Table 1.7 Primary Energy Consumption per Real Dollar of Gross Domestic Product Energy Consumption Gross Domestic Product (GDP) Energy Consumption per Real Dollar of GDP Petroleum and Natural Gas Other Energy a Total Petroleum and Natural Gas Other Energy a Total Quadrillion Btu Billion Chained (2009) Dollars Thousand Btu per Chained (2009) Dollar 1950 ............................ 19.284 15.332 34.616 2,181.9 8.84 7.03 15.86 1955

474

Manufacturing Consumption of Energy 1994  

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

A9. A9. Total Inputs of Energy for Heat, Power, and Electricity Generation by Fuel Type, Census Region, and End Use, 1994: Part 1 (Estimates in Btu or Physical Units) See footnotes at end of table. Energy Information Administration/Manufacturing Consumption of Energy 1994 166 End-Use Categories (trillion Btu) kWh) (1000 bbl) (1000 bbl) cu ft) (1000 bbl) tons) (trillion Btu) Total (million Fuel Oil Diesel Fuel (billion LPG (1000 short Other Net Distillate Natural and Electricity Residual Fuel Oil and Gas Breeze) a b c Coal (excluding Coal Coke d RSE Row Factors Total United States RSE Column Factors: NF 0.5 1.3 1.4 0.8 1.2 1.2 NF TOTAL INPUTS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16,515 778,335 70,111 26,107 5,962 25,949 54,143 5,828 2.7 Indirect Uses-Boiler Fuel . . . . . . . . . . . . . . . . . . . . . . . --

475

table5.1_02  

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

End Uses of Fuel Consumption, 2002; End Uses of Fuel Consumption, 2002; Level: National Data; Row: End Uses within NAICS Codes; Column: Energy Sources, including Net Electricity; Unit: Physical Units or Btu. Distillate Fuel Oil Coal Net Residual and Natural LPG and (excluding Coal RSE NAICS Total Electricity(b) Fuel Oil Diesel Fuel(c) Gas(d) NGL(e) Coke and Breeze) Other(f) Row Code(a) End Use (trillion Btu) (million kWh) (million bbl) (million bbl) (billion cu ft) (million bbl) (million short tons) (trillion Btu) Factors Total United States 311 - 339 ALL MANUFACTURING INDUSTRIES RSE Column Factors: 0.3 1 1 2.4 1.1 1.4 1 NF TOTAL FUEL CONSUMPTION 16,273 832,257 33 24 5,641 26 53 6,006 3.4 Indirect Uses-Boiler Fuel -- 3,540 20 6

476

Manufacturing Energy Consumption Survey (MECS) - Data - U.S. Energy  

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

1 MECS Survey Data 2010 | 2006 | 2002 | 1998 | 1994 | 1991 | Archive 1 MECS Survey Data 2010 | 2006 | 2002 | 1998 | 1994 | 1991 | Archive Data Methodology & Forms + EXPAND ALL Consumption of Energy for All Purposes (First Use) Total Primary Consumption of Energy for All Purposes by Census Region, Industry Group, and Selected Industries, 1991: Part 1 (Estimates in Btu or Physical Units) XLS Total Primary Consumption of Energy for All Purposes by Census Region, Industry Group, and Selected Industries, 1991: Part 2 (Estimates in Trillion Btu) XLS Total Consumption of LPG, Distillate Fuel Oil, and Residual Fuel Oil for Selected Purposes by Census Region, Industry Group, and Selected Industries, 1991 (Estimates in Barrels per Day) XLS Total Primary Consumption of Energy for All Purposes by Census Region and Economic Characteristics of the Establishment, 1991 (Estimates in Btu or Physical Units) XLS

477

Table 2.1 Nonfuel (Feedstock) Use of Combustible Energy, 2010;  

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

1 Nonfuel (Feedstock) Use of Combustible Energy, 2010; 1 Nonfuel (Feedstock) Use of Combustible Energy, 2010; Level: National and Regional Data; Row: NAICS Codes; Column: Energy Sources; Unit: Physical Units or Btu. Coke Residual Distillate Natural Gas(c) LPG and Coal and Breeze NAICS Total Fuel Oil Fuel Oil(b) (billion NGL(d) (million (million Other(e) Code(a) Subsector and Industry (trillion Btu) (million bbl) (million bbl) cu ft) (million bbl) short tons) short tons) (trillion Btu) Total United States 311 Food 10 * * 4 Q 0 0 2 3112 Grain and Oilseed Milling 6 0 * 1 Q 0 0 2 311221 Wet Corn Milling 2 0 0 0 0 0 0 2 31131 Sugar Manufacturing * 0 * 0 * 0 0 * 3114 Fruit and Vegetable Preserving and Specialty Foods 1 * * 1 * 0 0 * 3115 Dairy Products Q 0 * * * 0 0 * 3116 Animal Slaughtering and Processing

478

table2.1_02.xls  

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

1 Nonfuel (Feedstock) Use of Combustible Energy, 2002; 1 Nonfuel (Feedstock) Use of Combustible Energy, 2002; Level: National and Regional Data; Row: NAICS Codes; Column: Energy Sources; Unit: Physical Units or Btu. Coke Residual Distillate Natural LPG and Coal and Breeze NAICS Total Fuel Oil Fuel Oil(b) Gas(c) NGL(d) (million (million Other(e) Code(a) Subsector and Industry (trillion Btu) (million bbl) (million bbl) (billion cu ft) (million bbl) short tons) short tons) (trillion Btu) Total United States RSE Column Factors: 1.4 0.4 1.6 1.2 1.2 1.1 0.7 1.2 311 Food 8 * * 7 0 0 * * 311221 Wet Corn Milling * 0 * 0 0 0 0 * 31131 Sugar * 0 * * 0 0 * * 311421 Fruit and Vegetable Canning * * * 0 0 0 0 * 312 Beverage and Tobacco Products 1 * * * 0 0 0 1 3121 Beverages * * * 0 0 0 0 *

479

Table 3.1 Fuel Consumption, 2010;  

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

1 Fuel Consumption, 2010; 1 Fuel Consumption, 2010; Level: National and Regional Data; Row: NAICS Codes; Column: Energy Sources; Unit: Physical Units or Btu. Coke Net Residual Distillate Natural Gas(d) LPG and Coal and Breeze NAICS Total Electricity(b) Fuel Oil Fuel Oil(c) (billion NGL(e) (million (million Other(f) Code(a) Subsector and Industry (trillion Btu) (million kWh) (million bbl) (million bbl) cu ft) (million bbl) short tons) short tons) (trillion Btu) Total United States 311 Food 1,158 75,407 2 4 563 1 8 * 99 3112 Grain and Oilseed Milling 350 16,479 * * 118 * 6 0 45 311221 Wet Corn Milling 214 7,467 * * 51 * 5 0 25 31131 Sugar Manufacturing 107 1,218 * * 15 * 2 * 36 3114 Fruit and Vegetable Preserving and Specialty Foods 143 9,203

480

Transpired Solar Collector at NREL's Waste Handling Facility Uses Solar Energy to Heat Ventilation Air (Fact Sheet) (Revised), Federal Energy Management Program (FEMP)  

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

Highlights Highlights System Size 300 ft 2 transpired solar collector Energy Production About 125 Btu/hr/ft 2 (400 W/m 2 ) of heat delivery under ideal conditions (full sun) Installation Date 1990 Motivation Provide solar-heated ventilation air to offset some of the heating with conventional electric resistance heaters Annual Savings 14,310 kWh (49 million Btu/yr) or about 26% of the energy required to heat the facility's ventilation air System Details Components Black, 300 ft 2 corrugated aluminum transpired solar collector with a porosity of 2%; bypass damper; two-speed 3000 CFM vane axial supply fan; electric duct heater; thermostat controller Storage None Loads 188 million Btu/year (55,038 kWh/year) winter average to heat 1,300 ft 2 Waste Handling Facility

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481

U.S. Energy Information Administration (EIA) - Source  

Gasoline and Diesel Fuel Update (EIA)

Commercial from Market Trends Commercial from Market Trends Industrial and commercial sectors lead U.S. growth in primary energy use figure data Total primary energy consumption, including fuels used for electricity generation, grows by 0.3 percent per year from 2011 to 2040, to 107.6 quadrillion Btu in 2040 in the AEO2013 Reference case (Figure 53). The largest growth, 5.1 quadrillion Btu from 2011 to 2040, is in the industrial sector, attributable to increased use of natural gas in some industries (bulk chemicals, for example) as a result of an extended period of relatively low prices coinciding with rising shipments in those industries. The industrial sector was more severely affected than the other end-use sectors by the 2007-2009 economic downturn; the increase in industrial energy consumption from 2008 through 2040 is 3.9 quadrillion Btu.

482

Total Energy - Data - U.S. Energy Information Administration (EIA)  

Gasoline and Diesel Fuel Update (EIA)

Primary Energy Consumption by Source and Sector, 2011 (Quadrillion Btu) Primary Energy Consumption by Source and Sector, 2011 (Quadrillion Btu) Primary Energy Consumption by Source and Sector diagram image Footnotes: 1 Does not include biofuels that have been blended with petroleum-biofuels are included in "Renewable Energy." 2 Excludes supplemental gaseous fuels. 3 Includes less than 0.1 quadrillion Btu of coal coke net exports. 4 Conventional hydroelectric power, geothermal, solar/PV, wind, and biomass. 5 Includes industrial combined-heat-and-power (CHP) and industrial electricity-only plants. 6 Includes commercial combined-heat-and-power (CHP) and commercial electricity-only plants. 7 Electricity-only and combined-heat-and-power (CHP) plants whose primary business is to sell electricity, or electricity and heat, to the public.

483

Level: National and Regional Data; Row: NAICS Codes; Column: Energy-Consumption Ratios;  

Gasoline and Diesel Fuel Update (EIA)

Next MECS will be fielded in 2015 Table 6.1 Consumption Ratios of Fuel, 2010; Level: National and Regional Data; Row: NAICS Codes; Column: Energy-Consumption Ratios; Unit: Varies. Consumption Consumption per Dollar Consumption per Dollar of Value NAICS per Employee of Value Added of Shipments Code(a) Subsector and Industry (million Btu) (thousand Btu) (thousand Btu) Total United States 311 Food 871.7 4.3 1.8 3112 Grain and Oilseed Milling 6,239.5 10.5 3.6 311221 Wet Corn Milling 28,965.0 27.1 12.6 31131 Sugar Manufacturing 7,755.9 32.6 13.4 3114 Fruit and Vegetable Preserving and Specialty Foods 861.3 4.8 2.2 3115 Dairy Products 854.8 3.5 1.1 3116 Animal Slaughtering and Processing 442.9 3.5 1.2 312

484

EIA - International Energy Outlook 2007 - World Energy and Economic Outlook  

Gasoline and Diesel Fuel Update (EIA)

World Energy and Economic Outlook World Energy and Economic Outlook International Energy Outlook 2007 Chapter 1 - World Energy and Economic Outlook In the IEO2007 reference case, total world consumption of marketed energy is projected to increase by 57 percent from 2004 to 2030. The largest projected increase in energy demand is for the non-OECD region. Figure 8. World Marketed Energy Consumption, 1980-2030 (Quadrillion Btu). Need help, contact the National Energy Information Center at 202-586-8800. Figure Data Figure 9. World Marketed Energy Use; OECD and Non-OECD, 2004-2030 (Quadrillion Btu). Need help, contact the National Energy Information Center at 202-586-8800. Figure Data Figure 10. Marketed Energy Use in the NON-OECD Economies by Region, 1980-2030 (Quadrillion Btu). Need help, contact the National Energy Information Center at 202-586-8800.

485

 

Gasoline and Diesel Fuel Update (EIA)

. Electricity Consumption (Btu) by End Use for Non-Mall Buildings, 2003 . Electricity Consumption (Btu) by End Use for Non-Mall Buildings, 2003 Total Electricity Consumption (trillion Btu) Total Space Heat- ing Cool- ing Venti- lation Water Heat- ing Light- ing Cook- ing Refrig- eration Office Equip- ment Com- puters Other All Buildings* ........................ 3,037 115 397 384 52 1,143 22 354 64 148 357 Building Floorspace (Square Feet) 1,001 to 5,000 ......................... 386 19 43 18 11 93 7 137 8 12 38 5,001 to 10,000 ....................... 262 12 35 17 5 83 4 56 6 9 35 10,001 to 25,000 ..................... 407 20 46 44 8 151 3 53 9 19 54 25,001 to 50,000 ..................... 350 15 55 50 9 121 2 34 7 16 42 50,001 to 100,000 ................... 405 16 57 65 7 158 2 29 6 18 45

486

DOE-EIA-0484(2010)  

Gasoline and Diesel Fuel Update (EIA)

World World marketed energy consumption increases by 49 percent from 2007 to 2035 in the Reference case. Total energy demand in the non-OECD countries increases by 84 percent, compared with an increase of 14 percent in the OECD countries. In the IEO2010 Reference case-which reflects a scenario assuming that current laws and policies remain unchanged throughout the projection period-world marketed energy consumption grows by 49 percent from 2007 to 2035. Total world energy use rises from 495 quadrillion British thermal units (Btu) in 2007 to 590 quadrillion Btu in 2020 and 739 quadrillion Btu in 2035 (Figure 1). The global economic recession that began in 2007 and continued into 2009 has had a profound impact on world energy demand in the near term. Total world marketed energy consumption contracted by 1.2 percent in 2008 and by an estimated 2.2 percent in 2009, as manufactur- ing and consumer

487

U.S. Energy Information Administration (EIA)  

Gasoline and Diesel Fuel Update (EIA)

World energy demand and economic outlook World energy demand and economic outlook Overview In the IEO2013 Reference case, world energy consumption increases from 524 quadrillion Btu in 2010 to 630 quadrillion Btu in 2020 and 820 quadrillion Btu in 2040, a 30-year increase of 56 percent (Figure 12 and Table 1). More than 85 percent of the increase in global energy demand from 2010 to 2040 occurs among the developing nations outside the Organization for Economic Cooperation and Development (non-OECD), driven by strong economic growth and expanding populations. In contrast, OECD member countries are, for the most part, already more mature energy consumers, with slower anticipated economic growth and little or no anticipated population growth.7 Figure 12. World total energy consumption, 1990-2040.

488

Manufacturing Energy Consumption Survey (MECS) - Residential - U.S. Energy  

Gasoline and Diesel Fuel Update (EIA)

About the MECS About the MECS Survey forms Maps MECS Terminology Archives Features First 2010 Data Press Release 2010 Data Brief Other End Use Surveys Commercial Buildings - CBECS Residential - RECS Transportation DOE Uses MECS Data Manufacturing Energy and Carbon Footprints Associated Analysis Early-release estimates from the 2010 MECS show that energy consumption in the manufacturing sector decreased between 2006 and 2010 MECS 2006-2010 - Release date: March 28, 2012 Energy consumption in the U.S. manufacturing sector fell from 21,098 trillion Btu (tBtu) in 2006 to 19,062 tBtu in 2010, a decline of almost 10 percent, based on preliminary estimates released from the 2010 Manufacturing Energy Consumption Survey (MECS). This decline continues the downward trend in manufacturing energy use since the 1998 MECS report.

489

EIA - International Energy Outlook 2008-World Energy Demand and Economic  

Gasoline and Diesel Fuel Update (EIA)

World Energy and Economic Outlook World Energy and Economic Outlook International Energy Outlook 2008 Chapter 1 - World Energy Demand and Economic Outlook In the IEO2008 projections, total world consumption of marketed energy is projected to increase by 50 percent from 2005 to 2030. The largest projected increase in energy demand is for the non-OECD economies. Figure 9. World Marketed EnergyConsumption, 1980-2030 (Quadrillion Btu). Need help, contact the National Energy Information Center at 202-586-8800. Figure Data Figure 10. World Marketed Energy Consumption: OECD and Non-OECD, 1980-2030 (Quadrillion Btu). Need help, contact the National Energy Information Center at 202-586-8800. Figure Data Figure 11. Marketed Energy Use in the Non-OECD Economies by Region, 1990-2030 (Quadrillion Btu). Need help, contact the National Energy Information Center at 202-586-8800.

490

U.S. Energy Information Administration (EIA) - Sector  

Gasoline and Diesel Fuel Update (EIA)

Transportation sector energy demand Transportation sector energy demand Growth in transportation energy consumption flat across projection figure data The transportation sector consumes 27.1 quadrillion Btu of energy in 2040, the same as the level of energy demand in 2011 (Figure 70). The projection of no growth in transportation energy demand differs markedly from the historical trend, which saw 1.1-percent average annual growth from 1975 to 2011 [126]. No growth in transportation energy demand is the result of declining energy use for LDVs, which offsets increased energy use for heavy-duty vehicles (HDVs), aircraft, marine, rail, and pipelines. Energy demand for LDVs declines from 16.1 quadrillion Btu in 2011 to 13.0 quadrillion Btu in 2040, in contrast to 0.9-percent average annual growth

491

U.S. Energy Information Administration (EIA) - Source  

Gasoline and Diesel Fuel Update (EIA)

Residential from Market Trends Residential from Market Trends Industrial and commercial sectors lead U.S. growth in primary energy use figure data Total primary energy consumption, including fuels used for electricity generation, grows by 0.3 percent per year from 2011 to 2040, to 107.6 quadrillion Btu in 2040 in the AEO2013 Reference case (Figure 53). The largest growth, 5.1 quadrillion Btu from 2011 to 2040, is in the industrial sector, attributable to increased use of natural gas in some industries (bulk chemicals, for example) as a result of an extended period of relatively low prices coinciding with rising shipments in those industries. The industrial sector was more severely affected than the other end-use sectors by the 2007-2009 economic downturn; the increase in industrial energy consumption from 2008 through 2040 is 3.9 quadrillion Btu.

492

EIA - Annual Energy Outlook 2009 - Coal Production  

Gasoline and Diesel Fuel Update (EIA)

Coal Production Coal Production Annual Energy Outlook 2009 with Projections to 2030 Coal Production Figure 78. Coal production by region, 1970-2030 (quadrillion Btu). Need help, contact the National Energy Information Center at 202-586-8800. figure data Figure 79. U.S. coal production in four cases, 2007, 2015, and 2030 (quadrillion Btu). Need help, contact the National Energy Information Center at 202-586-8800. figure data Figure 80. Average minemouth coal prices by regionCoal production by region, 1970-2030 (quadrillion Btu). Need help, contact the National Energy Information Center at 202-586-8800. figure data Total Coal Production Increases at a Slower Rate Than in the Past In the AEO2009 reference case, increasing coal use for electricity generation at both new and existing plants and the startup of several CTL

493

International Energy Outlook 2007  

Gasoline and Diesel Fuel Update (EIA)

In the IEO2007 reference case, total world consumption of marketed energy is projected In the IEO2007 reference case, total world consumption of marketed energy is projected to increase by 57 percent from 2004 to 2030. The largest projected increase in energy demand is for the non-OECD region. The IEO2007 reference case-which reflects a scenario where current laws and policies remain unchanged throughout the projection period-projects strong growth for worldwide energy demand from 2004 to 2030. Total world consumption of marketed energy is projected to increase from 447 quadrillion Btu in 2004 to 559 quadrillion Btu in 2015 and then to 702 quadrillion Btu in 2030-a 57-percent increase over the projection period (Table 1 and Figure 8). The largest projected increase in energy demand is for the non-OECD region. Generally, countries outside the OECD 3 have higher projected economic growth rates and more rapid population growth

494

International Energy Outlook 2011 - Energy Information Administration  

Gasoline and Diesel Fuel Update (EIA)

International Energy Outlook 2011 International Energy Outlook 2011 Release Date: September 19, 2011 | Next Scheduled Release Date: June 10, 2013 | Report Number: DOE/EIA-0484(2011) No International Energy Outlook will be released in 2012. The next edition of the report is scheduled for release in Spring 2013 Highlights International Energy Outlook 2011 cover. In the IEO2011 Reference case, which does not incorporate prospective legislation or policies that might affect energy markets, world marketed energy consumption grows by 53 percent from 2008 to 2035. Total world energy use rises from 505 quadrillion British thermal units (Btu) in 2008 to 619 quadrillion Btu in 2020 and 770 quadrillion Btu in 2035 (Figure 1). Much of the growth in energy consumption occurs in countries outside the Organization for

495

International Energy Outlook 2006  

Gasoline and Diesel Fuel Update (EIA)

energy consumption is projected to increase by 71 percent from 2003 to 2030. energy consumption is projected to increase by 71 percent from 2003 to 2030. Fossil fuels continue to supply much of the energy used worldwide, and oil remains the dominant energy source. In the International Energy Outlook 2006 (IEO2006) ref- erence case, world marketed energy consumption increases on average by 2.0 percent per year from 2003 to 2030. Although world oil prices in the reference case, which remain between $47 and $59 per barrel (in real 2004 dollars), dampen the growth in demand for oil, total world energy use continues to increase as a result of robust economic growth. Worldwide, total energy use grows from 421 quadrillion British thermal units (Btu) in 2003 to 563 quadrillion Btu in 2015 and 722 quadrillion Btu in 2030 (Figure 1). The most rapid growth in energy demand from 2003 to 2030 is projected for nations outside the Organization

496

U.S. Energy Information Administration (EIA) - Residential  

Gasoline and Diesel Fuel Update (EIA)

Consumption Consumption Glossary › FAQS › Overview Industrial Commercial Industrial Transportation Manufacturing Energy Consumption Survey Data 2006 Analysis & Reports Early-release estimates from the 2010 MECS show that energy consumption in the manufacturing sector decreased between 2006 and 2010 MECS 2006-2010 - Release date: March 28, 2012 Energy consumption in the U.S. manufacturing sector fell from 21,098 trillion Btu (tBtu) in 2006 to 19,062 tBtu in 2010, a decline of almost 10 percent, based on preliminary estimates released from the 2010 Manufacturing Energy Consumption Survey (MECS). This decline continues the downward trend in manufacturing energy use since the 1998 MECS report. figure data The decrease in energy consumption in the manufacturing sector was also

497

Word Pro - Untitled1  

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

0 Primary Energy Consumption by Source and Sector, 2011 0 Primary Energy Consumption by Source and Sector, 2011 (Quadrillion Btu) U.S. Energy Information Administration / Annual Energy Review 2011 37 1 Does not include biofuels that have been blended with petroleum-biofuels are included in "Renewable Energy." 2 Excludes supplemental gaseous fuels. 3 Includes less than 0.1 quadrillion Btu of coal coke net imports. 4 Conventional hydroelectric power, geothermal, solar/photovoltaic, wind, and biomass. 5 Includes industrial combined-heat-and-power (CHP) and industrial electricity-only plants. 6 Includes commercial combined-heat-and-power (CHP) and commercial electricity-only plants. 7 Electricity-only and combined-heat-and-power (CHP) plants whose primary business is to sell electricity, or electricity and heat, to the public. Includes 0.1 quadrillion Btu of electricity net

498

Table 5.5 End Uses of Fuel Consumption, 2010;  

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

5 End Uses of Fuel Consumption, 2010; 5 End Uses of Fuel Consumption, 2010; Level: National and Regional Data; Row: End Uses; Column: Energy Sources, including Net Electricity; Unit: Physical Units or Btu. Distillate Coal Fuel Oil (excluding Coal Net Residual and Natural Gas(c) LPG and Coke and Breeze) Total Electricity(a) Fuel Oil Diesel Fuel(b) (billion NGL(d) (million Other(e) End Use (trillion Btu) (million kWh) (million bbl) (million bbl) cu ft) (million bbl) short tons) (trillion Btu) Total United States TOTAL FUEL CONSUMPTION 14,228 714,166 13 22 5,064 18 39 5,435 Indirect Uses-Boiler Fuel -- 7,788 7 3 2,074 3 26 -- Conventional Boiler Use -- 7,788 3 1 712 1 3 -- CHP and/or Cogeneration Process -- 0 4 3 1,362 2 23 -- Direct Uses-Total Process

499

DOE/EIA-0304 Survey of Large Combustors:  

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

304 304 Survey of Large Combustors: Report on Alternative- Fuel Burning Capabilities of Large Boilers in 1979 U.S. Department of Energy Energy information Administration Office of Energy Markets and End Use Energy End Use Division Introduction During recent years, total annual industrial energy consumption in the United States has been approximated at 25 to 26 quadrillion British thermal units (Btu).^- Manufacturin g is by far the largest components totaling 12.9 quadrillion Btu of purchased fuels and electricity for heat and power during 1979.2 QJ this amount, 10.5 quadrillion Btu was accounted for by purchased fuels alone (e.g., fuel oil, coal, natural gas, etc.). Other than fuel consumption by type and industrial classificati on, very little information existed on specific fuel consumption characterist

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Microsoft PowerPoint - Allemon_Ford.PPT  

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

Change in Energy Use Change in Energy Use at Ford Motor Company George Andraos, William Allemon 2005 Energy Star Leadership Conference Overview * 40 North American Manufacturing Facilities. * 52 bilBTU load. * Efficiency & Supply Side Management Teams. * Energy coordinators located at each plant. * Onsite support from DTE Energy Partnership. 2005 Energy Star Leadership Conference Measurement mmBTU/Unit Reduction * Goal: 18% reduction by end of 2005 vs. year 2000 baseline. * Monthly performance monitoring and reporting. * Normalized for weather and vehicle production variances. * Automating data collection. * Currently on track to accomplish goal. North American Energy Reduction (mmBTU/Unit) 70 75 80 85 90 95 100 Jan-01 Mar-01 May-01 Jul-01 Sep-01 Nov-01 Jan-02 Mar-02 May-02 Jul-02 Sep-02 Nov-02 Jan-03