National Library of Energy BETA

Sample records for working gas stocks

  1. Working Gas Capacity

    U.S. Energy Information Administration (EIA) (indexed site)

    5 2015 Working Gas Capacity (billion cubic feet) ≥ 100 75 to 99 U.S. Energy Information Administration | Natural Gas Annual Figure 15. Locations of existing natural gas underground storage fields in the United States, 2015 50 to 74 Source: Energy Information Administration (EIA), Form EIA-191, "Monthly Underground Gas Storage Report." Reservoir Type Sites = Depleted Field 329 = Salt Cav

  2. Working Gas in Underground Storage Figure

    Annual Energy Outlook

    Working Gas in Underground Storage Figure Working Gas in Underground Storage Figure Working Gas in Underground Storage Compared with 5-Year Range Graph....

  3. Virginia Natural Gas in Underground Storage (Working Gas) (Million...

    U.S. Energy Information Administration (EIA) (indexed site)

    Working Gas) (Million Cubic Feet) Virginia Natural Gas in Underground Storage (Working ... Underground Working Natural Gas in Storage - All Operators Virginia Underground Natural ...

  4. New Mexico Natural Gas in Underground Storage (Working Gas) ...

    Gasoline and Diesel Fuel Update

    Working Gas) (Million Cubic Feet) New Mexico Natural Gas in Underground Storage (Working ... Underground Working Natural Gas in Storage - All Operators New Mexico Underground Natural ...

  5. New York Natural Gas in Underground Storage (Working Gas) (Million...

    Annual Energy Outlook

    Working Gas) (Million Cubic Feet) New York Natural Gas in Underground Storage (Working ... Underground Working Natural Gas in Storage - All Operators New York Underground Natural ...

  6. Natural Gas Plant Stocks of Natural Gas Liquids

    Gasoline and Diesel Fuel Update

    Product: Natural Gas Liquids Pentanes Plus Liquefied Petroleum Gases Ethane Propane Normal Butane Isobutane Period: Monthly Annual Download Series History Download Series History ...

  7. Working Gas in Underground Storage Figure

    Annual Energy Outlook

    Gas in Underground Storage Figure Working Gas in Underground Storage Compared with 5-Year Range Graph...

  8. Total Working Gas Capacity

    Gasoline and Diesel Fuel Update

    Confidential Presentation to: April 7, 2008 Middle East oil demand and Lehman Brothers oil price outlook Adam Robinson Middle East oil demand u Three pillars of Middle East oil demand - Petrodollar reinvestment - Purchasing power rise - Power sector constraints u Natural gas shortages for power generation mean balance of risks to any Middle East oil demand forecast are firmly to the upside, adding to summer upside seasonality u Lehman Brothers has pegged 3Q08 as the tightest quarter of the

  9. Working Gas in Underground Storage Figure

    Gasoline and Diesel Fuel Update

    Working Gas in Underground Storage Figure Working Gas in Underground Storage Compared with 5-Year Range Graph.

  10. Washington Natural Gas in Underground Storage (Working Gas) ...

    Annual Energy Outlook

    Working Gas) (Million Cubic Feet) Washington Natural Gas in Underground Storage (Working Gas) (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 8,882...

  11. Kentucky Natural Gas in Underground Storage (Working Gas) (Million...

    Gasoline and Diesel Fuel Update

    Working Gas) (Million Cubic Feet) Kentucky Natural Gas in Underground Storage (Working Gas) (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 58,567 ...

  12. Indiana Natural Gas in Underground Storage (Working Gas) (Million...

    Gasoline and Diesel Fuel Update

    Working Gas) (Million Cubic Feet) Indiana Natural Gas in Underground Storage (Working Gas) (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 22,371 ...

  13. Colorado Natural Gas in Underground Storage (Working Gas) (Million...

    Gasoline and Diesel Fuel Update

    Working Gas) (Million Cubic Feet) Colorado Natural Gas in Underground Storage (Working Gas) (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 27,491 ...

  14. Illinois Natural Gas in Underground Storage (Working Gas) (Million...

    Gasoline and Diesel Fuel Update

    Working Gas) (Million Cubic Feet) Illinois Natural Gas in Underground Storage (Working Gas) (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 234,149 ...

  15. Iowa Natural Gas in Underground Storage (Working Gas) (Million...

    Annual Energy Outlook

    Working Gas) (Million Cubic Feet) Iowa Natural Gas in Underground Storage (Working Gas) (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 74,086 66,477 ...

  16. Kansas Natural Gas in Underground Storage (Working Gas) (Million...

    Annual Energy Outlook

    Working Gas) (Million Cubic Feet) Kansas Natural Gas in Underground Storage (Working Gas) (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 65,683 ...

  17. Oregon Natural Gas in Underground Storage (Working Gas) (Million...

    U.S. Energy Information Administration (EIA) (indexed site)

    Working Gas) (Million Cubic Feet) Oregon Natural Gas in Underground Storage (Working Gas) (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 3,705 2,366 ...

  18. Pennsylvania Natural Gas in Underground Storage (Working Gas...

    U.S. Energy Information Administration (EIA) (indexed site)

    Working Gas) (Million Cubic Feet) Pennsylvania Natural Gas in Underground Storage (Working Gas) (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 ...

  19. Oklahoma Natural Gas in Underground Storage (Working Gas) (Million...

    U.S. Energy Information Administration (EIA) (indexed site)

    Working Gas) (Million Cubic Feet) Oklahoma Natural Gas in Underground Storage (Working Gas) (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 129,245 ...

  20. Peak Underground Working Natural Gas Storage Capacity

    Gasoline and Diesel Fuel Update

    Definitions Definitions Since 2006, EIA has reported two measures of aggregate capacity, one based on demonstrated peak working gas storage, the other on working gas design capacity. Demonstrated Peak Working Gas Capacity: This measure sums the highest storage inventory level of working gas observed in each facility over the 5-year range from May 2005 to April 2010, as reported by the operator on the Form EIA-191M, "Monthly Underground Gas Storage Report." This data-driven estimate

  1. U.S. Total Natural Gas Plant Stocks

    Gasoline and Diesel Fuel Update

    Total Crude Oil and Petroleum Products (Incl. SPR) 2,039,093 2,035,511 2,026,773 2,035,819 2,028,853 2,035,945 1990-2016 Total Crude Oil and Petroleum Products (Excl. SPR) 1,344,003 1,340,422 1,331,684 1,340,731 1,333,766 1,340,858 1990-2016 Crude Oil (Including SPR) 1,169,048 1,163,800 1,163,247 1,177,666 1,180,097 1,185,371 1982-2016 Commercial Crude Oil (Excl. Lease Stock) 473,958 468,711 468,158 482,578 485,010 490,284 1982-2016 Commercial Crude Oil (Incl. Lease Stock) 1982-2016 Alaska

  2. Philadelphia Gas Works - Commercial and Industrial Equipment...

    Energy.gov (indexed) [DOE]

    Administrator Philadelphia Gas Works Website http:www.pgwenergysense.comdownloads.html State Pennsylvania Program Type Rebate Program Rebate Amount Commercial Boilers: 800 -...

  3. Peak Underground Working Natural Gas Storage Capacity

    Gasoline and Diesel Fuel Update

    Methodology Methodology Demonstrated Peak Working Gas Capacity Estimates: Estimates are based on aggregation of the noncoincident peak levels of working gas inventories at individual storage fields as reported monthly over a 60-month period ending in April 2010 on Form EIA-191M, "Monthly Natural Gas Underground Storage Report." The months of measurement for the peak storage volumes by facilities may differ; i.e., the months do not necessarily coincide. As such, the noncoincident peak

  4. Tennessee Natural Gas in Underground Storage (Working Gas) (Million Cubic

    U.S. Energy Information Administration (EIA) (indexed site)

    Feet) Working Gas) (Million Cubic Feet) Tennessee Natural Gas in Underground Storage (Working Gas) (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1997 0 0 0 0 0 0 0 0 0 0 0 0 1998 459 343 283 199 199 199 333 467 579 682 786 787 1999 656 532 401 321 318 462 569 645 749 854 911 855 2000 691 515 452 389 371 371 371 371 371 420 534 619 2001 623 563 490 421 525 638 669 732 778 840 598 597 2002 647 648 650 650 625 622 609 605 602 600 512 512 2003 404 294 226 179 214 290

  5. Louisiana Natural Gas in Underground Storage (Working Gas) (Million Cubic

    U.S. Energy Information Administration (EIA) (indexed site)

    Feet) Working Gas) (Million Cubic Feet) Louisiana Natural Gas in Underground Storage (Working Gas) (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 115,418 117,492 109,383 110,052 117,110 131,282 145,105 158,865 173,570 188,751 197,819 190,747 1991 141,417 109,568 96,781 103,300 122,648 146,143 159,533 169,329 190,953 211,395 197,661 165,940 1992 120,212 91,394 79,753 85,867 106,675 124,940 136,861 152,715 174,544 194,414 187,236 149,775 1993 103,287 66,616

  6. Michigan Natural Gas in Underground Storage (Working Gas) (Million Cubic

    U.S. Energy Information Administration (EIA) (indexed site)

    Feet) Working Gas) (Million Cubic Feet) Michigan Natural Gas in Underground Storage (Working Gas) (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 311,360 252,796 228,986 221,127 269,595 333,981 410,982 481,628 534,303 553,823 542,931 472,150 1991 348,875 285,217 262,424 287,946 315,457 372,989 431,607 478,293 498,086 539,454 481,257 405,327 1992 320,447 244,921 179,503 179,306 224,257 292,516 367,408 435,817 504,312 532,896 486,495 397,280 1993 296,403 194,201

  7. Montana Natural Gas in Underground Storage (Working Gas) (Million Cubic

    U.S. Energy Information Administration (EIA) (indexed site)

    Feet) Working Gas) (Million Cubic Feet) Montana Natural Gas in Underground Storage (Working Gas) (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 184,212 180,918 178,620 181,242 179,235 181,374 183,442 187,348 185,848 181,029 1991 179,697 178,285 176,975 176,918 178,145 179,386 181,094 182,534 182,653 181,271 178,539 174,986 1992 111,256 109,433 109,017 109,150 110,146 110,859 111,885 112,651 112,225 110,868 107,520 101,919 1993 96,819 92,399 89,640 87,930

  8. Alabama Natural Gas in Underground Storage (Working Gas) (Million Cubic

    U.S. Energy Information Administration (EIA) (indexed site)

    Feet) Working Gas) (Million Cubic Feet) Alabama Natural Gas in Underground Storage (Working Gas) (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1995 499 497 233 233 260 302 338 556 1,148 1,075 886 485 1996 431 364 202 356 493 971 1,164 1,553 1,891 2,008 1,879 1,119 1997 588 404 429 559 830 923 966 1,253 1,515 1,766 1,523 1,523 1998 773 585 337 582 727 1,350 1,341 1,540 1,139 1,752 1,753 1,615 1999 802 688 376 513 983 1,193 1,428 1,509 1,911 1,834 1,968 1,779 2000

  9. California Natural Gas in Underground Storage (Working Gas) (Million Cubic

    U.S. Energy Information Administration (EIA) (indexed site)

    Feet) Working Gas) (Million Cubic Feet) California Natural Gas in Underground Storage (Working Gas) (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 125,898 106,575 111,248 132,203 157,569 170,689 174,950 177,753 182,291 196,681 196,382 153,841 1991 132,323 132,935 115,982 136,883 163,570 187,887 201,443 204,342 199,994 199,692 193,096 168,789 1992 125,777 109,000 93,277 107,330 134,128 156,158 170,112 182,680 197,049 207,253 197,696 140,662 1993 106,890 87,612

  10. AGA Producing Region Natural Gas in Underground Storage (Working Gas)

    U.S. Energy Information Administration (EIA) (indexed site)

    (Million Cubic Feet) Working Gas) (Million Cubic Feet) AGA Producing Region Natural Gas in Underground Storage (Working Gas) (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1994 393,598 297,240 289,617 356,360 461,202 516,155 604,504 678,168 747,928 783,414 775,741 673,670 1995 549,759 455,591 416,294 457,969 533,496 599,582 638,359 634,297 713,319 766,411 700,456 552,458 1996 369,545 263,652 195,447 224,002 279,731 339,263 391,961 474,402 578,991 638,500 562,097

  11. Mountain Region Natural Gas in Underground Storage (Working Gas...

    Gasoline and Diesel Fuel Update

    Storage (Working Gas) (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 2014 137,378 102,507 83,983 82,058 98,717 121,623 140,461 157,716 174,610 187,375...

  12. Pacific Region Natural Gas in Underground Storage (Working Gas...

    U.S. Energy Information Administration (EIA) (indexed site)

    Storage (Working Gas) (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 2014 197,953 115,235 104,941 144,268 200,453 249,196 274,725 302,752 318,020...

  13. ,"U.S. Refinery, Bulk Terminal, and Natural Gas Plant Stocks of Selected Petroleum Products"

    U.S. Energy Information Administration (EIA) (indexed site)

    Refinery, Bulk Terminal, and Natural Gas Plant Stocks of Selected Petroleum Products" ,"Click worksheet name or tab at bottom for data" ,"Worksheet Name","Description","# Of Series","Frequency","Latest Data for" ,"Data 1","U.S. Refinery, Bulk Terminal, and Natural Gas Plant Stocks of Selected Petroleum Products",13,"Monthly","8/2016","1/15/1993" ,"Release

  14. Maryland Natural Gas in Underground Storage (Working Gas) (Million Cubic

    U.S. Energy Information Administration (EIA) (indexed site)

    Feet) Working Gas) (Million Cubic Feet) Maryland Natural Gas in Underground Storage (Working Gas) (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 4,303 1,142 2,247 2,979 5,536 6,593 8,693 11,353 13,788 15,025 12,900 11,909 1991 8,772 5,481 3,859 4,780 6,264 7,917 9,321 11,555 13,665 14,339 14,626 14,529 1992 9,672 4,736 2,075 1,178 4,484 7,172 8,993 11,380 13,446 14,695 15,205 13,098 1993 9,826 5,478 3,563 3,068 5,261 6,437 7,528 9,247 11,746 14,426 14,826

  15. Minnesota Natural Gas in Underground Storage (Working Gas) (Million Cubic

    U.S. Energy Information Administration (EIA) (indexed site)

    Feet) Working Gas) (Million Cubic Feet) Minnesota Natural Gas in Underground Storage (Working Gas) (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 1,708 1,141 1,211 1,688 2,017 2,129 2,261 2,309 2,370 2,397 2,395 2,007 1991 1,551 1,313 1,207 1,362 1,619 1,931 2,222 2,214 2,307 2,273 2,191 2,134 1992 1,685 1,556 1,228 1,019 1,409 1,716 2,013 2,193 2,319 2,315 2,307 2,104 1993 1,708 1,290 872 824 1,141 1,485 1,894 2,022 2,260 2,344 2,268 1,957 1994 1,430 1,235

  16. Mississippi Natural Gas in Underground Storage (Working Gas) (Million Cubic

    U.S. Energy Information Administration (EIA) (indexed site)

    Feet) Working Gas) (Million Cubic Feet) Mississippi Natural Gas in Underground Storage (Working Gas) (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 33,234 33,553 34,322 39,110 43,935 47,105 53,425 58,298 62,273 65,655 66,141 60,495 1991 43,838 39,280 39,196 45,157 48,814 50,833 52,841 54,954 60,062 64,120 56,034 50,591 1992 40,858 39,723 37,350 37,516 41,830 46,750 51,406 51,967 58,355 59,621 59,164 52,385 1993 46,427 38,859 32,754 35,256 42,524 46,737 51,884

  17. Missouri Natural Gas in Underground Storage (Working Gas) (Million Cubic

    U.S. Energy Information Administration (EIA) (indexed site)

    Feet) Working Gas) (Million Cubic Feet) Missouri Natural Gas in Underground Storage (Working Gas) (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 8,081 5,796 6,047 7,156 7,151 7,146 7,140 7,421 7,927 8,148 8,157 7,869 1991 7,671 5,875 4,819 6,955 7,638 7,738 8,033 8,335 8,547 8,765 8,964 8,952 1992 7,454 6,256 5,927 7,497 7,924 8,071 8,337 8,555 8,763 8,954 8,946 8,939 1993 7,848 6,037 4,952 6,501 7,550 8,001 8,104 8,420 8,627 8,842 8,720 8,869 1994 7,602 7,073

  18. Nebraska Natural Gas in Underground Storage (Working Gas) (Million Cubic

    U.S. Energy Information Administration (EIA) (indexed site)

    Feet) Working Gas) (Million Cubic Feet) Nebraska Natural Gas in Underground Storage (Working Gas) (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 55,226 54,179 53,869 54,783 56,160 57,690 56,165 56,611 57,708 58,012 57,606 54,005 1991 52,095 51,060 50,341 51,476 54,531 56,673 56,409 56,345 57,250 56,941 56,535 54,163 1992 52,576 51,568 51,525 52,136 53,768 56,396 58,446 59,656 60,842 60,541 57,948 54,512 1993 51,102 49,136 48,100 49,069 52,016 55,337 57,914

  19. Alaska Natural Gas in Underground Storage (Working Gas) (Million Cubic

    U.S. Energy Information Administration (EIA) (indexed site)

    Feet) Working Gas) (Million Cubic Feet) Alaska Natural Gas in Underground Storage (Working Gas) (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 2013 8,956 13,913 13,743 14,328 15,277 16,187 17,087 18,569 20,455 22,149 21,244 19,819 2014 20,043 19,668 20,566 20,447 20,705 22,252 22,508 23,254 23,820 23,714 24,272 24,997 2015 24,811 24,626 24,391 24,208 24,279 24,357 24,528 24,635 24,543 24,595 24,461 24,319 2016 24,295 24,790 25,241 26,682 28,639 30,108 32,084 34,081

  20. Arkansas Natural Gas in Underground Storage (Working Gas) (Million Cubic

    U.S. Energy Information Administration (EIA) (indexed site)

    Feet) Working Gas) (Million Cubic Feet) Arkansas Natural Gas in Underground Storage (Working Gas) (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 8,676 8,646 8,608 8,644 8,745 9,217 9,744 10,226 10,505 10,532 10,454 10,227 1991 8,296 7,930 7,609 7,414 7,545 7,884 8,371 8,385 8,385 8,385 7,756 7,093 1992 6,440 5,922 5,569 5,501 5,499 6,009 6,861 7,525 7,959 7,883 7,656 7,166 1993 6,541 5,752 5,314 5,204 4,696 4,969 4,969 4,969 4,969 4,897 4,421 3,711 1994 2,383

  1. Wyoming Natural Gas in Underground Storage (Working Gas) (Million Cubic

    U.S. Energy Information Administration (EIA) (indexed site)

    Feet) Working Gas) (Million Cubic Feet) Wyoming Natural Gas in Underground Storage (Working Gas) (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 53,604 51,563 52,120 53,225 54,581 56,980 58,990 61,428 62,487 60,867 1991 54,085 53,423 53,465 53,581 54,205 56,193 58,416 60,163 61,280 61,366 59,373 57,246 1992 30,371 28,356 27,542 27,461 27,843 28,422 29,588 29,692 30,555 29,505 27,746 23,929 1993 20,529 18,137 17,769 18,265 19,253 21,322 23,372 24,929 26,122

  2. First AEO2015 Oil and Gas Working Group Meeting Summary

    U.S. Energy Information Administration (EIA) (indexed site)

    TEAM EXPLORATION AND PRODUCTION and NATURAL GAS MARKETS TEAMS SUBJECT: First AEO2015 Oil and Gas Working Group ... to High Resource case * World oil price outlooks based on ...

  3. Pennsylvania Natural Gas in Underground Storage - Change in Working Gas

    U.S. Energy Information Administration (EIA) (indexed site)

    from Same Month Previous Year (Million Cubic Feet) Million Cubic Feet) Pennsylvania Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 -2,863 -1,902 -2,297 -1,134 -1,671 -1,997 -907 -144 629 992 2,290 1,354 1991 30,778 27,964 37,141 36,920 15,424 -18,322 -46,969 -63,245 -61,004 -48,820 -54,587 -34,458 1992 6,870 -8,479 -43,753 -43,739 -33,236 -8,601 3,190 9,732 8,583 15,815

  4. Alternative Fuels Data Center: How Do Natural Gas Cars Work?

    Alternative Fuels and Advanced Vehicles Data Center

    Natural Gas Cars Work? to someone by E-mail Share Alternative Fuels Data Center: How Do Natural Gas Cars Work? on Facebook Tweet about Alternative Fuels Data Center: How Do Natural ...

  5. Weekly Working Gas in Underground Storage

    U.S. Energy Information Administration (EIA) (indexed site)

    Working Gas in Underground Storage (Billion Cubic Feet) Period: Weekly Download Series History Download Series History Definitions, Sources & Notes Definitions, Sources & Notes Region 10/07/16 10/14/16 10/21/16 10/28/16 11/04/16 11/11/16 View History Total Lower 48 States 3,759 3,836 3,909 3,963 4,017 4,047 2010-2016 East 913 925 939 940 946 944 2010-2016 Midwest 1,071 1,093 1,115 1,130 1,148 1,155 2010-2016 Mountain 240 243 245 249 253 257 2010-2016 Pacific 323 325 326 326 327 328

  6. Philadelphia Gas Works: Who’s on First?

    Energy.gov [DOE]

    Presentation—given at the Fall 2011 Federal Utility Partnership Working Group (FUPWG) meeting—about the Philadelphia Gas Works (PGW) and its federal projects.

  7. Pennsylvania Natural Gas in Underground Storage - Change in Working Gas

    U.S. Energy Information Administration (EIA) (indexed site)

    from Same Month Previous Year (Percent) Percent) Pennsylvania Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Percent) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1991 18.8 22.4 37.0 33.4 9.7 -8.5 -17.7 -19.9 -17.0 -13.4 -15.2 -11.2 1992 3.5 -5.5 -31.8 -29.7 -19.1 -4.4 1.5 3.8 2.9 5.0 9.1 6.0 1993 8.3 -16.5 -29.1 -13.2 -5.0 -0.1 5.0 3.1 4.8 0.9 -1.5 -3.3 1994 -21.0 -19.2 13.5 27.9 24.0 18.3 16.9 15.8 5.8 6.1 2.3 5.6 1995 35.1 43.1 48.4 8.5

  8. ,"U.S. Natural Gas Non-Salt Underground Storage - Working Gas...

    U.S. Energy Information Administration (EIA) (indexed site)

    Natural Gas Non-Salt Underground Storage - Working Gas (MMcf)",1,"Monthly","2...dnavnghistn5510us2m.htm" ,"Source:","Energy Information Administration" ,"For Help, ...

  9. Two-tank working gas storage system for heat engine

    SciTech Connect (OSTI)

    Hindes, C.J.

    1987-04-07

    This patent describes a working gas control system for use in connection with a hot gas engine including a power controller for admitting the working gas to the engine to increase engine power and for releasing working gas from the engine to decrease engine power. A compressor compresses the working gas released from the engine. Storage vessels are included for storing the working gas received from the compressor and supplying the gas through the power controller to the engine. Each vessel stores the working gas at a different pressure. A valve means selectively couples the vessels to the controller and selectively couples the vessels to the compressor so that the selected vessel can supply the working gas to the engine or receive the gas from the compressor. Respective gas lines connect the valve means with the compressor and the power controller. The improvement described here is wherein the vessels include a high pressure vessel and a low pressure vessel. The valve means includes a low-pressure solenoid two-position valve on the line to the low pressure vessel, a first portion permitting flow of the gas in either direction, a second position permitting flow only in the direction towards the engine; and a high-pressure solenoid two-position valve on the line to the high-pressure vessel. One position permits flow of the gas in either direction; the other position permits flow only in the direction towards the high-pressure vessel.

  10. Two-tank working gas storage system for heat engine

    DOE Patents [OSTI]

    Hindes, Clyde J.

    1987-01-01

    A two-tank working gas supply and pump-down system is coupled to a hot gas engine, such as a Stirling engine. The system has a power control valve for admitting the working gas to the engine when increased power is needed, and for releasing the working gas from the engine when engine power is to be decreased. A compressor pumps the working gas that is released from the engine. Two storage vessels or tanks are provided, one for storing the working gas at a modest pressure (i.e., half maximum pressure), and another for storing the working gas at a higher pressure (i.e., about full engine pressure). Solenoid valves are associated with the gas line to each of the storage vessels, and are selectively actuated to couple the vessels one at a time to the compressor during pumpdown to fill the high-pressure vessel with working gas at high pressure and then to fill the low-pressure vessel with the gas at low pressure. When more power is needed, the solenoid valves first supply the low-pressure gas from the low-pressure vessel to the engine and then supply the high-pressure gas from the high-pressure vessel. The solenoid valves each act as a check-valve when unactuated, and as an open valve when actuated.

  11. Two-tank working gas storage system for heat engine

    SciTech Connect (OSTI)

    Hindes, C.J.

    1987-04-07

    A two-tank working gas supply and pump-down system is coupled to a hot gas engine, such as a Stirling engine. The system has a power control valve for admitting the working gas to the engine when increased power is needed, and for releasing the working gas from the engine when engine power is to be decreased. A compressor pumps the working gas that is released from the engine. Two storage vessels or tanks are provided, one for storing the working gas at a modest pressure (i.e., half maximum pressure), and another for storing the working gas at a higher pressure (i.e., about full engine pressure). Solenoid valves are associated with the gas line to each of the storage vessels, and are selectively actuated to couple the vessels one at a time to the compressor during pumpdown to fill the high-pressure vessel with working gas at high pressure and then to fill the low-pressure vessel with the gas at low pressure. When more power is needed, the solenoid valves first supply the low-pressure gas from the low-pressure vessel to the engine and then supply the high-pressure gas from the high-pressure vessel. The solenoid valves each act as a check-valve when unactuated, and as an open valve when actuated. 6 figs.

  12. Virginia Natural Gas in Underground Storage - Change in Working...

    U.S. Energy Information Administration (EIA) (indexed site)

    Percent) Virginia Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Percent) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1997 0.0 ...

  13. Washington Natural Gas in Underground Storage - Change in Working...

    Gasoline and Diesel Fuel Update

    Percent) Washington Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Percent) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1991...

  14. Washington Natural Gas in Underground Storage - Change in Working...

    Gasoline and Diesel Fuel Update

    Million Cubic Feet) Washington Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug...

  15. Philadelphia Gas Works- Residential and Commercial Construction Incentives Program

    Office of Energy Efficiency and Renewable Energy (EERE)

    Philadelphia Gas Works (PGW) provides incentives to developers, home builders and building owners that build new facilities or undergo gut-rehab projects to conserve gas beyond the level consumed...

  16. New York Natural Gas in Underground Storage - Change in Working...

    U.S. Energy Information Administration (EIA) (indexed site)

    Percent) New York Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Percent) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1991 9.4...

  17. Oklahoma Natural Gas in Underground Storage - Change in Working...

    U.S. Energy Information Administration (EIA) (indexed site)

    Percent) Oklahoma Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Percent) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1991 -13.9 ...

  18. Oklahoma Natural Gas in Underground Storage - Change in Working...

    Annual Energy Outlook

    Million Cubic Feet) Oklahoma Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep ...

  19. New Mexico Natural Gas in Underground Storage - Change in Working...

    U.S. Energy Information Administration (EIA) (indexed site)

    Percent) New Mexico Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Percent) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1991 ...

  20. New Mexico Natural Gas in Underground Storage - Change in Working...

    U.S. Energy Information Administration (EIA) (indexed site)

    Million Cubic Feet) New Mexico Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug ...

  1. Minnesota Natural Gas in Underground Storage - Change in Working...

    U.S. Energy Information Administration (EIA) (indexed site)

    Percent) Minnesota Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Percent) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1991 -9.2 ...

  2. Minnesota Natural Gas in Underground Storage - Change in Working...

    U.S. Energy Information Administration (EIA) (indexed site)

    Million Cubic Feet) Minnesota Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep ...

  3. Philadelphia Gas Works- Residential and Small Business Equipment Rebate Program

    Office of Energy Efficiency and Renewable Energy (EERE)

    Philadelphia Gas Works' (PGW) Residential Heating Equipment rebates are available to all PGW residential or small business customers installing high efficiency boilers and furnaces, and programma...

  4. Federal Utility Partnership Working Group: Atlanta Gas Light Resources

    Energy.gov [DOE]

    Presentation—given at the April 2012 Federal Utility Partnership Working Group (FUPWG) meeting—lists Altanta Gas Light (AGL) resources and features a map of its footprint.

  5. Peak Underground Working Natural Gas Storage Capacity

    Gasoline and Diesel Fuel Update

    Feet) Base Gas) (Million Cubic Feet) Pacific Region Natural Gas in Underground Storage (Base Gas) (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 2013 272,719 272,719 272,719 272,719 272,719 272,719 258,434 258,434 258,434 258,434 258,434 258,736 2014 258,736 258,541 258,456 258,619 258,736 258,736 258,736 258,736 258,736 259,036 259,036 259,036 2015 259,036 259,036 259,036 259,036 259,036 259,036 259,036 259,036 259,036 259,331 259,331 259,331 2016 259,331 259,331

  6. Philadelphia Navy Yard: UESC Project with Philadelphia Gas Works

    Office of Energy Efficiency and Renewable Energy (EERE)

    Presentation—given at the Fall 2011 Federal Utility Partnership Working Group (FUPWG) meeting—provides information on the Philadelphia Navy Yard's utility energy services contract (UESC) project with Philadelphia Gas Works (PGW).

  7. Philadelhia Gas Works (PGW) Doe Furnace Rule | Department of Energy

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Philadelhia Gas Works (PGW) Doe Furnace Rule Philadelhia Gas Works (PGW) Doe Furnace Rule DOE Furnace Rule (111.99 KB) More Documents & Publications Focus Series: Philadelphia Energyworks: In the City of Brotherly Love, Sharing Know-How Leads to Sustainability The Better Buildings Neighborhood View -- December 2013 Collaborating With Utilities on Residential Energy Efficiency

  8. Working Together to Address Natural Gas Storage Safety | Department of

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Energy Together to Address Natural Gas Storage Safety Working Together to Address Natural Gas Storage Safety April 1, 2016 - 11:15am Addthis Working Together to Address Natural Gas Storage Safety Franklin (Lynn) Orr Franklin (Lynn) Orr Under Secretary for Science and Energy Marie Therese Dominguez Marie Therese Dominguez Administrator, U.S. Department of Transportation's Pipeline and Hazardous Materials Safety Administration As a part of the Administration's ongoing commitment to support

  9. How Gas Turbine Power Plants Work | Department of Energy

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    How Gas Turbine Power Plants Work How Gas Turbine Power Plants Work The combustion (gas) turbines being installed in many of today's natural-gas-fueled power plants are complex machines, but they basically involve three main sections: The compressor, which draws air into the engine, pressurizes it, and feeds it to the combustion chamber at speeds of hundreds of miles per hour. The combustion system, typically made up of a ring of fuel injectors that inject a steady stream of fuel into combustion

  10. ,"U.S. Natural Gas Salt Underground Storage - Working Gas (MMcf...

    U.S. Energy Information Administration (EIA) (indexed site)

    1","U.S. Natural Gas Salt Underground Storage - Working Gas (MMcf)",1,"Monthly","2...dnavnghistn5410us2m.htm" ,"Source:","Energy Information Administration" ,"For Help, ...

  11. Peak Underground Working Natural Gas Storage Capacity

    Gasoline and Diesel Fuel Update

    Underground Storage Volume (Million Cubic Feet) Pacific Region Natural Gas Underground Storage Volume (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 2013 544,417 522,182 529,030 543,901 581,848 610,748 619,005 624,692 636,405 645,077 626,113 529,510 2014 456,688 373,776 363,397 402,887 459,189 507,932 533,461 561,487 576,755 604,676 598,236 581,556 2015 535,012 532,186 534,713 552,592 584,491 595,030 603,251 606,862 617,976 638,832 628,206 579,071 2016 535,527 521,897

  12. Mountain Region Natural Gas Working Underground Storage Capacity (Million

    Gasoline and Diesel Fuel Update

    Working Gas from Same Month Previous Year (Percent) Mountain Producing Region Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Percent) Mountain Producing Region Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Percent) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 2015 -4.70 13.00 35.00 41.50 36.90 27.10 22.30 18.60 16.40 14.60 18.60 22.30 2016 19.40 24.20 27.80 31.30 31.00 27.50 21.90 18.00 - = No Data

  13. Pacific Region Natural Gas Working Underground Storage Capacity (Million

    Gasoline and Diesel Fuel Update

    Working Gas from Same Month Previous Year (Percent) Producing Region Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Percent) Pacific Producing Region Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Percent) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 2015 39.40 137.00 162.70 103.50 62.40 34.80 25.30 14.90 12.90 9.80 8.70 -0.90 2016 0.10 -3.90 -3.60 -2.20 -6.10 -6.00 -8.10 -9.60 - = No Data Reported;

  14. Second AEO2014 Oil and Gas Working Group Meeting Summary

    U.S. Energy Information Administration (EIA) (indexed site)

    7 November 12, 2013 MEMORANDUM FOR: JOHN CONTI ASSISTANT ADMINISTRATOR FOR ENERGY ANALYSIS FROM: ANGELINA LAROSE TEAM LEAD NATURAL GAS MARKETS TEAM JOHN STAUB TEAM LEAD EXPLORATION AND PRODUCTION ANALYSIS TEAM EXPLORATION AND PRODUCTION and NATURAL GAS MARKETS TEAMS SUBJECT: Second AEO2014 Oil and Gas Working Group Meeting Summary (presented September 26, 2013) Attendees: Robert Anderson (DOE) Peter Balash (NETL)* David Bardin (self) Joe Benneche (EIA) Philip Budzik (EIA) Kara Callahan

  15. Second AEO2016 Oil and Gas Working Group Meeting Summary

    U.S. Energy Information Administration (EIA) (indexed site)

    April 8, 2016 MEMORANDUM FOR: JOHN CONTI ASSISTANT ADMINISTRATOR FOR ENERGY ANALYSIS FROM: MINDI FARBER-DEANDA ACTING TEAM LEAD NATURAL GAS MARKETS TEAM JOHN STAUB TEAM LEAD EXPLORATION AND PRODUCTION ANALYSIS TEAM EXPLORATION AND PRODUCTION and NATURAL GAS MARKETS TEAMS SUBJECT: Second AEO2016 Oil and Gas Working Group Meeting Summary (presented on February 29, 2016) Attendees: Joseph Benneche (EIA) Katie Dyl (EIA) Terry Yen (EIA) Danya Murali (EIA) Laura Singer (EIA) Faouzi Aloulou (EIA) Dana

  16. AEO2014 Oil and Gas Working Group Meeting Summary

    U.S. Energy Information Administration (EIA) (indexed site)

    9 August 12, 2013 MEMORANDUM FOR: JOHN CONTI ASSISTANT ADMINISTRATOR FOR ENERGY ANALYSIS FROM: ANGELINA LAROSE TEAM LEAD NATURAL GAS MARKETS TEAM JOHN STAUB TEAM LEAD EXPLORATION AND PRODUCTION ANALYSIS TEAM EXPLORATION AND PRODUCTION and NATURAL GAS MARKETS TEAMS SUBJECT: First AEO2014 Oil and Gas Working Group Meeting Summary (presented on July 25, 2013) Attendees: Anas Alhajji (NGP)* Samuel Andrus (IHS)* Emil Attanasi (USGS)* Andre Barbe (Rice University) David J. Barden (self) Joseph

  17. Lower 48 States Natural Gas Working Underground Storage (Billion...

    U.S. Energy Information Administration (EIA) (indexed site)

    Underground Storage (Billion Cubic Feet) Lower 48 States Natural Gas Working Underground Storage (Billion Cubic Feet) Year-Month Week 1 Week 2 Week 3 Week 4 Week 5 End Date Value...

  18. Philadelphia Gas Works- Commercial and Industrial Efficient Building Grant Program

    Energy.gov [DOE]

    Philadelphia Gas Works' (PGW) Commercial and Industrial Efficient Building Grant Program is part of PGW's EnergySense program. This program offers incentives up to $75,000 for multifamily,...

  19. Differences Between Monthly and Weekly Working Gas In Storage

    Weekly Natural Gas Storage Report

    Differences Between Monthly and Weekly Working Gas In Storage Latest update: November 3, 2016 Note: The weekly storage estimates are based on a survey sample that does not include all companies that operate underground storage facilities. The sample was selected from the list of storage operators to achieve a target standard error of the estimate of working gas in storage which was no greater than 5 percent for each region. Based on a comparison of weekly estimates and monthly data from January

  20. First AEO2017 Oil and Gas Working Group Meeting

    U.S. Energy Information Administration (EIA) (indexed site)

    DO NOT QUOTE OR CITE AS RESULTS ARE SUBJECT TO CHANGE. September 12, 2016 MEMORANDUM FOR: Ian Mead Assistant Administrator for Energy Analysis FROM: John Staub Team Lead, Exploration and Production Analysis Mindi Farber-DeAnda Acting Team Lead, Natural Gas Markets Subject: First AEO2017 Oil and Gas Working Group Meeting held on August 25, 2016 The meeting began with an overview of the areas under focus for the AEO2017 in the Oil and Gas Supply Module (OGSM) and the Natural Gas Transmission and

  1. South Central Region Natural Gas Working Underground Storage Capacity

    Gasoline and Diesel Fuel Update

    * * 17 9 1967-2015 Propane-Air 0 0 17 9 1980-201

    Annual Download Series History Download Series History Definitions, Sources & Notes Definitions, Sources & Notes Show Data By: Data Series Area 1973 1974 1975 View History Net Withdrawals -6 -27 46 1973-1975 Injections 48 80 70 1973-1975 Withdrawals 42 53 116 1973-197

    in Working Gas from Same Month Previous Year (Percent)

    Producing Region Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous

  2. AGA Eastern Consuming Region Natural Gas in Underground Storage (Working

    U.S. Energy Information Administration (EIA) (indexed site)

    Gas) (Million Cubic Feet) Working Gas) (Million Cubic Feet) AGA Eastern Consuming Region Natural Gas in Underground Storage (Working Gas) (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1994 905,018 584,386 467,210 599,207 831,273 1,086,355 1,342,894 1,578,648 1,775,994 1,885,465 1,819,517 1,589,500 1995 1,206,116 814,626 663,885 674,424 850,290 1,085,760 1,300,439 1,487,188 1,690,456 1,811,013 1,608,177 1,232,901 1996 812,303 520,053 341,177 397,770 612,572 890,243

  3. AGA Western Consuming Region Natural Gas in Underground Storage (Working

    U.S. Energy Information Administration (EIA) (indexed site)

    Gas) (Million Cubic Feet) Working Gas) (Million Cubic Feet) AGA Western Consuming Region Natural Gas in Underground Storage (Working Gas) (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1994 280,414 208,968 200,997 216,283 261,894 293,909 326,049 349,274 387,670 405,477 381,931 342,394 1995 288,908 270,955 251,410 246,654 284,291 328,371 362,156 372,718 398,444 418,605 419,849 366,944 1996 280,620 236,878 221,371 232,189 268,812 299,619 312,736 313,747 330,116

  4. Pacific Region Natural Gas Working Underground Storage (Billion Cubic Feet)

    U.S. Energy Information Administration (EIA) (indexed site)

    Pacific Region Natural Gas Working Underground Storage (Billion Cubic Feet) Pacific Region Natural Gas Working Underground Storage (Billion Cubic Feet) 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 2010-Jan 01/01 268 01/08 257 01/15 246 01/22 235 01/29 221 2010-Feb 02/05 211 02/12 197 02/19 193 02/26 184 2010-Mar 03/05 182 03/12 176 03/19 179 03/26 185 2010-Apr 04/02 189 04/09 193 04/16 199 04/23 209 04/30 220 2010-May

  5. Salt South Central Region Natural Gas Working Underground Storage (Billion

    U.S. Energy Information Administration (EIA) (indexed site)

    Cubic Feet) Salt South Central Region Natural Gas Working Underground Storage (Billion Cubic Feet) Salt South Central Region Natural Gas Working Underground Storage (Billion Cubic Feet) 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 2010-Jan 01/01 159 01/08 123 01/15 91 01/22 102 01/29 108 2010-Feb 02/05 95 02/12 85 02/19 71 02/26 70 2010-Mar 03/05 63 03/12 71 03/19 80 03/26 89 2010-Apr 04/02 101 04/09 112 04/16 120

  6. South Central Region Natural Gas Working Underground Storage (Billion Cubic

    U.S. Energy Information Administration (EIA) (indexed site)

    Feet) South Central Region Natural Gas Working Underground Storage (Billion Cubic Feet) South Central Region Natural Gas Working Underground Storage (Billion Cubic Feet) 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 2010-Jan 01/01 985 01/08 886 01/15 793 01/22 789 01/29 779 2010-Feb 02/05 719 02/12 658 02/19 592 02/26 566 2010-Mar 03/05 535 03/12 548 03/19 567 03/26 581 2010-Apr 04/02 612 04/09 649 04/16 679 04/23 710

  7. Midwest Region Natural Gas Working Underground Storage (Billion Cubic Feet)

    U.S. Energy Information Administration (EIA) (indexed site)

    Midwest Region Natural Gas Working Underground Storage (Billion Cubic Feet) Midwest Region Natural Gas Working Underground Storage (Billion Cubic Feet) 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 2010-Jan 01/01 900 01/08 820 01/15 750 01/22 710 01/29 661 2010-Feb 02/05 604 02/12 552 02/19 502 02/26 464 2010-Mar 03/05 433 03/12 422 03/19 419 03/26 410 2010-Apr 04/02 410 04/09 429 04/16 444 04/23 462 04/30 480 2010-May

  8. Mountain Region Natural Gas Working Underground Storage (Billion Cubic

    U.S. Energy Information Administration (EIA) (indexed site)

    Feet) Mountain Region Natural Gas Working Underground Storage (Billion Cubic Feet) Mountain Region Natural Gas Working Underground Storage (Billion Cubic Feet) 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 2010-Jan 01/01 195 01/08 185 01/15 176 01/22 171 01/29 164 2010-Feb 02/05 157 02/12 148 02/19 141 02/26 133 2010-Mar 03/05 129 03/12 127 03/19 126 03/26 126 2010-Apr 04/02 126 04/09 126 04/16 129 04/23 134 04/30 138

  9. Nonsalt South Central Region Natural Gas Working Underground Storage

    U.S. Energy Information Administration (EIA) (indexed site)

    (Billion Cubic Feet) Nonsalt South Central Region Natural Gas Working Underground Storage (Billion Cubic Feet) Nonsalt South Central Region Natural Gas Working Underground Storage (Billion Cubic Feet) 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 2010-Jan 01/01 826 01/08 763 01/15 702 01/22 687 01/29 671 2010-Feb 02/05 624 02/12 573 02/19 521 02/26 496 2010-Mar 03/05 472 03/12 477 03/19 487 03/26 492 2010-Apr 04/02

  10. Producing Region Natural Gas Working Underground Storage (Billion Cubic

    Gasoline and Diesel Fuel Update

    Feet) Producing Region Natural Gas Working Underground Storage (Billion Cubic Feet) Producing Region Natural Gas Working Underground Storage (Billion Cubic Feet) 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 12/31 570 1994-Jan 01/07 532 01/14 504 01/21 440 01/28 414 1994-Feb 02/04 365 02/11 330 02/18 310 02/25 309 1994-Mar 03/04 281 03/11 271 03/18 284 03/25 303 1994-Apr 04/01 287 04/08 293 04/15 308 04/22

  11. Illinois Working Natural Gas Underground Storage Capacity (Million Cubic

    Gasoline and Diesel Fuel Update

    Feet) Working Natural Gas Underground Storage Capacity (Million Cubic Feet) Illinois Working Natural Gas Underground Storage Capacity (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 2012 299,439 299,439 299,439 300,439 299,439 299,439 302,439 302,439 302,439 302,439 302,439 302,962 2013 302,962 302,962 302,962 302,962 302,962 302,962 303,312 303,312 303,312 303,312 303,312 303,312 2014 303,312 303,312 303,312 303,312 303,312 303,312 303,312 303,312 303,312 304,312

  12. Iowa Working Natural Gas Underground Storage Capacity (Million Cubic Feet)

    Gasoline and Diesel Fuel Update

    Working Natural Gas Underground Storage Capacity (Million Cubic Feet) Iowa Working Natural Gas Underground Storage Capacity (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 2012 91,114 91,113 91,113 90,846 90,580 90,313 90,313 90,313 90,313 90,313 90,313 90,313 2013 90,313 90,313 90,313 90,313 90,313 90,313 90,313 90,313 90,313 90,313 90,313 90,313 2014 90,313 90,313 90,313 90,313 90,313 90,313 90,313 90,313 90,313 90,313 90,313 90,313 2015 90,313 90,313 90,313 90,313

  13. Lower 48 Natural Gas in Underground Storage - Change in Working Gas from

    U.S. Energy Information Administration (EIA) (indexed site)

    Same Month Previous Year (Percent) Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Percent) Lower 48 Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Percent) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 2011 0.1 2.3 -4.6 -11.1 -9.6 -7.7 -6.4 -4.2 -2.6 -1.2 2.0 11.3 2012 36.5 53.4 73.5 61.5 46.1 34.6 25.3 19.5 15.0 11.5 7.7 8.2 2013 -7.6 -14.8 -31.0 -29.5 -21.9 -15.7 -10.0 -6.2 -4.0 -3.4 -5.7 -15.9

  14. Assumptions and Expectations for Annual Energy Outlook 2015: Oil and Gas Working Group

    U.S. Energy Information Administration (EIA) (indexed site)

    and Expectations for Annual Energy Outlook 2016: Oil and Gas Working Group AEO2016 Oil and Gas Supply Working Group Meeting Office of Petroleum, Gas, and Biofuels Analysis February 29, 2016| Washington, DC http://www.eia.gov/forecasts/aeo/workinggroup/ WORKING GROUP PRESENTATION FOR DISCUSSION PURPOSES DO NOT QUOTE OR CITE AS RESULTS ARE SUBJECT TO CHANGE Overview * Natural gas markets - Natural gas supply and delivered prices - Natural gas consumption - Pipeline imports/exports - LNG exports *

  15. Texas Natural Gas in Underground Storage (Working Gas) (Million Cubic Feet)

    U.S. Energy Information Administration (EIA) (indexed site)

    Working Gas) (Million Cubic Feet) Texas Natural Gas in Underground Storage (Working Gas) (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 321,678 314,918 308,955 347,344 357,995 370,534 383,549 377,753 378,495 396,071 402,265 365,396 1991 279,362 271,469 271,401 289,226 303,895 323,545 327,350 329,102 344,201 347,984 331,821 316,648 1992 284,571 270,262 264,884 267,778 286,318 298,901 320,885 338,320 341,156 345,459 324,873 288,098 1993 165,226 149,367 141,472

  16. Ohio Natural Gas in Underground Storage (Working Gas) (Million Cubic Feet)

    U.S. Energy Information Administration (EIA) (indexed site)

    Working Gas) (Million Cubic Feet) Ohio Natural Gas in Underground Storage (Working Gas) (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 100,467 79,364 70,578 73,582 96,173 115,927 135,350 154,385 171,798 182,858 181,763 157,536 1991 120,038 97,180 81,448 90,583 109,886 132,661 147,602 165,801 180,656 188,600 175,740 148,929 1992 105,511 70,674 36,141 38,587 63,604 95,665 121,378 143,128 158,570 169,712 164,562 132,576 1993 93,544 49,298 14,332 16,953 43,536 75,177

  17. Lower 48 States Total Natural Gas in Underground Storage (Working Gas)

    U.S. Energy Information Administration (EIA) (indexed site)

    (Million Cubic Feet) Working Gas) (Million Cubic Feet) Lower 48 States Total Natural Gas in Underground Storage (Working Gas) (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 2011 2,305,843 1,721,875 1,577,007 1,788,480 2,186,855 2,529,647 2,775,346 3,019,155 3,415,698 3,803,828 3,842,882 3,462,021 2012 2,910,007 2,448,810 2,473,130 2,611,226 2,887,060 3,115,447 3,245,201 3,406,134 3,693,053 3,929,250 3,799,215 3,412,910 2013 2,690,271 2,085,441 1,706,102 1,840,859

  18. Midwest Region Natural Gas in Underground Storage - Change in Working Gas

    U.S. Energy Information Administration (EIA) (indexed site)

    from Same Month Previous Year (Million Cubic Feet) - Change in Working Gas from Same Month Previous Year (Million Cubic Feet) Midwest Region Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 2013 -63,664 -102,296 -211,632 -235,463 -214,379 -166,660 -123,165 -100,408 -77,814 -65,919 -81,637 -181,602 2014 -243,074 -255,871 -209,941 -189,692 -156,914 -124,375 -83,035 -47,387 -33,755

  19. Mountain Region Natural Gas in Underground Storage - Change in Working Gas

    U.S. Energy Information Administration (EIA) (indexed site)

    from Same Month Previous Year (Million Cubic Feet) - Change in Working Gas from Same Month Previous Year (Million Cubic Feet) Mountain Region Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 2013 12,014 6,758 -9,151 -16,380 -18,695 -22,708 -24,019 -20,476 -26,134 -26,039 -24,866 -34,136 2014 -32,861 -42,199 -45,053 -42,581 -35,771 -26,278 -21,654 -24,388 -26,437 -26,669 -34,817

  20. Pacific Region Natural Gas in Underground Storage - Change in Working Gas

    U.S. Energy Information Administration (EIA) (indexed site)

    from Same Month Previous Year (Million Cubic Feet) - Change in Working Gas from Same Month Previous Year (Million Cubic Feet) Pacific Region Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 2013 -6,428 -10,631 -3,098 -14,687 -15,553 -18,935 -5,226 21,508 26,741 10,233 -13,013 -77,412 2014 -73,745 -134,228 -151,370 -126,913 -108,676 -88,833 -85,846 -63,506 -59,951 -41,003 -28,478

  1. East Region Natural Gas in Underground Storage (Working Gas) (Million Cubic

    U.S. Energy Information Administration (EIA) (indexed site)

    Feet) Working Gas) (Million Cubic Feet) East Region Natural Gas in Underground Storage (Working Gas) (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 2013 605,224 419,836 303,741 362,496 488,370 606,051 678,197 759,995 854,238 910,008 851,251 688,716 2014 451,335 271,801 167,715 213,475 349,739 474,624 580,937 689,328 805,733 892,328 831,398 742,486 2015 533,537 338,726 239,291 308,664 451,773 572,878 657,591 762,518 856,308 915,094 910,246 852,876 2016 629,905

  2. East Region Natural Gas in Underground Storage - Change in Working Gas from

    U.S. Energy Information Administration (EIA) (indexed site)

    Same Month Previous Year (Million Cubic Feet) - Change in Working Gas from Same Month Previous Year (Million Cubic Feet) East Region Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 2013 -59,770 -101,657 -207,266 -202,799 -176,110 -131,033 -101,059 -80,666 -54,688 -45,655 -40,177 -105,210 2014 -153,889 -148,035 -136,025 -149,021 -138,631 -131,428 -97,260 -70,667 -48,505 -17,679

  3. U.S. Natural Gas Non-Salt Underground Storage - Working Gas (Million Cubic

    U.S. Energy Information Administration (EIA) (indexed site)

    Feet) Working Gas (Million Cubic Feet) U.S. Natural Gas Non-Salt Underground Storage - Working Gas (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1994 1,531,928 1,053,730 915,878 1,122,203 1,495,691 1,839,607 2,209,565 2,542,126 2,841,503 3,002,400 2,904,404 2,536,416 1995 1,972,316 1,477,193 1,273,311 1,313,255 1,594,809 1,935,579 2,225,266 2,431,646 2,721,269 2,908,317 2,644,778 2,081,635 1996 1,403,589 973,002 720,077 796,966 1,098,675 1,457,649 1,826,743

  4. U.S. Total Natural Gas in Underground Storage (Working Gas) (Million Cubic

    U.S. Energy Information Administration (EIA) (indexed site)

    Feet) Working Gas) (Million Cubic Feet) U.S. Total Natural Gas in Underground Storage (Working Gas) (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1973 NA NA NA NA NA NA NA NA NA NA NA 2,034,000 1974 NA NA NA NA NA NA NA NA NA 2,403,000 NA 2,050,000 1975 NA NA NA NA NA NA NA NA 2,468,000 2,599,000 2,541,000 2,212,000 1976 1,648,000 1,444,000 1,326,000 1,423,000 1,637,000 1,908,000 2,192,000 2,447,000 2,650,000 2,664,000 2,408,000 1,926,000 1977 1,287,000 1,163,000

  5. Alternative Fuels Data Center: How Do Bi-fuel Natural Gas Cars Work?

    Alternative Fuels and Advanced Vehicles Data Center

    Natural Gas Cars Work? to someone by E-mail Share Alternative Fuels Data Center: How Do Bi-fuel Natural Gas Cars Work? on Facebook Tweet about Alternative Fuels Data Center: How Do Bi-fuel Natural Gas Cars Work? on Twitter Bookmark Alternative Fuels Data Center: How Do Bi-fuel Natural Gas Cars Work? on Google Bookmark Alternative Fuels Data Center: How Do Bi-fuel Natural Gas Cars Work? on Delicious Rank Alternative Fuels Data Center: How Do Bi-fuel Natural Gas Cars Work? on Digg Find More places

  6. Missouri Natural Gas in Underground Storage - Change in Working Gas from

    U.S. Energy Information Administration (EIA) (indexed site)

    Same Month Previous Year (Million Cubic Feet) Million Cubic Feet) Missouri Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 -114 -943 -336 775 774 774 773 -107 103 55 -146 1,291 1991 -410 79 -1,227 -201 487 592 893 913 620 617 807 1,083 1992 -216 381 1,107 542 286 333 304 220 216 189 -18 -13 1993 393 -220 -975 -996 -374 -69 -233 -135 -136 -112 -226 -70 1994 -245 1,036 1,842

  7. Alabama Natural Gas in Underground Storage - Change in Working Gas from

    U.S. Energy Information Administration (EIA) (indexed site)

    Same Month Previous Year (Million Cubic Feet) Million Cubic Feet) Alabama Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1996 -67 -133 -30 123 233 669 826 998 743 933 994 633 1997 156 40 226 203 337 -48 -197 -301 -376 -242 -356 405 1998 185 181 -92 24 -103 427 374 288 -376 -14 230 91 1999 29 103 39 -69 257 -156 88 -31 772 82 214 164 2000 63 175 802 599 219 615 462 381 -131 -196

  8. Jim Stock

    Energy.gov [DOE]

     James H. Stock is a member of the Council of Economic Advisers and is responsible for offering the President objective advice on the formulation of economic policy.  Stock was previously...

  9. Assumptions and Expectations for Annual Energy Outlook 2014: Oil and Gas Working Group

    U.S. Energy Information Administration (EIA) (indexed site)

    4: Oil and Gas Working Group AEO2014 Oil and Gas Supply Working Group Meeting Office of Petroleum, Gas, and Biofuels Analysis July 25, 2013 | Washington, DC http://www.eia.gov/forecasts/aeo/workinggroup/ WORKING GROUP PRESENTATION FOR DISCUSSION PURPOSES DO NOT QUOTE OR CITE AS RESULTS ARE SUBJECT TO CHANGE Introduction/Background Office of Petroleum, Gas, and Biofuels Analysis Working Group Presentation for Discussion Purposes Washington, DC, July 25, 2013 DO NOT QUOTE OR CITE as results are

  10. Rapid gas hydrate formation processes: Will they work?

    SciTech Connect (OSTI)

    Brown, Thomas D.; Taylor, Charles E.; Bernardo, Mark P.

    2010-06-07

    Researchers at DOEs National Energy Technology Laboratory (NETL) have been investigating the formation of synthetic gas hydrates, with an emphasis on rapid and continuous hydrate formation techniques. The investigations focused on unconventional methods to reduce dissolution, induction, nucleation and crystallization times associated with natural and synthetic hydrates studies conducted in the laboratory. Numerous experiments were conducted with various high-pressure cells equipped with instrumentation to study rapid and continuous hydrate formation. The cells ranged in size from 100 mL for screening studies to proof-of-concept studies with NETLs 15-Liter Hydrate Cell. The results from this work demonstrate that the rapid and continuous formation of methane hydrate is possible at predetermined temperatures and pressures within the stability zone of a Methane Hydrate Stability Curve.

  11. Rapid gas hydrate formation processes: Will they work?

    DOE PAGES-Beta [OSTI]

    Brown, Thomas D.; Taylor, Charles E.; Bernardo, Mark P.

    2010-06-07

    Researchers at DOE’s National Energy Technology Laboratory (NETL) have been investigating the formation of synthetic gas hydrates, with an emphasis on rapid and continuous hydrate formation techniques. The investigations focused on unconventional methods to reduce dissolution, induction, nucleation and crystallization times associated with natural and synthetic hydrates studies conducted in the laboratory. Numerous experiments were conducted with various high-pressure cells equipped with instrumentation to study rapid and continuous hydrate formation. The cells ranged in size from 100 mL for screening studies to proof-of-concept studies with NETL’s 15-Liter Hydrate Cell. The results from this work demonstrate that the rapid and continuousmore » formation of methane hydrate is possible at predetermined temperatures and pressures within the stability zone of a Methane Hydrate Stability Curve.« less

  12. Natural Gas Weekly Update, Printer-Friendly Version

    Gasoline and Diesel Fuel Update

    working gas stocks are at their second-highest level for the report week in the 11-year history of the weekly natural gas storage database. The implied net injection during the...

  13. U.S. Natural Gas Salt Underground Storage - Working Gas (Million Cubic

    U.S. Energy Information Administration (EIA) (indexed site)

    Feet) Working Gas (Million Cubic Feet) U.S. Natural Gas Salt Underground Storage - Working Gas (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1994 47,455 36,864 41,979 49,646 58,678 56,813 63,882 64,460 70,583 72,447 73,277 69,641 1995 72,965 64,476 58,510 66,025 73,529 78,437 76,026 63,026 80,949 87,711 83,704 71,638 1996 58,880 47,581 37,918 56,995 62,439 71,476 70,906 75,927 84,962 88,061 87,029 85,140 1997 57,054 49,490 55,865 58,039 73,265 79,811 65,589 66,536

  14. Underground Natural Gas Working Storage Capacity - U.S. Energy Information

    U.S. Energy Information Administration (EIA) (indexed site)

    Administration Underground Natural Gas Working Storage Capacity With Data for November 2015 | Release Date: March 16, 2016 | Next Release Date: February 2017 Previous Issues Year: 2016 2015 2014 2013 2012 2011 prior issues Go Natural gas storage capacity nearly unchanged nationally, but regions vary U.S. natural gas working storage capacity (in terms of design capacity and demonstrated maximum working gas volumes) as of November 2015 was essentially flat compared to November 2014, with some

  15. Maryland Natural Gas in Underground Storage - Change in Working Gas from

    U.S. Energy Information Administration (EIA) (indexed site)

    Same Month Previous Year (Million Cubic Feet) Million Cubic Feet) Maryland Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 -862 -85 724 658 416 -1,091 -1,477 -807 2,724 -222 -1,505 5,333 1991 4,470 4,339 1,613 1,801 727 1,324 628 202 -123 -686 1,727 2,620 1992 900 -745 -1,784 -3,603 -1,779 -745 -328 -176 -219 356 579 -1,431 1993 153 742 1,488 1,891 777 -736 -1,464 -2,133

  16. Michigan Natural Gas in Underground Storage - Change in Working Gas from

    U.S. Energy Information Administration (EIA) (indexed site)

    Same Month Previous Year (Million Cubic Feet) Million Cubic Feet) Michigan Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 -46,336 -12,518 16,386 37,537 39,350 53,475 75,155 66,399 51,354 56,272 78,572 103,458 1991 37,515 32,421 33,438 66,819 45,861 39,009 20,626 -3,335 -36,217 -14,370 -61,674 -66,823 1992 -28,428 -40,296 -82,921 -108,640 -91,199 -80,473 -64,200 -42,476

  17. Montana Natural Gas in Underground Storage - Change in Working Gas from

    U.S. Energy Information Administration (EIA) (indexed site)

    Same Month Previous Year (Million Cubic Feet) Million Cubic Feet) Montana Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 705 2,167 1,643 1,813 -2,403 355 272 -26 131 59 561 542 1991 -4,514 -2,633 -2,648 -1,702 -3,097 151 -280 -908 -3,437 -6,076 -7,308 -6,042 1992 -68,442 -68,852 -67,958 -67,769 -67,999 -68,527 -69,209 -69,883 -70,428 -70,404 -71,019 -73,067 1993 -14,437

  18. Nebraska Natural Gas in Underground Storage - Change in Working Gas from

    U.S. Energy Information Administration (EIA) (indexed site)

    Same Month Previous Year (Million Cubic Feet) Million Cubic Feet) Nebraska Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1991 -3,131 -3,119 -3,529 -3,306 -1,630 -1,017 244 -266 -458 -1,071 -1,072 157 1992 482 508 1,184 660 -762 -277 2,037 3,311 3,592 3,600 1,413 350 1993 -1,474 -2,431 -3,424 -3,068 -1,752 -1,058 -532 116 439 -49,834 -49,012 -47,951 1994 -47,626 -48,394 -47,215

  19. Alaska Natural Gas in Underground Storage - Change in Working Gas from Same

    U.S. Energy Information Administration (EIA) (indexed site)

    Month Previous Year (Million Cubic Feet) Million Cubic Feet) Alaska Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 2013 NA NA NA NA NA NA NA NA NA NA NA NA 2014 11,087 5,754 6,824 6,119 5,428 6,065 5,421 4,685 3,365 1,565 3,028 5,179 2015 4,768 4,958 3,824 3,761 3,574 2,105 2,020 1,381 723 881 189 -679 2016 -515 164 850 2,474 4,360 5,751 7,556 9,446 - = No Data Reported; -- =

  20. Alaska Natural Gas in Underground Storage - Change in Working Gas from Same

    U.S. Energy Information Administration (EIA) (indexed site)

    Month Previous Year (Percent) Percent) Alaska Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Percent) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 2013 NA NA NA NA NA NA NA NA NA NA NA NA 2014 123.8 41.4 49.7 42.7 35.5 37.5 31.7 25.2 16.5 7.1 14.3 26.1 2015 23.8 25.2 18.6 18.4 17.3 9.5 9.0 5.9 3.0 3.7 0.8 -2.7 2016 -2.1 0.7 3.5 10.2 18.0 23.6 30.8 38.3 - = No Data Reported; -- = Not Applicable; NA = Not Available; W = Withheld to avoid

  1. Arkansas Natural Gas in Underground Storage - Change in Working Gas from

    U.S. Energy Information Administration (EIA) (indexed site)

    Same Month Previous Year (Million Cubic Feet) Million Cubic Feet) Arkansas Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 -925 -513 -486 -557 -855 -813 -453 -125 98 112 82 297 1991 -381 -716 -999 -1,230 -1,199 -1,333 -1,373 -1,840 -2,119 -2,147 -2,697 -3,134 1992 -1,855 -2,008 -2,040 -1,913 -2,046 -1,875 -1,510 -861 -426 -502 -100 73 1993 100 -170 -256 -297 -803 -1,041

  2. California Natural Gas in Underground Storage - Change in Working Gas from

    U.S. Energy Information Administration (EIA) (indexed site)

    Same Month Previous Year (Million Cubic Feet) Million Cubic Feet) California Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 13,690 18,121 8,849 5,853 7,132 14,219 18,130 10,561 13,390 31,974 19,181 9,703 1991 6,425 26,360 4,734 4,680 6,001 17,198 26,493 26,589 17,703 3,011 -3,286 14,947 1992 -6,546 -23,935 -22,706 -29,553 -29,442 -31,729 -31,331 -21,662 -2,945 7,561 4,600

  3. Ohio Natural Gas in Underground Storage - Change in Working Gas from Same

    U.S. Energy Information Administration (EIA) (indexed site)

    Month Previous Year (Million Cubic Feet) Million Cubic Feet) Ohio Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 1,596 507 381 -2,931 -46 -596 -311 -234 178 167 7,030 9,898 1991 19,571 17,816 10,871 17,001 13,713 16,734 12,252 11,416 8,857 5,742 -6,023 -8,607 1992 -14,527 -26,506 -45,308 -51,996 -46,282 -36,996 -26,224 -22,672 -22,086 -18,888 -11,177 -16,353 1993 -11,967

  4. Tennessee Natural Gas in Underground Storage - Change in Working Gas from

    U.S. Energy Information Administration (EIA) (indexed site)

    Same Month Previous Year (Million Cubic Feet) Million Cubic Feet) Tennessee Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1997 0 0 0 0 0 0 0 0 0 0 0 0 1998 0 0 0 0 0 0 0 0 0 0 0 184 1999 197 189 118 122 119 262 235 178 169 171 125 68 2000 34 -17 51 68 53 -90 -197 -274 -377 -433 -377 -236 2001 -68 48 38 32 153 266 298 360 407 420 65 -22 2002 24 85 159 228 100 -16 -60 -126 -176

  5. Texas Natural Gas in Underground Storage - Change in Working Gas from Same

    U.S. Energy Information Administration (EIA) (indexed site)

    Month Previous Year (Million Cubic Feet) Million Cubic Feet) Texas Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 21,315 40,513 43,111 18,628 12,189 2,033 47 -10,549 -21,072 -9,288 -13,355 -8,946 1991 -42,316 -43,449 -37,554 -58,118 -54,100 -46,988 -56,199 -48,651 -34,294 -48,087 -70,444 -48,747 1992 5,209 -1,207 -6,517 -21,448 -17,577 -24,644 -6,465 9,218 -3,044 -2,525

  6. Utah Natural Gas in Underground Storage - Change in Working Gas from Same

    U.S. Energy Information Administration (EIA) (indexed site)

    Month Previous Year (Million Cubic Feet) Million Cubic Feet) Utah Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1991 6,258 1,922 -2,167 -243 10 2,672 -2,738 -4,873 -6,032 -7,692 -923 338 1992 -6,698 -535 4,172 3,577 4,237 4,004 2,095 84 -3,541 -5,140 1,162 1,110 1993 -850 -4,870 -7,443 -9,206 -6,521 -660 270 742 2,661 8,010 4,211 6,489 1994 7,656 4,514 6,002 8,910 9,109 5,722

  7. Colorado Natural Gas in Underground Storage - Change in Working Gas from

    U.S. Energy Information Administration (EIA) (indexed site)

    Same Month Previous Year (Million Cubic Feet) Million Cubic Feet) Colorado Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 701 995 446 26 639 1,368 2,249 3,219 1,102 2,496 892 1991 -1,225 1,811 40 2,493 3,883 3,621 1,685 1,583 1,282 1,616 2,927 2,233 1992 6,816 5,146 5,417 2,679 1,253 -728 -859 310 1,516 2,085 -2,078 -3,827 1993 -4,453 -6,128 -1,947 -1,204 1,853 4,502 3,520

  8. Illinois Natural Gas in Underground Storage - Change in Working Gas from

    U.S. Energy Information Administration (EIA) (indexed site)

    Same Month Previous Year (Million Cubic Feet) Million Cubic Feet) Illinois Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 9,275 18,043 13,193 1,851 5,255 9,637 5,108 8,495 9,773 7,534 9,475 11,984 1991 -9,933 -7,259 454 6,145 6,270 3,648 2,744 1,010 -13 7,942 -12,681 -9,742 1992 -9,345 -8,466 -9,599 -19,126 -16,878 -15,372 -13,507 -9,010 -7,228 -7,653 -6,931 -18,707 1993

  9. Indiana Natural Gas in Underground Storage - Change in Working Gas from

    U.S. Energy Information Administration (EIA) (indexed site)

    Same Month Previous Year (Million Cubic Feet) Million Cubic Feet) Indiana Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 -3,295 -2,048 303 1,673 2,267 2,054 632 690 1,081 1,169 1,343 2,765 1991 2,450 1,002 -617 -1,537 -1,372 -2,052 -995 -41 274 4,477 815 -517 1992 -1,493 -820 -1,663 -1,510 -2,353 -796 1,038 506 1,229 -2,650 -2,283 -922 1993 374 -217 1,229 2,820 2,636 2,160

  10. Iowa Natural Gas in Underground Storage - Change in Working Gas from Same

    U.S. Energy Information Administration (EIA) (indexed site)

    Month Previous Year (Million Cubic Feet) Million Cubic Feet) Iowa Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1991 -2,696 -5,556 -4,018 -2,430 -2,408 3,493 3,414 4,058 11,806 19,414 13,253 13,393 1992 -4,224 -6,407 -6,304 -5,070 -1,061 -3,484 2,536 6,836 6,037 3,618 2,568 -3,773 1993 -49,040 -46,415 -45,078 -43,755 -45,456 -45,569 -46,271 -46,798 -44,848 -48,360 -45,854

  11. Kansas Natural Gas in Underground Storage - Change in Working Gas from Same

    U.S. Energy Information Administration (EIA) (indexed site)

    Month Previous Year (Million Cubic Feet) Million Cubic Feet) Kansas Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 -10,362 -8,989 -8,480 -6,853 -3,138 -3,221 -2,686 -2,091 824 166 -307 3,561 1991 -6,300 -645 -100 -132 5,625 8,255 -439 -9,003 -13,999 -9,506 -35,041 -11,017 1992 16,928 8,288 4,215 1,589 -2,700 -7,788 -6,391 1,723 1,181 -7,206 -7,569 -20,817 1993 -31,418

  12. Kentucky Natural Gas in Underground Storage - Change in Working Gas from

    U.S. Energy Information Administration (EIA) (indexed site)

    Same Month Previous Year (Million Cubic Feet) Million Cubic Feet) Kentucky Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 -1,772 682 336 86 308 -489 138 -272 -702 -351 130 2,383 1991 21,249 14,278 11,919 15,552 13,179 11,123 8,684 4,865 1,110 -2,624 -4,707 -1,444 1992 4,569 6,818 5,559 -712 -4,310 -6,053 -7,850 -9,429 -8,687 2,440 7,441 7,127 1993 2,921 -6,726 -11,466

  13. U.S. Natural Gas in Underground Storage - Change in Working Gas from Same

    U.S. Energy Information Administration (EIA) (indexed site)

    Month Previous Year (Million Cubic Feet) Million Cubic Feet) U.S. Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1973 NA NA NA NA NA NA NA NA NA NA NA 305,000 1974 NA NA NA NA NA NA NA NA NA NA NA 16,000 1975 NA NA NA NA NA NA NA NA NA 196,000 NA 162,000 1976 NA NA NA NA NA NA NA NA 182,000 65,000 -133,000 -286,000 1977 -361,000 -281,000 -111,000 4,000 94,000 122,000 156,000

  14. Stock Photos

    U.S. Department of Energy (DOE) all webpages (Extended Search)

    Stock-Photos Sign In About | Careers | Contact | Investors | bpa.gov Search Policy & Reporting Expand Policy & Reporting EE Sectors Expand EE Sectors Technology & Innovation...

  15. Differences Between Monthly and Weekly Working Gas In Storage

    Weekly Natural Gas Storage Report

    levels. These are estimated from volume data provided by a sample of operators that report on Form EIA-912, "Weekly Underground Natural Gas Storage Report." The EIA first...

  16. Midwest Region Natural Gas Working Underground Storage Capacity (Million

    Gasoline and Diesel Fuel Update

    May 2003 1 Despite a national economic slowdown and a 4.9 percent drop in overall U.S. natural gas consumption in 2001, 1 more than 3,571 miles of pipeline and a record 12.8 billion cubic feet per day (Bcf/d) of natural gas pipeline capacity were added to the national pipeline network during 2002 (Table 1). The estimated cost was $4.4 billion. Overall, 54 natural gas pipeline projects were completed during 2002 (Figure 1, Table 2). 2 Of these, 34 were expansions of existing pipeline systems or

  17. Alabama Working Natural Gas Underground Storage Capacity (Million Cubic

    Gasoline and Diesel Fuel Update

    0 1 2 2 15 1996-2014 Lease Condensate (million bbls) 0 0 0 0 1 0 1998-2014 Total Gas (billion cu ft) 126 162 102 40 73 36 1996-2014 Nonassociated Gas (billion cu ft) 126 162 101 38 71 26 1996-2014 Associated Gas (billion cu ft) 0 0 1 2 2 1 (Million Cubic Feet)

    Alabama Quantity of Production Associated with Reported Wellhead Value (Million Cubic Feet) Alabama Quantity of Production Associated with Reported Wellhead Value (Million Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5

  18. Assumptions and Expectations for Annual Energy Outlook 2015: Oil and Gas Working Group

    U.S. Energy Information Administration (EIA) (indexed site)

    Assumptions and Expectations for Annual Energy Outlook 2016: Oil and Gas Working Group AEO2016 Oil and Gas Supply Working Group Meeting Office of Petroleum, Gas, and Biofuels Analysis December 1, 2015| Washington, DC http://www.eia.gov/forecasts/aeo/workinggroup/ WORKING GROUP PRESENTATION FOR DISCUSSION PURPOSES DO NOT QUOTE OR CITE AS RESULTS ARE SUBJECT TO CHANGE We welcome feedback on our assumptions and documentation * The AEO Assumptions report http://www.eia.gov/forecasts/aeo/assumptions/

  19. Assumptions and Expectations for Annual Energy Outlook 2017: Oil and Gas Working Group

    U.S. Energy Information Administration (EIA) (indexed site)

    Oil and Gas Working Group AEO2017 Oil and Gas Supply Working Group Meeting Office of Petroleum, Gas, and Biofuels Analysis August 25, 2016| Washington, DC http://www.eia.gov/forecasts/aeo/workinggroup/ WORKING GROUP PRESENTATION FOR DISCUSSION PURPOSES DO NOT QUOTE OR CITE AS RESULTS ARE SUBJECT TO CHANGE Overview * "Short" AEO2017 with extension of model projection period to 2050 * World oil prices * Upstream - Offshore Gulf of Mexico and Alaska - Feedback on AEO2016 results *

  20. Louisiana Natural Gas in Underground Storage - Change in Working Gas from

    U.S. Energy Information Administration (EIA) (indexed site)

    Same Month Previous Year (Percent) Percent) Louisiana Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Percent) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1991 22.5 -6.7 -11.5 -6.1 4.7 11.3 9.9 6.6 10.0 12.0 -0.1 -13.0 1992 -15.0 -16.6 -17.6 -16.9 -13.0 -14.5 -14.2 -9.8 -8.6 -8.0 -5.3 -9.7 1993 -14.1 -27.1 -40.9 -42.3 -18.5 -3.2 9.0 15.5 21.5 17.1 14.1 13.8 1994 8.5 40.4 69.8 104.5 54.4 28.4 23.9 17.6 8.8 5.4 10.4 15.6 1995 29.7 13.7 22.0

  1. Maryland Natural Gas in Underground Storage - Change in Working Gas from

    U.S. Energy Information Administration (EIA) (indexed site)

    Same Month Previous Year (Percent) Percent) Maryland Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Percent) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1991 103.9 379.8 71.8 60.5 13.1 20.1 7.2 1.8 -0.9 -4.6 13.4 22.0 1992 10.3 -13.6 -46.2 -75.4 -28.4 -9.4 -3.5 -1.5 -1.6 2.5 4.0 -9.9 1993 1.6 15.7 71.7 160.6 17.3 -10.3 -16.3 -18.7 -12.6 -1.8 -2.5 -8.9 1994 -45.2 -46.8 -3.2 53.1 28.2 27.5 36.9 27.2 13.4 4.6 -3.5 10.5 1995 103.8 130.7 91.8

  2. Michigan Natural Gas in Underground Storage - Change in Working Gas from

    U.S. Energy Information Administration (EIA) (indexed site)

    Same Month Previous Year (Percent) Percent) Michigan Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Percent) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1991 12.0 12.8 14.6 30.2 17.0 11.7 5.0 -0.7 -6.8 -2.6 -11.4 -14.2 1992 -8.1 -14.1 -31.6 -37.7 -28.9 -21.6 -14.9 -8.9 1.2 -1.2 1.1 -2.0 1993 -7.5 -20.7 -25.8 -17.2 -1.0 3.7 5.2 7.6 6.1 6.7 6.2 7.4 1994 -4.8 -0.4 22.1 37.4 24.6 15.8 10.2 7.2 6.2 5.4 12.3 21.2 1995 45.7 54.3 51.8 20.6 8.0 3.8

  3. Mississippi Natural Gas in Underground Storage - Change in Working Gas from

    U.S. Energy Information Administration (EIA) (indexed site)

    Same Month Previous Year (Percent) Percent) Mississippi Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Percent) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1991 31.9 17.1 14.2 15.5 11.1 7.9 -1.1 -5.7 -3.6 -2.3 -15.3 -16.4 1992 -6.8 1.1 -4.7 -16.9 -14.3 -8.0 -2.7 -5.4 -2.8 -7.0 5.6 3.5 1993 13.6 -2.2 -12.3 -6.0 1.7 0.0 0.9 6.3 4.6 1.9 -35.2 -40.7 1994 -53.0 -55.0 -36.7 -28.8 -29.8 -34.1 -28.0 -22.8 -26.7 -21.5 26.7 39.2 1995 50.8 54.7 11.0

  4. Missouri Natural Gas in Underground Storage - Change in Working Gas from

    U.S. Energy Information Administration (EIA) (indexed site)

    Same Month Previous Year (Percent) Percent) Missouri Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Percent) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1991 -5.1 1.4 -20.3 -2.8 6.8 8.3 12.5 12.3 7.8 7.6 9.9 13.8 1992 -2.8 6.5 23.0 7.8 3.7 4.3 3.8 2.6 2.5 2.2 -0.2 -0.1 1993 5.3 -3.5 -16.4 -13.3 -4.7 -0.9 -2.8 -1.6 -1.6 -1.3 -2.5 -0.8 1994 -3.1 17.2 37.2 -28.6 -19.3 -6.9 -4.2 -4.1 -3.3 -3.3 0.7 -1.0 1995 7.9 12.0 16.0 64.0 35.0 10.4 5.7 6.0

  5. Montana Natural Gas in Underground Storage - Change in Working Gas from

    U.S. Energy Information Administration (EIA) (indexed site)

    Same Month Previous Year (Percent) Percent) Montana Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Percent) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1991 -2.5 -1.5 -1.5 -1.0 -1.7 0.1 -0.2 -0.5 -1.8 -3.2 -3.9 -3.3 1992 -38.1 -38.6 -38.4 -38.3 -38.2 -38.2 -38.2 -38.3 -38.6 -38.8 -39.8 -41.8 1993 -13.0 -15.6 -17.8 -19.4 -21.2 -22.4 -22.0 -22.3 -21.6 -20.7 -20.8 -19.6 1994 -19.3 -21.6 -20.5 -19.8 -17.7 -14.9 -14.5 -13.6 -12.0 -10.7 -9.8 -9.5

  6. Nebraska Natural Gas in Underground Storage - Change in Working Gas from

    U.S. Energy Information Administration (EIA) (indexed site)

    Same Month Previous Year (Percent) Percent) Nebraska Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Percent) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1991 -5.7 -5.8 -6.6 -6.0 -2.9 -1.8 0.4 -0.5 -0.8 -1.8 -1.9 0.3 1992 0.9 1.0 2.4 1.3 -1.4 -0.5 3.6 5.9 6.3 6.3 2.5 0.6 1993 -2.8 -4.7 -6.6 -5.9 -3.3 -1.9 -0.9 0.2 0.7 -82.3 -84.6 -88.0 1994 -93.2 -98.5 -98.2 -96.2 -92.3 -91.2 -88.8 -88.5 -85.3 -7.5 12.8 23.1 1995 74.4 582.5 367.3 113.6 15.1

  7. Alabama Natural Gas in Underground Storage - Change in Working Gas from

    U.S. Energy Information Administration (EIA) (indexed site)

    Same Month Previous Year (Percent) Percent) Alabama Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Percent) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1996 221.1 244.8 179.6 64.8 86.8 112.2 130.5 1997 36.2 10.9 111.7 57.1 68.4 -5.0 -17.0 -19.4 -19.9 -12.1 -19.0 36.2 1998 31.5 45.0 -21.4 4.3 -12.4 46.2 38.7 23.0 -24.8 -0.8 15.1 6.0 1999 3.8 17.6 11.5 -11.9 35.3 -11.6 6.5 -2.0 67.7 4.7 12.2 10.2 2000 7.9 25.4 213.4 116.8 22.2 51.5 32.4 25.3

  8. Arkansas Natural Gas in Underground Storage - Change in Working Gas from

    U.S. Energy Information Administration (EIA) (indexed site)

    Same Month Previous Year (Percent) Percent) Arkansas Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Percent) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1991 -4.4 -8.3 -11.6 -14.2 -13.7 -14.5 -14.1 -18.0 -20.2 -20.4 -25.8 -30.6 1992 -22.4 -25.3 -26.8 -25.8 -27.1 -23.8 -18.0 -10.3 -5.1 -6.0 -1.3 1.0 1993 1.6 -2.9 -4.6 -5.4 -14.6 -17.3 -27.6 -34.0 -37.6 -37.9 -42.3 -48.2 1994 -63.6 -74.6 -86.5 -87.0 -71.6 -60.3 -47.2 -35.4 -31.0 -29.2 -21.3

  9. California Natural Gas in Underground Storage - Change in Working Gas from

    U.S. Energy Information Administration (EIA) (indexed site)

    Same Month Previous Year (Percent) Percent) California Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Percent) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1991 5.1 24.7 4.3 3.5 3.8 10.1 15.1 15.0 9.7 1.5 -1.7 9.7 1992 -4.9 -18.0 -19.6 -21.6 -18.0 -16.9 -15.6 -10.6 -1.5 3.8 2.4 -16.7 1993 -15.0 -19.6 8.1 2.5 3.1 -2.6 3.4 1.5 1.3 1.5 0.5 17.0 1994 13.4 -12.0 -24.5 -13.5 -10.9 -5.7 -8.4 -8.0 -4.2 -3.3 -6.0 -2.0 1995 7.4 63.0 54.5 20.8 14.6

  10. Wyoming Natural Gas in Underground Storage - Change in Working Gas from

    U.S. Energy Information Administration (EIA) (indexed site)

    Same Month Previous Year (Percent) Percent) Wyoming Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Percent) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1991 0.9 2.6 3.7 2.8 1.8 3.0 2.5 2.0 -0.2 -1.8 -2.5 -2.7 1992 -43.8 -46.9 -48.5 -48.7 -48.6 -49.4 -49.4 -50.6 -50.1 -51.9 -53.3 -58.2 1993 -32.4 -36.0 -35.5 -33.5 -30.9 -25.0 -21.0 -16.0 -14.5 -8.3 -12.5 -8.1 1994 4.1 2.9 8.2 10.1 12.7 5.3 0.8 0.6 1.5 1.5 11.2 14.0 1995 3.4 11.3 0.7 -7.6

  11. Ohio Natural Gas in Underground Storage - Change in Working Gas from Same

    U.S. Energy Information Administration (EIA) (indexed site)

    Month Previous Year (Percent) Percent) Ohio Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Percent) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1991 19.5 22.4 15.4 23.1 14.3 14.4 9.1 7.4 5.2 3.1 -3.3 -5.5 1992 -12.1 -27.3 -55.6 -57.4 -42.1 -27.9 -17.8 -13.7 -12.2 -10.0 -6.4 -11.0 1993 -11.3 -30.2 -60.3 -56.1 -31.6 -21.4 -13.8 -8.2 -0.9 -3.4 -7.9 -16.2 1994 -41.7 -61.0 -63.3 24.5 16.2 6.8 8.5 6.1 2.5 4.6 10.6 27.3 1995 67.7 179.6 562.8 43.0

  12. Oregon Natural Gas in Underground Storage - Change in Working Gas from Same

    U.S. Energy Information Administration (EIA) (indexed site)

    Month Previous Year (Percent) Percent) Oregon Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Percent) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 -0.1 1991 53.6 99.8 77.4 -30.5 -38.2 -24.2 -10.4 -2.9 1.3 3.3 4.2 8.6 1992 1.6 -10.3 -10.3 11.6 40.4 25.3 14.2 10.7 6.8 4.4 -9.9 -11.9 1993 -21.1 -25.4 -8.3 -9.2 -3.5 -7.0 -5.9 -4.7 -2.9 1.1 6.4 -1.1 1994 12.9 27.1 26.3 -67.7 -49.1 -32.2 -25.7 -21.5 -18.6 -20.3 -18.4 -14.3 1995 -25.9 -14.7

  13. Tennessee Natural Gas in Underground Storage - Change in Working Gas from

    U.S. Energy Information Administration (EIA) (indexed site)

    Same Month Previous Year (Percent) Percent) Tennessee Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Percent) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1997 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 1998 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 1999 43.0 55.3 41.7 61.2 59.6 131.5 70.6 38.1 29.2 25.1 16.0 8.6 2000 5.3 -3.2 12.8 21.0 16.7 -19.5 -34.7 -42.4 -50.4 -50.8 -41.4 -27.6 2001 -9.8 9.3 8.4 8.3 41.3 71.7 80.1 97.0 109.6

  14. Texas Natural Gas in Underground Storage - Change in Working Gas from Same

    U.S. Energy Information Administration (EIA) (indexed site)

    Month Previous Year (Percent) Percent) Texas Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Percent) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1991 -13.2 -13.8 -12.2 -16.7 -15.1 -12.7 -14.7 -12.9 -9.1 -12.1 -17.5 -13.3 1992 1.9 -0.4 -2.4 -7.4 -5.8 -7.6 -2.0 2.8 -0.9 -0.7 -2.1 -9.0 1993 -41.9 -44.7 -46.6 -41.3 -35.7 -33.7 -35.4 -35.0 -36.7 -35.5 -35.3 -32.7 1994 -13.0 -30.4 -20.9 -13.7 -8.3 -8.3 -0.1 3.0 15.2 17.2 27.0 21.5 1995 49.9 85.3

  15. Utah Natural Gas in Underground Storage - Change in Working Gas from Same

    U.S. Energy Information Administration (EIA) (indexed site)

    Month Previous Year (Percent) Percent) Utah Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Percent) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1991 48.7 19.2 -26.2 -3.2 0.1 32.2 -15.2 -19.1 -18.8 -21.7 -3.8 2.1 1992 -35.0 -4.5 68.2 48.2 46.1 36.5 13.8 0.4 -13.6 -18.6 5.0 6.8 1993 -6.8 -42.8 -72.3 -83.7 -48.5 -4.4 1.6 3.6 11.8 35.5 17.2 37.2 1994 66.2 69.4 210.9 497.9 131.8 40.0 34.2 32.4 40.9 25.7 26.4 36.0 1995 28.4 93.2 100.2 78.2 40.9

  16. West Virginia Natural Gas in Underground Storage - Change in Working Gas

    U.S. Energy Information Administration (EIA) (indexed site)

    from Same Month Previous Year (Percent) Percent) West Virginia Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Percent) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1991 7.1 -3.2 -1.4 0.2 -3.4 -3.9 -4.7 -8.2 -10.5 -10.3 -16.6 -21.9 1992 -15.1 -26.4 -59.0 -61.0 -43.3 -36.0 -27.0 -19.0 -14.7 -8.4 -5.4 18.6 1993 28.7 15.6 28.7 37.5 46.9 48.1 35.0 30.1 32.3 24.3 19.9 -9.9 1994 -36.1 -44.0 -50.4 -9.9 -20.6 -12.2 -4.3 -1.7 -1.2 -1.0 2.5 8.2 1995

  17. Colorado Natural Gas in Underground Storage - Change in Working Gas from

    U.S. Energy Information Administration (EIA) (indexed site)

    Same Month Previous Year (Percent) Percent) Colorado Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Percent) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1991 -4.5 8.0 0.2 18.3 29.2 20.6 7.1 5.5 3.8 4.6 8.4 6.4 1992 25.9 21.0 30.9 16.6 7.3 -3.4 -3.4 1.0 4.3 5.7 -5.5 -10.4 1993 -13.5 -20.7 -8.5 -6.4 10.0 22.0 14.3 3.5 -1.4 -12.0 -15.0 -11.5 1994 -15.3 -17.8 -21.0 -34.7 -16.3 -25.8 -16.1 -9.6 -6.1 0.2 7.4 0.2 1995 2.9 10.9 -0.8 5.3 -17.3 7.8

  18. Illinois Natural Gas in Underground Storage - Change in Working Gas from

    U.S. Energy Information Administration (EIA) (indexed site)

    Same Month Previous Year (Percent) Percent) Illinois Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Percent) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1991 -4.2 -4.0 0.3 4.2 3.5 1.7 1.1 0.4 0.0 2.4 -3.8 -3.3 1992 -4.2 -4.8 -6.4 -12.6 -9.2 -7.2 -5.6 -3.3 -2.3 -2.3 -2.2 -6.6 1993 -24.0 -31.6 -36.3 -30.7 -24.7 -20.2 -17.4 -16.7 -14.3 -13.7 -11.6 -12.9 1994 -3.7 -1.1 10.0 6.3 -2.8 -4.3 -2.6 -1.9 -1.2 -0.2 0.0 4.9 1995 13.3 6.3 -0.8 -4.1 -24.0

  19. Indiana Natural Gas in Underground Storage - Change in Working Gas from

    U.S. Energy Information Administration (EIA) (indexed site)

    Same Month Previous Year (Percent) Percent) Indiana Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Percent) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1991 11.0 5.4 -3.6 -8.8 -7.2 -9.9 -4.3 -0.2 0.9 13.4 2.4 -1.7 1992 -6.0 -4.2 -10.1 -9.5 -13.2 -4.2 4.7 1.9 3.9 -7.0 -6.5 -3.1 1993 1.6 -1.2 8.3 19.7 17.1 12.0 6.3 7.0 2.7 -1.9 -0.1 3.1 1994 -0.3 7.7 13.2 1.4 -4.7 -2.3 0.9 -0.1 -0.7 3.7 11.3 11.2 1995 17.4 9.6 8.0 8.6 11.8 7.0 -3.4 -5.3 -3.3

  20. Iowa Natural Gas in Underground Storage - Change in Working Gas from Same

    U.S. Energy Information Administration (EIA) (indexed site)

    Month Previous Year (Percent) Percent) Iowa Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Percent) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1991 -3.6 -8.4 -6.6 -4.0 -3.7 4.9 4.5 4.9 13.7 21.6 15.1 18.2 1992 -5.9 -10.5 -11.0 -8.6 -1.7 -4.7 3.2 7.9 6.2 3.3 2.5 -4.3 1993 -73.0 -85.1 -88.4 -81.1 -72.8 -64.5 -56.2 -50.3 -43.2 -42.8 -44.2 -51.6 1994 21.3 54.4 61.3 12.0 -0.1 -6.4 -6.3 -3.5 -4.3 1.5 5.3 7.2 1995 3.0 -5.8 -21.7 -39.9 -37.4 -20.3

  1. Kansas Natural Gas in Underground Storage - Change in Working Gas from Same

    U.S. Energy Information Administration (EIA) (indexed site)

    Month Previous Year (Percent) Percent) Kansas Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Percent) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1991 -9.6 -1.2 -0.2 -0.3 11.7 15.5 -0.7 -11.7 -15.1 -9.6 -30.3 -11.8 1992 28.5 15.1 8.5 3.4 -5.0 -12.7 -9.9 2.5 1.5 -8.0 -9.4 -25.3 1993 -41.2 -47.7 -48.5 -45.3 -8.3 9.0 10.7 8.6 12.8 12.5 19.4 24.0 1994 18.1 26.1 43.8 52.2 5.8 -5.9 0.7 2.1 -3.5 -1.6 -3.1 -2.4 1995 11.9 13.5 -4.5 -4.2 -1.5 9.2 0.7

  2. Kentucky Natural Gas in Underground Storage - Change in Working Gas from

    U.S. Energy Information Administration (EIA) (indexed site)

    Same Month Previous Year (Percent) Percent) Kentucky Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Percent) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1991 36.3 23.0 19.6 25.2 19.8 15.5 10.9 5.6 1.2 -2.7 -5.1 -1.7 1992 5.7 8.9 7.7 -0.9 -5.4 -7.3 -8.9 -10.3 -9.2 2.6 8.5 8.4 1993 3.5 -8.1 -14.7 -13.7 -3.8 4.4 9.2 12.9 14.8 3.2 -1.2 -9.6 1994 -25.7 -31.2 -28.1 -20.1 -13.8 -10.6 -7.3 -4.7 -7.2 -4.8 1.4 4.5 1995 14.0 16.7 18.3 14.2 16.8 12.2

  3. U.S. Natural Gas in Underground Storage - Change in Working Gas from Same

    U.S. Energy Information Administration (EIA) (indexed site)

    Month Previous Year (Percent) Percent) U.S. Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Percent) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1973 NA NA NA NA NA NA NA NA NA NA NA 17.6 1974 NA NA NA NA NA NA NA NA NA NA NA 0.8 1975 NA NA NA NA NA NA NA NA NA 8.2 NA 7.9 1976 NA NA NA NA NA NA NA NA 7.4 2.5 -5.2 -12.9 1977 -21.9 -19.5 -8.4 0.3 5.7 6.4 7.1 6.2 6.6 9.9 17.2 28.5 1978 41.3 12.6 -7.6 -13.7 -13.9 -9.6 -7.8 -3.8 -0.4 1.0 3.8 2.9

  4. Texas Working Natural Gas Underground Storage Capacity (Million Cubic Feet)

    Gasoline and Diesel Fuel Update

    8-2015 From Gas Wells 27,421 23,791 15,953 13,650 10,902 9,055 1978-2015 From Oil Wells 1,153 0 552 386 298 266 1978-2015 From Shale Gas Wells 0 0 0 2012-2015 From Coalbed Wells 0 0 0 2012-2015 Repressuring 0 0 0 0 0 0 2003-2015 Vented and Flared 0 0 0 0 NA NA 2003-2015 Nonhydrocarbon Gases Removed 0 0 0 0 NA NA 2003-2015 Marketed Production 28,574 23,791 16,506 14,036 11,200 9,321 1992-2015 Dry Production 16,506 11,222 8,887 2012

    Propane-Air 1981-2005 Refinery Gas 1981-2005 Other

  5. AGA Producing Region Natural Gas Working Underground Storage Capacity

    Gasoline and Diesel Fuel Update

    (Million Cubic Feet) Base Gas) (Million Cubic Feet) AGA Eastern Consuming Region Natural Gas in Underground Storage (Base Gas) (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1994 2,700,245 2,697,308 2,696,823 2,698,489 2,699,802 2,699,840 2,700,331 2,701,227 2,701,285 2,702,703 2,702,571 2,703,149 1995 2,699,674 2,699,575 2,696,880 2,695,400 2,726,268 2,726,255 2,668,312 2,671,818 2,672,399 2,672,258 2,671,362 2,672,808 1996 2,670,906 2,670,070 2,646,056 2,654,836

  6. Western Consuming Region Natural Gas Working Underground Storage (Billion

    Gasoline and Diesel Fuel Update

    Shale Production (Billion Cubic Feet) West Virginia Shale Production (Billion Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9 2000's 0 0 11 2010's 80 192 345 498 869 - = No Data Reported; -- = Not Applicable; NA = Not Available; W = Withheld to avoid disclosure of individual company data. Release Date: 11/19/2015 Next Release Date: 12/31/2016 Referring Pages: Shale Natural Gas Estimated Production West Virginia Shale Gas Proved Reserves, Reserves Changes,

  7. Government works with technology to boost gas output/usage

    SciTech Connect (OSTI)

    Nicoll, H.

    1996-10-01

    Specially treated ethane gas from fields of the Moomba area in the Cooper basin of South Australia now flows freely through 870 mi of interstate gas pipeline to an end-user in Sydney, New South Wales. This unprecedented usage of ethane is the result of a long-term cooperative agreement. The producer sought to provide the end-user with ethane gas for usage as a petrochemical feedstock to manufacture ethylene and plastic goods. The end-user had strict specifications for a low-CO{sub 2}, very dry ethane product with a small percentage of methane. In order to meet these, the producer committed millions of dollars to construct a high-technology, state-of-the-art ethane treatment facility in the Moomba area, and lay an extensive pipeline. Santos also contracted with the amines supplier to provide a high-performance, deep CO{sub 2} removal solvent with good corrosion prevention characteristics. The paper discusses the Moomba field overflow, gas treatment, government cooperation, and project completion.

  8. Lower 48 States Working Natural Gas Total Underground Storage Capacity

    Gasoline and Diesel Fuel Update

    (Million Cubic Feet) Total Natural Gas Injections into Underground Storage (Million Cubic Feet) Lower 48 States Total Natural Gas Injections into Underground Storage (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 2011 50,130 81,827 167,632 312,290 457,725 420,644 359,267 370,180 453,548 436,748 221,389 90,432 2012 74,854 56,243 240,351 263,896 357,965 323,026 263,910 299,798 357,109 327,767 155,554 104,953 2013 70,853 41,928 100,660 271,236 466,627 439,390 372,472

  9. Salt Producing Region Natural Gas Working Underground Storage (Billion

    Gasoline and Diesel Fuel Update

    Energy Technology Laboratory Ken Kern Strategic Energy Analysis and Planning Division National Energy Technology Lab, Pittsburgh, PA June 16, 2015 Coal Baseload Asset Aging, Evaluating Impacts on Capacity Factors Workshop on Coal Fleet Aging and Performance, EIA Post-Conference Meeting, Renaissance Hotel, Washington D.C. Generation by fuel "As natural gas prices increase in the AEO2013 Reference case, the utilization rate of coal-fired generators returns to previous historical levels and

  10. Indiana Working Natural Gas Underground Storage Capacity (Million Cubic

    Gasoline and Diesel Fuel Update

    1 5 1 6 69 78 1967-2015 Propane-Air 1 5 1 6 69 78 1980-2015 Refinery Gas 1980-200

    Connecticut Delaware Georgia Idaho Illinois Indiana Iowa Kansas Kentucky Louisiana Maryland Massachusetts Michigan Minnesota Mississippi Missouri Montana Nebraska New Jersey New Mexico New York North Carolina Ohio Oklahoma Oregon Pennsylvania Rhode Island South Carolina Tennessee Texas Utah Virginia Washington West Virginia Wisconsin Wyoming AGA Producing Region AGA Eastern Consuming Region AGA Western Consuming

  11. Pennsylvania Working Natural Gas Underground Storage Capacity (Million

    Gasoline and Diesel Fuel Update

    4 2 2 3 20 28 1967-2015 Synthetic 0 0 0 1980-2015 Propane-Air 4 2 2 3 20 28 1980-2015 Refinery Gas 1980-2005

    Connecticut Delaware Georgia Idaho Illinois Indiana Iowa Kansas Kentucky Louisiana Maryland Massachusetts Michigan Minnesota Mississippi Missouri Montana Nebraska New Jersey New Mexico New York North Carolina Ohio Oklahoma Oregon Pennsylvania Rhode Island South Carolina Tennessee Texas Utah Virginia Washington West Virginia Wisconsin Wyoming AGA Producing Region AGA Eastern Consuming

  12. California Working Natural Gas Underground Storage Capacity (Million Cubic

    Gasoline and Diesel Fuel Update

    5,554 5,163 5,051 5,470 5,805 5,146 1978-2015 From Gas Wells 71 259 640 413 410 454 1978-2015 From Oil Wells 5,483 4,904 4,411 5,057 5,395 4,692 1978-2015 Repressuring 435 403 NA NA NA NA 1992-2015 Vented and Flared 0 0 NA NA NA NA 2003-2015 Nonhydrocarbon Gases Removed 0 0 NA NA NA NA 2003-2015 Marketed Production 5,120 4,760 5,051 5,470 5,805 5,146 1992-2015 Dry Production 5,051 5,952 5,139

    22,503 2,171 0 23 0 0 2007-2015 Import Price 4.76 3.57 -- 3.59 -- -- 2007-2015 Export Volume 43,278

  13. Louisiana Working Natural Gas Underground Storage Capacity (Million Cubic

    Gasoline and Diesel Fuel Update

    8-2015 From Gas Wells 63,222 64,448 67,801 70,015 54,080 47,609 1978-2015 From Oil Wells 6,614 6,778 5,443 7,735 7,243 5,508 1978-2015 Repressuring 116 120 NA NA NA NA 1992-2015 Vented and Flared 146 149 NA NA NA NA 1999-2015 Nonhydrocarbon Gases Removed NA NA NA NA NA NA 2003-2015 Marketed Production 69,574 70,957 73,244 77,750 61,322 53,117 1992-2015 Dry Production 68,145 58,077 48,945 2012

    249 435 553 560 517 478 2007-2015 Biomass 249 435 553 560 517 478 201

    90,867 60,554 20,132

  14. Maryland Working Natural Gas Underground Storage Capacity (Million Cubic

    Gasoline and Diesel Fuel Update

    115 89 116 107 809 818 1967-2015 Synthetic 0 0 0 1980-2015 Propane-Air 115 89 116 107 809 818 1980-2015 Refinery Gas 1980-2005 Other 0 0 0 1980

    43,431 13,981 2,790 5,366 11,585 12,091 1999-2015 Import Price 5.37 5.30 13.82 15.29 8.34 4.91 199

    Monthly Annual Download Series History Download Series History Definitions, Sources & Notes Definitions, Sources & Notes Show Data By: Data Series Area 2010 2011 2012 2013 2014 2015 View History Net Withdrawals 2,292 -1,721 2,383 -811 556

  15. Assumptions and Expectations for Annual Energy Outlook 2015: Oil and Gas Working Group

    U.S. Energy Information Administration (EIA) (indexed site)

    5: Oil and Gas Working Group AEO2015 Oil and Gas Supply Working Group Meeting Office of Petroleum, Gas, and Biofuels Analysis August 7, 2014 | Washington, DC http://www.eia.gov/forecasts/aeo/workinggroup/ WORKING GROUP PRESENTATION FOR DISCUSSION PURPOSES DO NOT QUOTE OR CITE AS RESULTS ARE SUBJECT TO CHANGE Changes in release cycles for EIA's AEO and IEO * To focus more resources on rapidly changing energy markets and how they might evolve over the next few years, the U.S. Energy Information

  16. Alaska Working Natural Gas Underground Storage Capacity (Million Cubic

    Gasoline and Diesel Fuel Update

    From Gas Wells 42,034 36,202 32,875 27,149 22,653 16,462 1978-2015 From Oil Wells 328,114 328,500 274,431 305,253 342,482 354,196 1978-2015 Repressuring 310,329 301,516 269,203 272,772 324,092 329,820 1992-2015 Vented and Flared 2,139 1,690 2,525 1,549 776 640 1992-2015 Marketed Production 57,680 61,496 35,577 58,081 40,267 40,197 1992-2015 Dry Production 35,577 40,269 40,197 2012

    2004-2015

    30,100 16,398 9,342 0 13,310 16,519 1982-2015 Export Price 12.19 12.88 15.71 -- 15.74 7.49

  17. Natural Gas Summary from the Short-Term Energy Outlook

    Gasoline and Diesel Fuel Update

    and continued increases in demand over 2002 levels. Cold temperatures this past winter led to a record drawdown of storage stocks. By the end of March, estimated working gas...

  18. ,"Crude Oil and Petroleum Products Total Stocks Stocks by Type...

    U.S. Energy Information Administration (EIA) (indexed site)

    Data for" ,"Data 1","Crude Oil and Petroleum Products Total Stocks Stocks ... PM" "Back to Contents","Data 1: Crude Oil and Petroleum Products Total Stocks Stocks ...

  19. South Central Region Natural Gas in Underground Storage - Change in Working

    U.S. Energy Information Administration (EIA) (indexed site)

    Gas from Same Month Previous Year (Million Cubic Feet) - Change in Working Gas from Same Month Previous Year (Million Cubic Feet) South Central Region Natural Gas in Underground Storage - Change in Working Gas from Same Month Previous Year (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 2013 -101,888 -155,544 -335,881 -301,038 -208,037 -149,650 -71,958 -32,654 -17,109 -7,023 -55,429 -144,477 2014 -281,823 -324,789 -326,968 -286,719 -287,056 -272,324 -254,513

  20. ,"Weekly East Region Natural Gas Working Underground Storage (Billion Cubic Feet)"

    U.S. Energy Information Administration (EIA) (indexed site)

    East Region Natural Gas Working Underground Storage (Billion Cubic Feet)" ,"Click worksheet name or tab at bottom for data" ,"Worksheet Name","Description","# Of Series","Frequency","Latest Data for" ,"Data 1","Weekly East Region Natural Gas Working Underground Storage (Billion Cubic Feet)",1,"Weekly","11/11/2016" ,"Release Date:","11/17/2016" ,"Next Release

  1. ,"Weekly Lower 48 States Natural Gas Working Underground Storage (Billion Cubic Feet)"

    U.S. Energy Information Administration (EIA) (indexed site)

    Lower 48 States Natural Gas Working Underground Storage (Billion Cubic Feet)" ,"Click worksheet name or tab at bottom for data" ,"Worksheet Name","Description","# Of Series","Frequency","Latest Data for" ,"Data 1","Weekly Lower 48 States Natural Gas Working Underground Storage (Billion Cubic Feet)",1,"Weekly","11/11/2016" ,"Release Date:","11/17/2016" ,"Next Release

  2. ,"Weekly Midwest Region Natural Gas Working Underground Storage (Billion Cubic Feet)"

    U.S. Energy Information Administration (EIA) (indexed site)

    Midwest Region Natural Gas Working Underground Storage (Billion Cubic Feet)" ,"Click worksheet name or tab at bottom for data" ,"Worksheet Name","Description","# Of Series","Frequency","Latest Data for" ,"Data 1","Weekly Midwest Region Natural Gas Working Underground Storage (Billion Cubic Feet)",1,"Weekly","11/11/2016" ,"Release Date:","11/17/2016" ,"Next Release

  3. ,"Weekly Mountain Region Natural Gas Working Underground Storage (Billion Cubic Feet)"

    U.S. Energy Information Administration (EIA) (indexed site)

    Mountain Region Natural Gas Working Underground Storage (Billion Cubic Feet)" ,"Click worksheet name or tab at bottom for data" ,"Worksheet Name","Description","# Of Series","Frequency","Latest Data for" ,"Data 1","Weekly Mountain Region Natural Gas Working Underground Storage (Billion Cubic Feet)",1,"Weekly","11/11/2016" ,"Release Date:","11/17/2016" ,"Next Release

  4. ,"Weekly Pacific Region Natural Gas Working Underground Storage (Billion Cubic Feet)"

    U.S. Energy Information Administration (EIA) (indexed site)

    Pacific Region Natural Gas Working Underground Storage (Billion Cubic Feet)" ,"Click worksheet name or tab at bottom for data" ,"Worksheet Name","Description","# Of Series","Frequency","Latest Data for" ,"Data 1","Weekly Pacific Region Natural Gas Working Underground Storage (Billion Cubic Feet)",1,"Weekly","11/11/2016" ,"Release Date:","11/17/2016" ,"Next Release

  5. ,"Weekly South Central Region Natural Gas Working Underground Storage (Billion Cubic Feet)"

    U.S. Energy Information Administration (EIA) (indexed site)

    South Central Region Natural Gas Working Underground Storage (Billion Cubic Feet)" ,"Click worksheet name or tab at bottom for data" ,"Worksheet Name","Description","# Of Series","Frequency","Latest Data for" ,"Data 1","Weekly South Central Region Natural Gas Working Underground Storage (Billion Cubic Feet)",1,"Weekly","11/11/2016" ,"Release Date:","11/17/2016" ,"Next

  6. Coke oven gas treatment and by-product plant of Magnitogorsk Integrated Iron and Steel Works

    SciTech Connect (OSTI)

    Egorov, V.N.; Anikin, G.J.; Gross, M.

    1995-12-01

    Magnitogorsk Integrated Iron and Steel Works, Russia, decided to erect a new coke oven gas treatment and by-product plant to replace the existing obsolete units and to improve the environmental conditions of the area. The paper deals with the technological concept and the design requirements. Commissioning is scheduled at the beginning of 1996. The paper describes H{sub 2}S and NH{sub 3} removal, sulfur recovery and ammonia destruction, primary gas cooling and electrostatic tar precipitation, and the distributed control system that will be installed.

  7. Method and apparatus for removing non-condensible gas from a working fluid in a binary power system

    DOE Patents [OSTI]

    Mohr, Charles M.; Mines, Gregory L.; Bloomfield, K. Kit

    2002-01-01

    Apparatus for removing non-condensible gas from a working fluid utilized in a thermodynamic system comprises a membrane having an upstream side operatively connected to the thermodynamic system so that the upstream side of the membrane receives a portion of the working fluid. The first membrane separates the non-condensible gas from the working fluid. A pump operatively associated with the membrane causes the portion of the working fluid to contact the membrane and to be returned to the thermodynamic system.

  8. U.S. Working Natural Gas Underground Storage Acquifers Capacity (Million

    U.S. Energy Information Administration (EIA) (indexed site)

    Cubic Feet) Acquifers Capacity (Million Cubic Feet) U.S. Working Natural Gas Underground Storage Acquifers Capacity (Million Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9 2000's 396,950 396,092 2010's 364,228 363,521 367,108 453,054 452,044 452,287 - = No Data Reported; -- = Not Applicable; NA = Not Available; W = Withheld to avoid disclosure of individual company data. Release Date: 10/31/2016 Next Release Date: 11/30/2016 Referring Pages: Working

  9. U.S. Working Natural Gas Underground Storage Depleted Fields Capacity

    U.S. Energy Information Administration (EIA) (indexed site)

    (Million Cubic Feet) Depleted Fields Capacity (Million Cubic Feet) U.S. Working Natural Gas Underground Storage Depleted Fields Capacity (Million Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9 2000's 3,583,786 3,659,968 2010's 3,733,993 3,769,113 3,720,980 3,839,852 3,844,927 3,854,408 - = No Data Reported; -- = Not Applicable; NA = Not Available; W = Withheld to avoid disclosure of individual company data. Release Date: 10/31/2016 Next Release Date:

  10. U.S. Working Natural Gas Underground Storage Salt Caverns Capacity (Million

    U.S. Energy Information Administration (EIA) (indexed site)

    Cubic Feet) Salt Caverns Capacity (Million Cubic Feet) U.S. Working Natural Gas Underground Storage Salt Caverns Capacity (Million Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9 2000's 230,456 271,785 2010's 312,003 351,017 488,268 455,729 488,698 493,976 - = No Data Reported; -- = Not Applicable; NA = Not Available; W = Withheld to avoid disclosure of individual company data. Release Date: 10/31/2016 Next Release Date: 11/30/2016 Referring Pages:

  11. ,"U.S. Working Natural Gas Total Underground Storage Capacity (MMcf)"

    U.S. Energy Information Administration (EIA) (indexed site)

    Total Underground Storage Capacity (MMcf)" ,"Click worksheet name or tab at bottom for data" ,"Worksheet Name","Description","# Of Series","Frequency","Latest Data for" ,"Data 1","U.S. Working Natural Gas Total Underground Storage Capacity (MMcf)",1,"Annual",2015 ,"Release Date:","10/31/2016" ,"Next Release Date:","11/30/2016" ,"Excel File

  12. ,"U.S. Working Natural Gas Underground Storage Acquifers Capacity (MMcf)"

    U.S. Energy Information Administration (EIA) (indexed site)

    Acquifers Capacity (MMcf)" ,"Click worksheet name or tab at bottom for data" ,"Worksheet Name","Description","# Of Series","Frequency","Latest Data for" ,"Data 1","U.S. Working Natural Gas Underground Storage Acquifers Capacity (MMcf)",1,"Annual",2015 ,"Release Date:","10/31/2016" ,"Next Release Date:","11/30/2016" ,"Excel File

  13. ,"U.S. Working Natural Gas Underground Storage Depleted Fields Capacity (MMcf)"

    U.S. Energy Information Administration (EIA) (indexed site)

    Depleted Fields Capacity (MMcf)" ,"Click worksheet name or tab at bottom for data" ,"Worksheet Name","Description","# Of Series","Frequency","Latest Data for" ,"Data 1","U.S. Working Natural Gas Underground Storage Depleted Fields Capacity (MMcf)",1,"Annual",2015 ,"Release Date:","10/31/2016" ,"Next Release Date:","11/30/2016" ,"Excel File

  14. ,"U.S. Working Natural Gas Underground Storage Salt Caverns Capacity (MMcf)"

    U.S. Energy Information Administration (EIA) (indexed site)

    Salt Caverns Capacity (MMcf)" ,"Click worksheet name or tab at bottom for data" ,"Worksheet Name","Description","# Of Series","Frequency","Latest Data for" ,"Data 1","U.S. Working Natural Gas Underground Storage Salt Caverns Capacity (MMcf)",1,"Annual",2015 ,"Release Date:","10/31/2016" ,"Next Release Date:","11/30/2016" ,"Excel File

  15. Blast furnace gas fired boiler for Eregli Iron and Steel Works (Erdemir), Turkey

    SciTech Connect (OSTI)

    Green, J.; Strickland, A.; Kimsesiz, E.; Temucin, I.

    1996-11-01

    Eregli Demir ve Celik Fabriklari T.A.S. (Eregli Iron and Steel Works Inc.), known as Erdemir, is a modern integrated iron and steel works on the Black Sea coast of Turkey, producing flat steel plate. Facilities include two blast furnaces, coke ovens, and hot and cold rolling mills, with a full supporting infrastructure. Four oil- and gas-fired steam boilers provide steam for electric power generation, and to drive steam turbine driven fans for Blast Furnace process air. Two of these boilers (Babcock and Wilcox Type FH) were first put into operation in 1965, and still reliably produce 100 tons/hour of steam at a pressure of 44 bar and a temperature of 410 C. In 1989 Erdemir initiated a Capacity Increase and Modernization Project to increase the steel production capability from two million to three million tons annually. This project also incorporates technology to improve the product quality. Its goals include a reduction in energy expenses to improve Erdemir`s competitiveness. The project`s scheduled completion is in late 1995. The by-product gases of the blast furnaces, coke ovens, and basic oxygen furnaces represent a considerable share of the consumed energy in an integrated iron and steel works. Efficient use of these fuels is an important factor in improving the overall efficiency of the operation.

  16. Huge natural gas reserves central to capacity work, construction plans in Iran

    SciTech Connect (OSTI)

    Not Available

    1994-07-11

    Questions about oil production capacity in Iran tend to mask the country's huge potential as a producer of natural gas. Iran is second only to Russia in gas reserves, which National Iranian Gas Co. estimates at 20.7 trillion cu m. Among hurdles to Iran's making greater use of its rich endowment of natural gas are where and how to sell gas not used inside the country. The marketing logistics problem is common to other Middle East holders of gas reserves and a reason behind the recent proliferation of proposals for pipeline and liquefied natural gas schemes targeting Europe and India. But Iran's challenges are greater than most in the region. Political uncertainties and Islamic rules complicate long-term financing of transportation projects and raise questions about security of supply. As a result, Iran has remained mostly in the background of discussions about international trade of Middle Eastern gas. The country's huge gas reserves, strategic location, and existing transport infrastructure nevertheless give it the potential to be a major gas trader if the other issues can be resolved. The paper discusses oil capacity plans, gas development, gas injection for enhanced oil recovery, proposals for exports of gas, and gas pipeline plans.

  17. ,"Crude Oil and Petroleum Products Total Stocks Stocks by Type...

    U.S. Energy Information Administration (EIA) (indexed site)

    Name","Description"," Of Series","Frequency","Latest Data for" ,"Data 1","Crude Oil and Petroleum Products Total Stocks Stocks by Type",6,"Monthly","82015","1151956"...

  18. ,"Weekly Nonsalt South Central Region Natural Gas Working Underground Storage (Billion Cubic Feet)"

    U.S. Energy Information Administration (EIA) (indexed site)

    Nonsalt South Central Region Natural Gas Working Underground Storage (Billion Cubic Feet)" ,"Click worksheet name or tab at bottom for data" ,"Worksheet Name","Description","# Of Series","Frequency","Latest Data for" ,"Data 1","Weekly Nonsalt South Central Region Natural Gas Working Underground Storage (Billion Cubic Feet)",1,"Weekly","11/11/2016" ,"Release

  19. ,"Weekly Salt South Central Region Natural Gas Working Underground Storage (Billion Cubic Feet)"

    U.S. Energy Information Administration (EIA) (indexed site)

    Salt South Central Region Natural Gas Working Underground Storage (Billion Cubic Feet)" ,"Click worksheet name or tab at bottom for data" ,"Worksheet Name","Description","# Of Series","Frequency","Latest Data for" ,"Data 1","Weekly Salt South Central Region Natural Gas Working Underground Storage (Billion Cubic Feet)",1,"Weekly","11/11/2016" ,"Release Date:","11/17/2016"

  20. Estimate of Maximum Underground Working Gas Storage Capacity in the United States: 2007 Update

    Reports and Publications

    2007-01-01

    This report provides an update to an estimate for U.S. aggregate natural gas storage capacity that was released in 2006.

  1. Natural Gas Weekly Update

    Gasoline and Diesel Fuel Update

    Table A4 of the Annual Energy Review 2002. Source: Energy Information Administration, Office of Oil and Gas. Storage: Natural gas stocks stood at 2,155 Bcf as of Friday, July 9,...

  2. Philadelphia gas works medium-Btu coal gasification project: capital and operating cost estimate, financial/legal analysis, project implementation

    SciTech Connect (OSTI)

    Not Available

    1981-12-01

    This volume of the final report is a compilation of the estimated capital and operating costs for the project. Using the definitive design as a basis, capital and operating costs were developed by obtaining quotations for equipment delivered to the site. Tables 1.1 and 1.2 provide a summary of the capital and operating costs estimated for the PGW Coal Gasification Project. In the course of its Phase I Feasibility Study of a medium-Btu coal-gas facility, Philadelphia Gas Works (PGW) identified the financing mechanism as having great impact on gas cost. Consequently, PGW formed a Financial/Legal Task Force composed of legal, financial, and project analysis specialists to study various ownership/management options. In seeking an acceptable ownership, management, and financing arrangement, certain ownership forms were initially identified and classified. Several public ownership, private ownership, and third party ownership options for the coal-gas plant are presented. The ownership and financing forms classified as base alternatives involved tax-exempt and taxable financing arrangements and are discussed in Section 3. Project implementation would be initiated by effectively planning the methodology by which commercial operation will be realized. Areas covered in this report are sale of gas to customers, arrangements for feedstock supply and by-product disposal, a schedule of major events leading to commercialization, and a plan for managing the implementation.

  3. Estimate of Maximum Underground Working Gas Storage Capacity in the United States

    Reports and Publications

    2006-01-01

    This report examines the aggregate maximum capacity for U.S. natural gas storage. Although the concept of maximum capacity seems quite straightforward, there are numerous issues that preclude the determination of a definitive maximum volume. The report presents three alternative estimates for maximum capacity, indicating appropriate caveats for each.

  4. Control of SOx emission in tail gas of the Claus Plant at Kwangyang Steel Works

    SciTech Connect (OSTI)

    Kang, H.S.; Park, J.W.; Hyun, H.D.; Lee, D.S.; Paik, S.C.; Chung, J.S.

    1995-12-01

    Pilot and/or laboratory studies were conducted in order to find methods for reducing the SOx emission in the Claus tail gas of the cokes unit. The TGT process which is based on the complete hydrogenation of the sulfur-containing compounds (SO{sub 2}, S) into H{sub 2}S and returning to the COG main line can reduce the SOx emission to zero. In case the return to the COG main is impossible, the SPOR process (Sulfur removal based on Partial Oxidation and Reduction) can be successfully applied to reduce the SOx emission.

  5. Natural Gas Weekly Update

    U.S. Department of Energy (DOE) all webpages (Extended Search)

    for the March contract ended the week up almost 5 cents at 2.191 per MMBtu. Natural gas stocks remained well above last year's level as estimated net withdrawals were 82 Bcf...

  6. Natural Gas Weekly Update

    U.S. Department of Energy (DOE) all webpages (Extended Search)

    last Wednesday's level, to 5.097 per MMBtu at yesterday's close of trading. Natural gas stocks as of Friday, March 21 stood at 643 Bcf, which is 47.4 percent less than the...

  7. Property:StockSymbol | Open Energy Information

    Open Energy Information (Open El) [EERE & EIA]

    StockSymbol Jump to: navigation, search This is a property of type String. Retrieved from "http:en.openei.orgwindex.php?titleProperty:StockSymbol&oldid173773...

  8. Recent Trends in Crude Oil Stock Levels

    Reports and Publications

    1996-01-01

    This article, the third in a series of three on petroleum stocks, attempts to identify the components of the decline in the EIA crude oil stock data.

  9. Total Working Gas Capacity

    U.S. Energy Information Administration (EIA) (indexed site)

    Monthly Annual Download Series History Download Series History Definitions, Sources & Notes Definitions, Sources & Notes Show Data By: Data Series Area 2010 2011 2012 2013 2014 2015 View History U.S. 4,410,224 4,483,650 4,576,356 4,748,636 4,785,669 4,800,671 2008-2015 Alaska 67,915 67,915 67,915 2013-2015 Alabama 25,150 27,350 27,350 27,350 33,150 33,150 2008-2015 Arkansas 13,898 12,036 12,178 12,178 12,178 12,178 2008-2015 California 311,096 335,396 349,296 374,296 374,296 375,496

  10. U.S. Prices, Sales Volumes & Stocks

    Gasoline and Diesel Fuel Update

    Petroleum Flow, 2015 million barrels per day 1 Unfinished oils, hydrogen/oxygenates/renewables/other hydrocarbons, and motor gasoline and aviation gasoline blending components. 2 Renewable fuels and oxygenate plant net production (1.113), net imports (0.654) and adjustments (0.373) minus stock change (0.017) and product supplied (-0.010). 3 Finished petroleum products, liquefied petroleum gases, and pentanes plus. 4 Natural gas plant liquids. 5 Field production (3.273) and renewable fuels and

  11. Stock Assessment of Columbia River Anadromous Salmonids : Final Report, Volume II, Steelhead Stock Summaries, Stock Transfer Guidelines, Information Needs.

    SciTech Connect (OSTI)

    Howell, Philip J.

    1985-07-01

    This report presents brief descriptions of wild and hatchery-raised steelhead trout stocks in the Columbia River Basin. (ACR)

  12. Burden distribution control for maintaining the central gas flow at No. 1 blast furnace in Pohang Works

    SciTech Connect (OSTI)

    Jung, S.K.; Lee, Y.J.; Suh, Y.K.; Ahn, T.J.; Kim, S.M.

    1995-12-01

    The causes for temperature lowering at the upper shaft center in Pohang No. 1 blast furnace were investigated. The test operation with charging notch change in the actual blast furnace and with a 1/12 scale model to Pohang No. 1 blast furnace were carried out in order to improve central gas flow in the shaft. Finally, rebuilding of the lower bunker interior was performed using the results of model experiments. It was confirmed that the main reason for the gas temperature lowering at the upper shaft center was the smaller particle size at center than the wall according to the discharging characteristics of center feed bunker with stone box. The central gas flow could be secured through modifying the stone box in the bunker.

  13. "ENDING STOCKS OF CRUDE OIL (excluding SPR)"

    U.S. Energy Information Administration (EIA) (indexed site)

    ENDING STOCKS OF CRUDE OIL (excluding SPR)" "Sourcekey","WCESTP11","WCESTP11","WCESTP21","... 1) Ending Stocks excluding SPR of Crude Oil (Thousand Barrels)","Weekly East Coast ...

  14. U.S. Total Stocks

    Annual Energy Outlook

    & Notes Show Data By: Product Stock Type Area Feb-16 Mar-16 Apr-16 May-16 Jun-16 Jul-16 ... EthaneEthylene 32,733 35,234 39,064 44,952 51,566 52,942 1967-2016 PropanePropylene ...

  15. Natural Gas Underground Storage Capacity (Summary)

    U.S. Energy Information Administration (EIA) (indexed site)

    Salt Caverns Storage Capacity Aquifers Storage Capacity Depleted Fields Storage Capacity Total Working Gas Capacity Working Gas Capacity of Salt Caverns Working Gas Capacity of ...

  16. The influence of working gas pressure on interlayer mixing in magnetron-deposited Mo/Si multilayers

    SciTech Connect (OSTI)

    Pershyn, Yuriy; Gullikson, Erik; Artyukov, Igor; Kondratenko, Valeriy; Sevryukova, Victoriya; Voronov, Dmitriy; Zubarev, Evgeniy; Vinogradov, Alexander

    2011-08-08

    Impact of Ar gas pressure (1-4 mTorr) on the growth of amorphous interlayers in Mo/Si multilayers deposited by magnetron sputtering was investigated by small-angle x-ray scattering ({lambda} = 0.154 nm) and methods of cross-sectional transmission electron microscopy. Some reduction of thickness of the amorphous inter-layers with Ar pressure increase was found, while composition of the layers was enriched with molybdenum. The interface modification resulted in raise of EUV reflectance of the Mo/Si multilayers.

  17. Industrial Gas Turbines

    Energy.gov [DOE]

    A gas turbine is a heat engine that uses high-temperature, high-pressure gas as the working fluid. Part of the heat supplied by the gas is converted directly into mechanical work. High-temperature,...

  18. Natural Gas Weekly Update, Printer-Friendly Version

    Gasoline and Diesel Fuel Update

    Table A4 of the Annual Energy Review 2002. Source: Energy Information Administration, Office of Oil and Gas. Storage: Natural gas stocks stood at 2,155 Bcf as of Friday, July 9,...

  19. Underwater robotic work systems for Russian arctic offshore oil/gas industry: Final report. Export trade information

    SciTech Connect (OSTI)

    1997-12-15

    The study was performed in association with Rosshelf, a shelf developing company located in Moscow. This volume involves developing an underwater robotic work system for oil exploration in Russia`s Arctic waters, Sea of Okhotsk and the Caspian Sea. The contents include: (1) Executive Summary; (2) Study Background; (3) Study Outline and Results; (4) Conclusions; (5) Separately Published Elements; (6) List of Subcontractors.

  20. Scaling impacts on environmental controls and spatial heterogeneity of soil organic carbon stocks

    DOE PAGES-Beta [OSTI]

    Mishra, U.; Riley, W. J.

    2015-01-27

    The spatial heterogeneity of land surfaces affects energy, moisture, and greenhouse gas exchanges with the atmosphere. However, representing heterogeneity of terrestrial hydrological and biogeochemical processes in earth system models (ESMs) remains a critical scientific challenge. We report the impact of spatial scaling on environmental controls, spatial structure, and statistical properties of soil organic carbon (SOC) stocks across the US state of Alaska. We used soil profile observations and environmental factors such as topography, climate, land cover types, and surficial geology to predict the SOC stocks at a 50 m spatial scale. These spatially heterogeneous estimates provide a dataset with reasonablemore » fidelity to the observations at a sufficiently high resolution to examine the environmental controls on the spatial structure of SOC stocks. We upscaled both the predicted SOC stocks and environmental variables from finer to coarser spatial scales (s = 100, 200, 500 m, 1, 2, 5, 10 km) and generated various statistical properties of SOC stock estimates. We found different environmental factors to be statistically significant predictors at different spatial scales. Only elevation, temperature, potential evapotranspiration, and scrub land cover types were significant predictors at all scales. The strengths of control (the median value of geographically weighted regression coefficients) of these four environmental variables on SOC stocks decreased with increasing scale and were accurately represented using mathematical functions (R2 = 0.83–0.97). The spatial structure of SOC stocks across Alaska changed with spatial scale. Although the variance (sill) and unstructured variability (nugget) of the calculated variograms of SOC stocks decreased exponentially with scale, the correlation length (range) remained relatively constant across scale. The variance of predicted SOC stocks decreased with spatial scale over the range of 50 to ~ 500 m, and remained

  1. Scaling impacts on environmental controls and spatial heterogeneity of soil organic carbon stocks

    DOE PAGES-Beta [OSTI]

    Mishra, U.; Riley, W. J.

    2015-07-02

    The spatial heterogeneity of land surfaces affects energy, moisture, and greenhouse gas exchanges with the atmosphere. However, representing the heterogeneity of terrestrial hydrological and biogeochemical processes in Earth system models (ESMs) remains a critical scientific challenge. We report the impact of spatial scaling on environmental controls, spatial structure, and statistical properties of soil organic carbon (SOC) stocks across the US state of Alaska. We used soil profile observations and environmental factors such as topography, climate, land cover types, and surficial geology to predict the SOC stocks at a 50 m spatial scale. These spatially heterogeneous estimates provide a data setmore » with reasonable fidelity to the observations at a sufficiently high resolution to examine the environmental controls on the spatial structure of SOC stocks. We upscaled both the predicted SOC stocks and environmental variables from finer to coarser spatial scales (s = 100, 200, and 500 m and 1, 2, 5, and 10 km) and generated various statistical properties of SOC stock estimates. We found different environmental factors to be statistically significant predictors at different spatial scales. Only elevation, temperature, potential evapotranspiration, and scrub land cover types were significant predictors at all scales. The strengths of control (the median value of geographically weighted regression coefficients) of these four environmental variables on SOC stocks decreased with increasing scale and were accurately represented using mathematical functions (R2 = 0.83–0.97). The spatial structure of SOC stocks across Alaska changed with spatial scale. Although the variance (sill) and unstructured variability (nugget) of the calculated variograms of SOC stocks decreased exponentially with scale, the correlation length (range) remained relatively constant across scale. The variance of predicted SOC stocks decreased with spatial scale over the range of 50 m to ~ 500 m

  2. Natural Gas Locomotive | GE Global Research

    U.S. Department of Energy (DOE) all webpages (Extended Search)

    Current Issues & Trends See more › Coal may surpass natural gas as most common electricity generation fuel this winter electricitygenerationcoalweather Woodfibre LNG becomes the first Canadian LNG project to receive Final Investment Decision LNG (liquefied natural gas)Canada Amount of natural gas in storage reaches new record weatherstorage Microchannel gas-to-liquid plants convert stranded natural gas to marketable products liquid fuels Natural gas stocks end refill season at record high

  3. Commercial Building Stock Assessment: Findings and Opportunities

    U.S. Department of Energy (DOE) all webpages (Extended Search)

    NORTHWEST ENERGY EFFICIENCY ALLIANCE 2014 Commercial Building Stock Assessment: BPA Brown Bag May 20, 2015 Christopher Frye Senior Manager, Market Research and Evaluation Aaron...

  4. A quantum mechanical model for the relationship between stock price and stock ownership

    SciTech Connect (OSTI)

    Cotfas, Liviu-Adrian

    2012-11-01

    The trade of a fixed stock can be regarded as the basic process that measures its momentary price. The stock price is exactly known only at the time of sale when the stock is between traders, that is, only in the case when the owner is unknown. We show that the stock price can be better described by a function indicating at any moment of time the probabilities for the possible values of price if a transaction takes place. This more general description contains partial information on the stock price, but it also contains partial information on the stock owner. By following the analogy with quantum mechanics, we assume that the time evolution of the function describing the stock price can be described by a Schroedinger type equation.

  5. Ryazan Metal Ceramics Instrumentation Plant Joint Stock Co RMCIP...

    Open Energy Information (Open El) [EERE & EIA]

    Ryazan Metal Ceramics Instrumentation Plant Joint Stock Co RMCIP JSC Jump to: navigation, search Name: Ryazan Metal Ceramics Instrumentation Plant Joint Stock Co (RMCIP JSC) Place:...

  6. Tianjin Lishen Battery Joint stock Co Ltd | Open Energy Information

    Open Energy Information (Open El) [EERE & EIA]

    Lishen Battery Joint stock Co Ltd Jump to: navigation, search Name: Tianjin Lishen Battery Joint-stock Co Ltd Place: Tianjin, Tianjin Municipality, China Zip: 300384 Product:...

  7. Hubei Shenzhou New Energy Power Generation Stock Co Ltd | Open...

    Open Energy Information (Open El) [EERE & EIA]

    Hubei Shenzhou New Energy Power Generation Stock Co Ltd Jump to: navigation, search Name: Hubei Shenzhou New Energy Power Generation Stock Co Ltd Place: Hubei Province, China...

  8. Shandong Jinjing Science Technology Stock Co Ltd | Open Energy...

    Open Energy Information (Open El) [EERE & EIA]

    Jinjing Science Technology Stock Co Ltd Jump to: navigation, search Name: Shandong Jinjing Science & Technology Stock Co Ltd Place: Zibo, Shandong Province, China Zip: 255200...

  9. Natural Gas Summary from the Short-Term Energy Outlook

    Gasoline and Diesel Fuel Update

    8 per MMBtu during the last 2 months of 2003 and increase to $4.36 in January 2004 (Short-Term Energy Outlook, November 2003). Prices have fallen in the past few months as mild weather and reduced industrial demand have allowed record storage refill rates. As of October 31, 2003, working gas levels had reached 3,155 Bcf, which is about 3 percent higher than the 5-year average and the first time since October 2002 that stocks exceeded the year-earlier levels. With the improved storage situation,

  10. Upgrading heavy gas oils

    SciTech Connect (OSTI)

    Ferguson, S.; Reese, D.D.

    1986-05-20

    A method is described of neutralizing the organic acidity in heavy gas oils to produce a neutralization number less than 1.0 whereby they are rendered suitable as lube oil feed stocks which consists essentially of treating the heavy gas oils with a neutralizing amount of monoethanolamine to form an amine salt with the organic acids and then heating the thus-neutralized heavy gas oil at a temperature at least about 25/sup 0/F greater than the boiling point of water and for a time sufficient to convert the amine salts to amides.

  11. Future of Natural Gas

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    of Natural Gas Bill Eisele, CEM SC Electric & Gas Co Hosted by: FEDERAL UTILITY PARTNERSHIP WORKING GROUP SEMINAR November 5-6, 2014 Cape Canaveral. Florida Agenda * Gas Facts * ...

  12. Working Gas Capacity of Aquifers

    U.S. Energy Information Administration (EIA) (indexed site)

    64,228 363,521 367,108 453,054 452,044 452,287 2008-2015 Alabama 0 0 0 2012-2015 Arkansas 0 0 0 2012-2015 California 0 10,000 10,000 10,000 2009-2015 Colorado 0 0 0 2012-2015 Illinois 216,132 215,017 215,594 291,544 292,544 291,845 2008-2015 Indiana 19,437 19,479 19,215 19,215 19,215 20,048 2008-2015 Iowa 90,613 91,113 90,313 90,313 90,313 90,313 2008-2015 Kansas 0 0 0 2012-2015 Kentucky 6,629 6,629 6,629 6,629 4,619 4,619 2008-2015 Louisiana 0 0 0 2012-2015 Michigan 0 0 0 2012-2015 Minnesota

  13. Buildings Sector Working Group

    U.S. Energy Information Administration (EIA) (indexed site)

    July 22, 2013 AEO2014 Model Development For discussion purposes only Not for citation Overview Builldings Working Group Forrestal 2E-069 / July 22, 2013 2 * Residential projects - RECS update - Lighting model - Equipment, shell subsidies - ENERGY STAR benchmarking - Housing stock formation and decay * Commercial projects - Major end-use capacity factors - Hurdle rates - ENERGY STAR buildings * Both sectors - Consumer behavior workshop - Comparisons to STEO - AER  MER - Usual annual updates -

  14. Duck Valley Resident Fish Stocking Program, 2000 Final Annual Report.

    SciTech Connect (OSTI)

    Dodson, Guy; Pero, Vincent

    2002-01-01

    The Shoshone-Paiute Tribes fish-stocking program was begun in 1988 and is intended to provide a subsistence fishery for the tribal members. The program stocks catchable and fingerling size trout in Mt. View and Sheep Creek Reservoirs. Rainbow trout are purchased from only certified disease-free facilities to be stocked in our reservoirs. This project will help restore a fishery for tribal members that historically depended on wild salmon and steelhead in the Owyhee and Bruneau Rivers and their tributaries for their culture as well as for subsistence. This project is partial substitution for loss of anadromous fish production due to construction and operation of hydroelectric dams on the Columbia and Snake Rivers. Until anadromous fish can be returned to the Owyhee and Bruneau Rivers this project will continue indefinitely. As part of this project the Shoshone-Paiute Tribes will also receive income in the form of fees from non-tribal members who come to fish these reservoirs. Regular monitoring and evaluation of the fishery will include sampling for length/weight/condition and for signs of disease. A detailed Monitoring and evaluation plan has been put in place for this project. However due to budget limitations on this project only the fishery surveys and limited water quality work can be completed. A creel survey was initiated in 1998 and we are following the monitoring and evaluation schedule for this program (as budget allows) as well as managing the budget and personnel. This program has been very successful in the past decade and has provided enjoyment and sustenance for both tribal and non-tribal members. All biological data and stocking rates will be including in the Annual reports to Bonneville Power Administration (BPA).

  15. Total Natural Gas Underground Storage Capacity

    U.S. Department of Energy (DOE) all webpages (Extended Search)

    Storage Capacity Salt Caverns Storage Capacity Aquifers Storage Capacity Depleted Fields Storage Capacity Total Working Gas Capacity Working Gas Capacity of Salt Caverns Working...

  16. A high sensitivity fiber optic macro-bend based gas flow rate transducer for low flow rates: Theory, working principle, and static calibration

    SciTech Connect (OSTI)

    Schena, Emiliano; Saccomandi, Paola; Silvestri, Sergio

    2013-02-15

    A novel fiber optic macro-bend based gas flowmeter for low flow rates is presented. Theoretical analysis of the sensor working principle, design, and static calibration were performed. The measuring system consists of: an optical fiber, a light emitting diode (LED), a Quadrant position sensitive Detector (QD), and an analog electronic circuit for signal processing. The fiber tip undergoes a deflection in the flow, acting like a cantilever. The consequent displacement of light spot center is monitored by the QD generating four unbalanced photocurrents which are function of fiber tip position. The analog electronic circuit processes the photocurrents providing voltage signal proportional to light spot position. A circular target was placed on the fiber in order to increase the sensing surface. Sensor, tested in the measurement range up to 10 l min{sup -1}, shows a discrimination threshold of 2 l min{sup -1}, extremely low fluid dynamic resistance (0.17 Pa min l{sup -1}), and high sensitivity, also at low flow rates (i.e., 33 mV min l{sup -1} up to 4 l min{sup -1} and 98 mV min l{sup -1} from 4 l min{sup -1} up to 10 l min{sup -1}). Experimental results agree with the theoretical predictions. The high sensitivity, along with the reduced dimension and negligible pressure drop, makes the proposed transducer suitable for medical applications in neonatal ventilation.

  17. Natural Gas Weekly Update, Printer-Friendly Version

    Annual Energy Outlook

    last Wednesday's level, to 5.097 per MMBtu at yesterday's close of trading. Natural gas stocks as of Friday, March 21 stood at 643 Bcf, which is 47.4 percent less than the...

  18. Natural Gas Summary from the Short-Term Energy Outlook

    Gasoline and Diesel Fuel Update

    than those of 2003, when stocks after the winter of 2002-2003 were at record lows. Short-Term Natural Gas Market Outlook, December 2003 History Projections Sep-03 Oct-03 Nov-03...

  19. Table 2. U.S. Biodiesel production, sales, and stocks

    U.S. Energy Information Administration (EIA) (indexed site)

    U.S. Biodiesel production, sales, and stocks" "million gallons" "Period","B100 production",,"Sales of B100",,"Sales of B100 included in biodiesel blends",,"Ending stocks of ...

  20. Tianjin B M Science Technology Joint Stock Ltd | Open Energy...

    Open Energy Information (Open El) [EERE & EIA]

    Science Technology Joint Stock Ltd Jump to: navigation, search Name: Tianjin B&M Science & Technology Joint Stock, Ltd Place: China Product: China-based maker of cathode material...

  1. DOE Accepts Bids for Northeast Home Heating Oil Stocks | Department...

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Accepts Bids for Northeast Home Heating Oil Stocks DOE Accepts Bids for Northeast Home Heating Oil Stocks February 3, 2011 - 12:00pm Addthis Washington, DC - The U.S. Department of ...

  2. Natural Gas Transmission and Distribution Module

    U.S. Energy Information Administration (EIA) (indexed site)

    July 31, 2012, Washington, DC Major assumption changes for AEO2013 Oil and Gas Working Group Natural Gas Transmission and Distribution Module DRAFT WORKING GROUP PRESENTATION DO ...

  3. Natural Gas Weekly Update

    Annual Energy Outlook

    Btu per cubic foot as published in Table A4 of the Annual Energy Review 2002. Source: Energy Information Administration, Office of Oil and Gas. Storage: Working gas in storage...

  4. Natural Gas Weekly Update

    Gasoline and Diesel Fuel Update

    Btu per cubic foot as published in Table A4 of the Annual Energy Review 2002. Source: Energy Information Administration, Office of Oil and Gas. Storage: Working gas in...

  5. Natural Gas Weekly Update

    Annual Energy Outlook

    Btu per cubic foot as published in Table A2 of the Annual Energy Review 2001. Source: Energy Information Administration, Office of Oil and Gas. Storage: Working gas in storage...

  6. Natural Gas Weekly Update

    Annual Energy Outlook

    gas in storage, as well as decreases in the price of crude oil. Wellhead Prices Annual Energy Review More Price Data Storage Working gas in storage increased to 2,905 Bcf as of...

  7. Natural Gas Weekly Update

    Annual Energy Outlook

    Btu per cubic foot as published in Table A2 of the Annual Energy Review 2001. Source: Energy Information Administration, Office of Oil and Gas. Storage: Working gas in...

  8. Natural Gas Weekly Update

    Annual Energy Outlook

    of natural gas into storage, despite robust inventories. Wellhead Prices Annual Energy Review More Price Data Storage Working gas in storage increased to 3,258 Bcf as of...

  9. Natural Gas Weekly Update

    Gasoline and Diesel Fuel Update

    to withdraw natural gas from storage to meet current demand. Wellhead Prices Annual Energy Review More Price Data Storage Working gas in storage decreased to 2,406 Bcf as of...

  10. Natural Gas Weekly Update

    Gasoline and Diesel Fuel Update

    Btu per cubic foot as published in Table A2 of the Annual Energy Review 2001. Source: Energy Information Administration, Office of Oil and Gas. Storage: Working gas inventories...

  11. Natural Gas Weekly Update

    Gasoline and Diesel Fuel Update

    Working gas in storage was 3,121 Bcf as of Friday, Oct 24, 2003, according to the Energy Information Administration (EIA) Weekly Natural Gas Storage Report. This is 2.7...

  12. Natural Gas Weekly Update

    Annual Energy Outlook

    Table A2 of the Annual Energy Review 2001. Source: Energy Information Administration, Office of Oil and Gas. Storage: Working gas in storage was 2,414 Bcf as of Friday, January 9,...

  13. Natural Gas Weekly Update

    Gasoline and Diesel Fuel Update

    Table A2 of the Annual Energy Review 2001. Source: Energy Information Administration, Office of Oil and Gas. Storage: Working gas in storage was 821 Bcf as of May 2, according to...

  14. Natural Gas Weekly Update

    Gasoline and Diesel Fuel Update

    Table A4 of the Annual Energy Review 2002. Source: Energy Information Administration, Office of Oil and Gas. Storage: Working gas in storage as of September 2 totaled 2,669 Bcf,...

  15. Natural Gas Weekly Update

    Annual Energy Outlook

    withdrawal from working gas storage reported last Thursday. A contributing factor to the run-up in natural gas prices could be climbing crude oil prices, which rallied late last...

  16. Crude oil as refinery feed stock

    SciTech Connect (OSTI)

    Boduszynski, M.M.; Farrell, T.R.

    1995-12-31

    This paper gives a brief overview of the integrated oil refinery. It illustrates that crude oil refining involves {open_quotes}molecular tailoring,{close_quotes} where feed stock molecules are {open_quotes}tailored{close_quotes} through catalytic processing to make products with the most desirable composition. Chemical composition of crude oil as refinery feed stock is discussed. The emphasis is on the understanding of molecular transformations which occur in refinery processes to manufacture light transportation fuels. Diesel fuel manufacturing is used as an example. Recent environmental legislation in the United States has necessitated a significant upgrade in the quality of diesel fuel used for highway transportation. Examples are given to illustrate the impact that petroleum chemistry may have on the industry`s response to government regulations.

  17. Gas hydrates

    SciTech Connect (OSTI)

    Not Available

    1985-04-01

    There is a definite need for the US government to provide leadership for research in gas hydrates and to coordinate its activities with academia, industry, private groups, federal agencies, and their foreign counterparts. In response to this need, the DOE Morgantown Energy Technology Center implemented a gas hydrates R and D program. Understanding the resource will be achieved through: assessment of current technology; characterization of gas hydrate geology and reservoir engineering; and development of diagnostic tools and methods. Research to date has focused on geology. As work progressed, areas where gas hydrates are likely to occur were identified, and specific high potential areas were targeted for future detailed investigation. Initial research activities involved the development of the Geologic Analysis System (GAS); which will provide, through approximately 30 software packages, the capability to manipulate and correlate several types of geologic and petroleum data into maps, graphics, and reports. Preliminary mapping of hydrate prospects for the Alaskan North Slope is underway. Geological research includes physical system characterization which focuses on creating synthetic methane hydrates and developing synthetic hydrate cores using tetrahydrofuran, consolidated rock cores, frost base mixtures, water/ice base mixtures, and water base mixtures. Laboratory work produced measurements of the sonic velocity and electrical resistivity of these synthetic hydrates. During 1983, a sample from a natural hydrate core recovered from the Pacific coast of Guatemala was tested for these properties by METC. More recently, a natural hydrate sample from the Gulf of Mexico was also acquired and testing of this sample is currently underway. In addition to the development of GAS, modeling and systems analysis work focused on the development of conceptual gas hydrate production models. 16 figs., 6 tabs.

  18. Natural Gas Weekly Update

    Annual Energy Outlook

    on December 9, falling from somewhat higher intraweek levels. Wellhead Prices Annual Energy Review More Price Data Storage Working gas in storage dropped 64 Bcf during the...

  19. Natural Gas Weekly Update

    Gasoline and Diesel Fuel Update

    and October 2010 contracts all fell by less than 1 cent. Wellhead Prices Annual Energy Review More Price Data Storage Working natural gas inventories set a new record,...

  20. Breathable gas distribution apparatus

    DOE Patents [OSTI]

    Garcia, E.D.

    The disclosure is directed to an apparatus for safely supplying breathable gas or air through individual respirators to personnel working in a contaminated area.

  1. Reversible Acid Gas Capture

    ScienceCinema (OSTI)

    Dave Heldebrant

    2012-12-31

    Pacific Northwest National Laboratory scientist David Heldebrant demonstrates how a new process called reversible acid gas capture works to pull carbon dioxide out of power plant emissions.

  2. Breathable gas distribution apparatus

    DOE Patents [OSTI]

    Garcia, Elmer D.

    1985-01-01

    The disclosure is directed to an apparatus for safely supplying breathable gas or air through individual respirators to personnel working in a contaminated area.

  3. "US Commercial Crude Oil Stocks and Storage Capacity"

    U.S. Energy Information Administration (EIA) (indexed site)

    Oil Stocks and Storage Capacity" "(thousand barrels except where noted)" ,40633,40816,40999,41182,41364,41547,41729,41912,42094,42248,42431 "Commercial Crude Oil ...

  4. RenewableEnergyStocks com | Open Energy Information

    Open Energy Information (Open El) [EERE & EIA]

    Place: Washington State Sector: Renewable Energy Product: Investor and industry portal for the renewable energy sector. References: RenewableEnergyStocks.com1 This article...

  5. The microbe-mediated mechanisms affecting topsoil carbon stock...

    Office of Scientific and Technical Information (OSTI)

    affecting topsoil carbon stock in Tibetan grasslands Warming has been shown to cause soil carbon (C) loss in northern grasslands owing to accelerated microbial decomposition...

  6. Aspects of Hess' Acquisition of American Oil & Gas

    Reports and Publications

    2010-01-01

    On July 27, 2010, Hess Corporation announced that it had agreed to acquire American Oil & Gas, Inc. in a stock-only transaction worth as much as $488 million (based on Hess' closing price of $53.30/share, anticipated number of newly issued shares, and $30 million credit facility extended to American Oil & Gas prior to closing).

  7. REGULATORY COOPERATION COUNCIL - WORK PLANNING FORMAT: Natural...

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    COUNCIL - WORK PLANNING FORMAT: Natural Gas Use in Transportation PDF icon RCC Workplan NGV.PDF More Documents & Publications REGULATORY COOPERATION COUNCIL - WORK PLANNING ...

  8. Heavy crudes, stocks pose desalting problems

    SciTech Connect (OSTI)

    Bartley, D.

    1982-02-02

    The design of electrostatic desalters for crudes lighter than 30 API is well established and is no longer considered a problem. However, since 1970, the number of desalting applications involving heavy crudes (less than 20 API), syncrudes, and residual fuels has increased markedly. These stocks present unique problems that require additional design considerations. All produced crude oils, including synthetic crude from shale, tar sands, and coal liquefaction, contain impurities that adversely affect production and refining processes, the equipment used in these processes, and the final products. The most common of these impurities are water, salt, solids, metals, and sulfur. The desalting process consists of (1) adding water with a low salt content (preferably fresh) to the feedstock; (2) adequately mixing this added water with the feedstock, which already contains some quantities of salty water, sediment, and/or crystalline salt; and (3) extracting as much water as possible from the feedstock.

  9. EIA - Analysis of Natural Gas Storage

    Annual Energy Outlook

    Prices This presentation provides information about EIA's estimates of working gas peak storage capacity, and the development of the natural gas storage industry....

  10. EIA - Natural Gas Storage Data & Analysis

    Annual Energy Outlook

    Storage Weekly Working Gas in Underground Storage U.S. Natural gas inventories held in underground storage facilities by East, West, and Producing regions (weekly). Underground...

  11. Recirculating rotary gas compressor

    DOE Patents [OSTI]

    Weinbrecht, John F.

    1992-01-01

    A positive displacement, recirculating Roots-type rotary gas compressor which operates on the basis of flow work compression. The compressor includes a pair of large diameter recirculation conduits (24 and 26) which return compressed discharge gas to the compressor housing (14), where it is mixed with low pressure inlet gas, thereby minimizing adiabatic heating of the gas. The compressor includes a pair of involutely lobed impellers (10 and 12) and an associated port configuration which together result in uninterrupted flow of recirculation gas. The large diameter recirculation conduits equalize gas flow velocities within the compressor and minimize gas flow losses. The compressor is particularly suited to applications requiring sustained operation at higher gas compression ratios than have previously been feasible with rotary pumps, and is particularly applicable to refrigeration or other applications requiring condensation of a vapor.

  12. Recirculating rotary gas compressor

    DOE Patents [OSTI]

    Weinbrecht, J.F.

    1992-02-25

    A positive displacement, recirculating Roots-type rotary gas compressor is described which operates on the basis of flow work compression. The compressor includes a pair of large diameter recirculation conduits which return compressed discharge gas to the compressor housing, where it is mixed with low pressure inlet gas, thereby minimizing adiabatic heating of the gas. The compressor includes a pair of involutely lobed impellers and an associated port configuration which together result in uninterrupted flow of recirculation gas. The large diameter recirculation conduits equalize gas flow velocities within the compressor and minimize gas flow losses. The compressor is particularly suited to applications requiring sustained operation at higher gas compression ratios than have previously been feasible with rotary pumps, and is particularly applicable to refrigeration or other applications requiring condensation of a vapor. 12 figs.

  13. Updates on the Interagency Task Force on Natural Gas Storage...

    Energy Savers

    Updates on the Interagency Task Force on Natural Gas Storage Safety - Working with Stakeholders Updates on the Interagency Task Force on Natural Gas Storage Safety - Working with ...

  14. Gas safety roof gauging control hatch adapter

    SciTech Connect (OSTI)

    Overstreet, R.J.

    1980-04-15

    A gas safety control hatch is disclosed which is attached to the top of a crude oil storage or stock tank. The hatch has a lid which can be opened to enable the contents of the stock tank to be gauged. A liquid lock apparatus is provided between the interior of the hatch and the interior of the stock tank. The liquid lock comprises a downwardly extending conduit having one end opened into the hatch and the other end opened in proximity of the bottom of the stock tank so that liquid always covers the lower, marginal end of the conduit whenever any appreciable amount of crude is stored in the stock tank. Accordingly, when the lid of the hatch is opened, no obnoxious fumes from the vapor space within the tank can flow into the hatch; and accordingly, the tank can be safely gauged by running a sampling apparatus down through the conduit and into communication with the liquid phase of the tank contents.

  15. iStock_000018654807XSmall.jpg | OSTI, US Dept of Energy Office of

    Office of Scientific and Technical Information (OSTI)

    Scientific and Technical Information iStock_000018654807XSmall

  16. Revised Propane Stock Levels for 6/7/13

    Gasoline and Diesel Fuel Update

    Revised Propane Stock Levels for 6713 Release Date: June 19, 2013 Following the release of the Weekly Petroleum Status Report (WPSR) for the week ended June 7, 2013, EIA...

  17. Work Plan

    U.S. Department of Energy (DOE) all webpages (Extended Search)

    Work Plan NSSAB Members Vote on Work Plan Tasks; The Nevada Site Specific Advisory Board operates on a fiscal year basis and conducts work according to a NSSAB generated and U.S. ...

  18. Philadelphia Gas Works- Home Rebates Program

    Energy.gov [DOE]

    PGW’s Home Rebate program is available for residential customers within the PGW service territory. To participate in the program, the homeowner must first obtain a discounted home energy audit from...

  19. Working Gas Capacity of Depleted Fields

    Annual Energy Outlook

    296,096 311,096 335,396 349,296 364,296 364,296 2008-2014 Colorado 48,129 49,119 48,709 60,582 60,582 63,774 2008-2014 Illinois 51,418 87,368 87,368 87,368 11,768 11,768...

  20. Working Natural Gas in Underground Storage (Summary)

    U.S. Energy Information Administration (EIA) (indexed site)

    Alabama 23,276 24,493 24,742 19,955 20,669 20,992 1995-2016 Alaska 24,595 24,461 24,319 24,295 24,790 25,241 2013-2016 Arkansas 2,222 2,132 1,808 1,374 1,057 619 1990-2016 ...

  1. Weekly Working Gas in Underground Storage

    Gasoline and Diesel Fuel Update

    Storage-test (Billion Cubic Feet) Period: Weekly Download Series History Download Series History Definitions, Sources & Notes Definitions, Sources & Notes Region 031816 032516 ...

  2. Working Gas Capacity of Salt Caverns

    Gasoline and Diesel Fuel Update

    271,785 312,003 351,017 488,268 455,729 488,698 2008-2014 Alabama 11,900 16,150 16,150 16,150 16,150 21,950 2008-2014 Arkansas 0 0 2012-2014 California 0 0 2012-2014 Colorado 0 0...

  3. Weekly Working Gas in Underground Storage

    Gasoline and Diesel Fuel Update

    7/16 10/14/16 10/21/16 10/28/16 11/04/16 11/11/16 View History Total Lower 48 States 3,759 3,836 3,909 3,963 4,017 4,047 2010-2016 East 913 925 939 940 946 944 2010-2016 Midwest 1,071 1,093 1,115 1,130 1,148 1,155 2010-2016 Mountain 240 243 245 249 253 257 2010-2016 Pacific 323 325 326 326 327 328 2010-2016 South Central 1,212 1,250 1,284 1,318 1,343 1,363 2010-2016 Salt 305 330 352 374 385 394 2010-2016 Nonsalt 907 920 931 944 958 969 2010-2016 - = No Data Reported; -- = Not Applicable; NA =

  4. Underground Natural Gas Working Storage Capacity - Methodology

    Gasoline and Diesel Fuel Update

    Jan Stuart +1-212-713-1074 jan.stuart@ubs.com Outline: EIA oil data on Wall Street, the UBS case ¨ Part A - Why we care - What we use the data for - Fundamentals more than anything else push oil prices around - What's even scarcer than oil is good timely data ¨ Part B - Quibbles - Year-over-year comparisons, growth rates or levels - "Revisions" - Filling-in-the-blanks ¨ Part C - I wish - Weekly crude oil imports by source - Inclusion of other federal stats driving oil demand 2 Jan

  5. Working Gas in Underground Storage Figure

    Gasoline and Diesel Fuel Update

    68.6 47.3 29.6 20.4 13.5 6.2 1973-2016 Alaska 3.5 10.2 18.0 23.6 30.8 38.3 2013-2016 Lower 48 States 69.7 47.8 29.7 20.3 13.4 6.0 2011-2016 Alabama 163.9 67.0 26.8 15.0 -4.6 -10.7 1996-2016 Arkansas -40.3 -34.0 -28.2 -25.9 -12.7 -4.4 1991-2016 California -3.3 -2.8 -7.1 -7.7 -10.5 -11.3 1991-2016 Colorado 10.8 14.3 13.5 7.7 7.2 4.4 1991-2016 Illinois 15.1 8.8 2.0 3.4 -0.3 -0.7 1991-2016 Indiana 56.6 45.0 34.1 23.1 14.8 4.5 1991-2016 Iowa 10.2 2.7 -9.5 -20.0 -20.3 -13.7 1991-2016 Kansas 52.9 59.7

  6. Working Gas % Change from Year Ago

    U.S. Energy Information Administration (EIA) (indexed site)

    Washington -0.6 -10.8 -20.6 -8.7 -21.2 -20.7 1991-2016 West Virginia 2.7 10.1 16.0 21.3 45.6 87.6 1991-2016 Wyoming 0.6 4.3 3.1 -0.8 -0.8 5.1 1991-2016 AGA Producing Region ...

  7. Working Gas Volume Change from Year Ago

    U.S. Energy Information Administration (EIA) (indexed site)

    West Virginia 5,456 18,992 25,179 21,224 26,766 34,404 1990-2016 Wyoming 173 1,291 872 -218 -200 1,161 1990-2016 AGA Producing Region 1994-2014 AGA Eastern Consuming Region ...

  8. Natural Gas Weekly Update

    Gasoline and Diesel Fuel Update

    a decrease of about 0.36, or 6.9 percent, since last Wednesday. Wellhead Prices Annual Energy Review More Price Data Storage Working natural gas in storage totaled 2,213 Bcf as...

  9. Natural Gas Weekly Update

    Gasoline and Diesel Fuel Update

    by 0.409 or 8 percent per MMBtu to 4.850 since last Wednesday. Wellhead Prices Annual Energy Review More Price Data Storage Working gas in storage increased to 2,796 Bcf as of...

  10. Natural Gas Weekly Update

    Annual Energy Outlook

    supply disruptions during the remainder of the hurricane season. Wellhead Prices Annual Energy Review More Price Data Storage Working gas in storage was 2,461 Bcf as of Friday,...

  11. Natural Gas Weekly Update

    Gasoline and Diesel Fuel Update

    (August 5) and the low price of 2.804 (August 21) per MMBtu. Wellhead Prices Annual Energy Review More Price Data Storage Working gas in storage increased to 3,323 Bcf as of...

  12. Natural Gas Weekly Update

    Gasoline and Diesel Fuel Update

    2009 contract, which closed at 12.987 per MMBtu on May 28. Wellhead Prices Annual Energy Review More Price Data Storage Working gas in storage increased to 1,701 Bcf as of...

  13. Natural Gas Weekly Update

    Annual Energy Outlook

    7.02 per MMBtu, an increase of about 0.24 since last Wednesday. Wellhead Prices Annual Energy Review More Price Data Storage Working gas in storage totaled 3,488 Bcf as of...

  14. Natural Gas Weekly Update

    Gasoline and Diesel Fuel Update

    5.06 per MMBtu, a decrease of only 0.01 per MMBtu on the week. Wellhead Prices Annual Energy Review More Price Data Storage Working natural gas in storage increased to 2,762...

  15. Natural Gas Weekly Update

    Annual Energy Outlook

    a decrease of about 0.09, or 1.7 percent, since last Wednesday. Wellhead Prices Annual Energy Review More Price Data Storage Working gas in storage decreased to 1,737 Bcf as of...

  16. Natural Gas Weekly Update

    Annual Energy Outlook

    decreasing about 0.23, or 4.4 percent, since last Wednesday. Wellhead Prices Annual Energy Review More Price Data Storage Working natural gas in storage increased to 2,840...

  17. Natural Gas Weekly Update

    Annual Energy Outlook

    MMBtu lower than the final price of the November 2009 contract. Wellhead Prices Annual Energy Review More Price Data Storage As of Friday, September 24, working natural gas in...

  18. Natural Gas Weekly Update

    Annual Energy Outlook

    fell 31 cents, from 5.554 last Wednesday to 5.239 yesterday. Wellhead Prices Annual Energy Review More Price Data Storage Working natural gas in storage increased to 2,165...

  19. Natural Gas Weekly Update

    Gasoline and Diesel Fuel Update

    expectations of robust storage inventories in the coming months. Wellhead Prices Annual Energy Review More Price Data Storage Working gas in storage increased to 2,886 Bcf as of...

  20. Natural Gas Weekly Update

    Annual Energy Outlook

    38 cents per MMBtu, or about 7 percent, during the report week. Wellhead Prices Annual Energy Review More Price Data Storage Working gas in storage decreased to 1,996 Bcf as of...

  1. Natural Gas Weekly Update

    Annual Energy Outlook

    January 2009 contract, which closed at 12.74 per MMBtu on May 14. Wellhead Prices Annual Energy Review More Price Data Storage Working gas in storage increased to 1,529 Bcf as of...

  2. Natural Gas Weekly Update

    Annual Energy Outlook

    2009 to September 2009 posting declines of more than 30 cents. Wellhead Prices Annual Energy Review More Price Data Storage Working gas in storage increased to 2,116 Bcf as of...

  3. Natural Gas Weekly Update

    Gasoline and Diesel Fuel Update

    a decrease of about 0.25, or 5.1 percent, since last Wednesday. Wellhead Prices Annual Energy Review More Price Data Storage Working gas in storage totaled 1,823 Bcf as of...

  4. Natural Gas Weekly Update

    Gasoline and Diesel Fuel Update

    since last week, ending trading yesterday at 5.084 per MMBtu. Wellhead Prices Annual Energy Review More Price Data Storage Working gas in storage totaled 2,089 Bcf as of...

  5. Natural Gas Weekly Update

    Gasoline and Diesel Fuel Update

    was 62 percent below the level reported last year at this time. Wellhead Prices Annual Energy Review More Price Data Storage Working gas in storage increased to 2,013 Bcf as of...

  6. Natural Gas Weekly Update

    Annual Energy Outlook

    at 7.39 per MMBtu, which is 76 cents lower than last week. Wellhead Prices Annual Energy Review More Price Data Storage Working gas in storage increased to 3,198 Bcf as of...

  7. Natural Gas Weekly Update

    Annual Energy Outlook

    9.08 per MMBtu, an increase of about 0.32 since last Wednesday. Wellhead Prices Annual Energy Review More Price Data Storage Working gas in storage increased to 2,757 Bcf as of...

  8. Natural Gas Weekly Update

    Annual Energy Outlook

    per MMBtu, 22 cents or 4.3 percent lower than last Wednesday. Wellhead Prices Annual Energy Review More Price Data Storage Working gas in storage decreased to 1,615 Bcf as of...

  9. Natural Gas Weekly Update

    Gasoline and Diesel Fuel Update

    2009 contract, which closed at 13.84 per MMBtu on June 25. Wellhead Prices Annual Energy Review More Price Data Storage Working gas in storage increased to 2,033 Bcf as of...

  10. Natural Gas Weekly Update

    U.S. Department of Energy (DOE) all webpages (Extended Search)

    response was somewhat more pronounced (down 5.3 percent) with the September 2011 natural gas contract losing ground over the week, closing at 4.090 per MMBtu on Wednesday. Working...

  11. Natural Gas Weekly Update

    Annual Energy Outlook

    since last Wednesday in every region of the country except in the West. Working gas in storage was 623 Bcf as of April 11, which was 49 percent below the previous 5-year...

  12. Natural Gas Weekly Update

    Gasoline and Diesel Fuel Update

    a large estimate of net injections of working gas into storage put downward pressure on spot and futures prices. Some parts of New England saw high temperatures only in the 70s for...

  13. Natural Gas Weekly Update

    Annual Energy Outlook

    9.34 per MMBtu, a decrease of about 0.32 since last Wednesday. Wellhead Prices Annual Energy Review More Price Data Storage Working gas in storage increased to 2,517 Bcf as of...

  14. Midwest Region Natural Gas in Underground Storage (Working Gas...

    U.S. Energy Information Administration (EIA) (indexed site)

    Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 2014 449,673 237,999 142,513 179,338 317,901 471,765 625,764 788,930 935,822 1,047,609 972,803 854,545 2015 617,716 345,091 ...

  15. West Virginia Natural Gas in Underground Storage (Working Gas...

    U.S. Energy Information Administration (EIA) (indexed site)

    72,781 96,991 120,021 128,965 146,728 161,226 138,140 98,925 1996 58,862 28,134 5,245 ... 41,617 73,760 112,584 144,708 167,434 191,226 201,322 193,811 151,497 2004 93,076 59,499 ...

  16. Utah Natural Gas in Underground Storage (Working Gas) (Million...

    U.S. Energy Information Administration (EIA) (indexed site)

    19,120 11,915 6,118 7,419 9,193 10,977 15,226 20,591 26,089 27,689 23,281 16,335 1992 ... 20,126 22,061 29,069 34,478 40,280 42,226 45,097 47,826 46,870 38,220 2011 25,127 ...

  17. Value-Added Stock Loan Participation Program

    Energy.gov [DOE]

    Like Minnesota's Agricultural Improvement Loan Program, this is a "participation loan" program, where loans are made by individual financial institutions working with the Rural Finance Authority ...

  18. How Carbon Capture Works | Department of Energy

    Energy.gov (indexed) [DOE]

    How Carbon Capture Works Nearly 70 percent of America's electricity is generated from fossil fuels like coal, oil and natural gas. And fossil fuels also account for almost...

  19. Working Copy

    U.S. Department of Energy (DOE) all webpages (Extended Search)

    At DOE Working At DOE Working At DOE Only Here...Will you Define the Future of Energy The people of DOE are engaged in a wide range of challenging and innovative work - from participating in groundbreaking international initiatives like the Global Nuclear Partnership, to solar power demonstration projects, to projects that convert captured carbon dioxide (CO2) emissions from industrial sources into fuel, plastics, and fertilizers. Only here can the diversity of activities throughout our

  20. Working Copy

    U.S. Department of Energy (DOE) all webpages (Extended Search)

    ... manual containing the DOE legal and regulatory requirements for work in radiological ... exposure. Standards, operating guides, and procedures (including revisions and ...

  1. Table 38. Coal Stocks at Coke Plants by Census Division

    Gasoline and Diesel Fuel Update

    Coal Stocks at Coke Plants by Census Division (thousand short tons) U.S. Energy Information Administration | Quarterly Coal Report, April - June 2014 Table 38. Coal Stocks at Coke Plants by Census Division (thousand short tons) U.S. Energy Information Administration | Quarterly Coal Report, April - June 2014 Census Division June 30, 2014 March 31, 2014 June 30, 2013 Percent Change (June 30) 2014 versus 2013 Middle Atlantic 547 544 857 -36.2 East North Central 1,130 963 1,313 -13.9 South

  2. Gas venting

    DOE Patents [OSTI]

    Johnson, Edwin F.

    1976-01-01

    Improved gas venting from radioactive-material containers which utilizes the passageways between interbonded impervious laminae.

  3. Wuhan Linuo Solar Energy Group Stock Co Ltd | Open Energy Information

    Open Energy Information (Open El) [EERE & EIA]

    Linuo Solar Energy Group Stock Co Ltd Jump to: navigation, search Name: Wuhan Linuo Solar Energy Group Stock Co Ltd Place: Wuhan, Hubei Province, China Zip: 430015 Sector: Solar...

  4. Retiree Heads Back to Work, Helps Families Stay Afloat

    Energy.gov [DOE]

    Mark Morris of South Bend, Ind., is among many in the country who were already retired, but whose 401(k) account took a big hit when the stock market crashed. Mark had retired as a utility-company supervisor in mid-2007, but he lost 40 percent of his retirement money and knew he had to go back to work.

  5. Gas pump with movable gas pumping panels

    DOE Patents [OSTI]

    Osher, J.L.

    Apparatus for pumping gas continuously a plurality of articulated panels of getter material, each of which absorbs gases on one side while another of its sides is simultaneously reactivated in a zone isolated by the panels themselves from a working space being pumped.

  6. Gas pump with movable gas pumping panels

    DOE Patents [OSTI]

    Osher, John E.

    1984-01-01

    Apparatus for pumping gas continuously a plurality of articulated panels of getter material, each of which absorbs gases on one side while another of its sides is simultaneously reactivated in a zone isolated by the panels themselves from a working space being pumped.

  7. Water-saving liquid-gas conditioning system

    DOE Patents [OSTI]

    Martin, Christopher; Zhuang, Ye

    2014-01-14

    A method for treating a process gas with a liquid comprises contacting a process gas with a hygroscopic working fluid in order to remove a constituent from the process gas. A system for treating a process gas with a liquid comprises a hygroscopic working fluid comprising a component adapted to absorb or react with a constituent of a process gas, and a liquid-gas contactor for contacting the working fluid and the process gas, wherein the constituent is removed from the process gas within the liquid-gas contactor.

  8. Oil and gas journal databook, 1987 edition

    SciTech Connect (OSTI)

    Not Available

    1987-01-01

    This book is an annual compendium of surveys and special reports reviewed by experts. The 1987 edition opens with a forward by Gene Kinney, co-publisher of the Oil and Gas Journal and includes the OGJ 400 Report, Crude Oil Assays, Worldwide Petrochemical Survey, the Midyear Forecast and Reviews, the Worldwide Gas Processing Report, the Ethylene Report, Sulfur Survey, the International Refining, Catalyst Compilation, Annual Refining Survey, Worldwide Construction Report, Pipeline Economics Report, Worldwide Production and Refining Report, the Morgan Pipeline Cost Index for Oil and Gas, the Nelson Cost Index, the Hughes Rig Count, the Smith Rig Count, the OGJ Production Report, the API Refinery Report, API Crude and Product Stocks, APU Imports of Crude and Products, and the complete Oil and Gas Journal 1986 Index of articles.

  9. CFCC working group meeting: Proceedings

    SciTech Connect (OSTI)

    1997-12-31

    This report is a compilation of the vugraphs presented at this meeting. Presentations covered are: CFCC Working Group; Overview of study on applications for advanced ceramics in industries for the future; Design codes and data bases: The CFCC program and its involvement in ASTM, ISO, ASME, and military handbook 17 activities; CFCC Working Group meeting (McDermott Technology); CFCC Working Group meeting (Textron); CFCC program for DMO materials; Developments in PIP-derived CFCCs; Toughened Silcomp (SiC-Si) composites for gas turbine engine applications; CFCC program for CVI materials; Self-lubricating CFCCs for diesel engine applications; Overview of the CFCC program`s supporting technologies task; Life prediction methodologies for CFCC components; Environmental testing of CFCCs in combustion gas environments; High-temperature particle filtration ORNL/DCC CRADA; HSCT CMC combustor; and Case study -- CFCC shroud for industrial gas turbines.

  10. Gas separating

    DOE Patents [OSTI]

    Gollan, Arye

    1988-01-01

    Feed gas is directed tangentially along the non-skin surface of gas separation membrane modules comprising a cylindrical bundle of parallel contiguous hollow fibers supported to allow feed gas to flow from an inlet at one end of a cylindrical housing through the bores of the bundled fibers to an outlet at the other end while a component of the feed gas permeates through the fibers, each having the skin side on the outside, through a permeate outlet in the cylindrical casing.

  11. Gas separating

    DOE Patents [OSTI]

    Gollan, Arye Z. [Newton, MA

    1990-12-25

    Feed gas is directed tangentially along the non-skin surface of gas separation membrane modules comprising a cylindrical bundle of parallel contiguous hollow fibers supported to allow feed gas to flow from an inlet at one end of a cylindrical housing through the bores of the bundled fibers to an outlet at the other end while a component of the feed gas permeates through the fibers, each having the skin side on the outside, through a permeate outlet in the cylindrical casing.

  12. Fundamentals of gas measurement II

    SciTech Connect (OSTI)

    Smith, J.P.

    1995-12-01

    A knowledge of the Fundamentals of Gas Measurement is essential for all technicians and engineers that are called upon to perform gas volume calculations. These same people must have at least a working knowledge of the fundamentals to perform their everyday jobs including equipment calibrations, specific gravity tests, collecting gas samples, etc. To understand the fundamentals, one must be familiar with the definitions of the terms that are used in day-to- day gas measurement operations. They also must know how to convert some values from one quantity as measured to another quantity that is called for in the gas purchase or sales contracts or transportation agreements.

  13. Alternative Fuels Data Center: Los Angeles Public Works Fleet Converts to

    Alternative Fuels and Advanced Vehicles Data Center

    Natural Gas Los Angeles Public Works Fleet Converts to Natural Gas to someone by E-mail Share Alternative Fuels Data Center: Los Angeles Public Works Fleet Converts to Natural Gas on Facebook Tweet about Alternative Fuels Data Center: Los Angeles Public Works Fleet Converts to Natural Gas on Twitter Bookmark Alternative Fuels Data Center: Los Angeles Public Works Fleet Converts to Natural Gas on Google Bookmark Alternative Fuels Data Center: Los Angeles Public Works Fleet Converts to Natural

  14. Tennessee Underground Natural Gas Storage - All Operators

    Annual Energy Outlook

    340 340 340 340 340 340 1997-2015 Base Gas 340 340 340 340 340 340 1997-2015 Working Gas 1997-2011 Net Withdrawals 1998-2006 Injections 1997-2005 Withdrawals 1997-2006 Change in...

  15. Gas Swimming Pool Heaters | Department of Energy

    Energy.gov (indexed) [DOE]

    and pool use, they may not be the most energy-efficient option when compared to heat pump and solar pool heaters. How They Work Gas pool heaters use either natural gas or...

  16. Virginia Natural Gas Number of Gas and Gas Condensate Wells ...

    U.S. Energy Information Administration (EIA) (indexed site)

    Gas and Gas Condensate Wells (Number of Elements) Virginia Natural Gas Number of Gas and Gas Condensate Wells (Number of Elements) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 ...

  17. Nigeria: after crude, the gas

    SciTech Connect (OSTI)

    Not Available

    1980-11-01

    Misinterpretation of the laws of the marketplace have already brought Nigeria to the brink of a catastrophe in 1978, when the government had built up heavy stocks expecting a substantial increase in price. When it did not materialize and the production had to be dropped to 50% of the previous rate, in a country where crude constitutes 90% of the export revenues, the system was changed. The new plan is intended to reduce the dependence of Nigeria on oil exports. The production rate is set at between 2.2 and 2.5 million bpd. Due to a significant increase in domestic demand, the 2 existing refineries cannot fill the gap; 2 more refineries are planned. There also are substantial gas reserves; the associated gas, now flared, is to be recovered. A gas liquefaction plant also is in operation, with one-half of the output going to Europe and one-half to the US. Some of the oil and gas is earmarked for local petrochemical plants.

  18. Nebraska Natural Gas Gross Withdrawals and Production

    Gasoline and Diesel Fuel Update

    www.eia.gov Joe Benneche July 31, 2012, Washington, DC Major assumption changes for AEO2013 Oil and Gas Working Group Natural Gas Transmission and Distribution Module DRAFT WORKING GROUP PRESENTATION DO NOT QUOTE OR CITE Overview 2 Joe Benneche, Washington, DC, July 31, 2012 * Replace regional natural gas wellhead price projections with regional spot price projections * Pricing of natural gas vehicles fuels (CNG and LNG) * Methodology for modeling exports of LNG * Assumptions on charges related

  19. Method and apparatus for forming flues on tubular stock

    DOE Patents [OSTI]

    Beck, D.E.; Carson, C.

    1979-12-21

    The present invention is directed to a die mechanism utilized for forming flues on long, relatively narrow tubular stock. These flues are formed by displacing a die from within the tubular stock through perforations previously drilled through the tubular stock at selected locations. The drawing of the die upsets the material to form the flue of the desired configuration. The die is provided with a lubricating system which enables the lubricant to be dispensed uniformly about the entire periphery of the die in contact with the material being upset so as to assure the formation of the flues. Further, the lubricant is dispensed from within the die onto the peripheral surface of the latter at pressures in the range of about 2000 to 10,000 psi so as to assure the adequate lubrication of the die during the drawing operation. By injecting the lubricant at such high pressures, low viscosity liquid, such as water and/or alcohol, may be efficiently used as a lubricant and also provides a mechanism by which the lubricant may be evaporated from the surface of the flues at ambient conditions so as to negate the cleansing operations previously required prior to joining the flues to other conduit mechanisms by fusion welding and the like.

  20. Natural gas monthly, August 1996

    SciTech Connect (OSTI)

    1996-08-01

    This analysis presents the most recent data on natural gas prices, supply, and consumption from the Energy Information Administration (EIA). The presentation of the latest monthly data is followed by an update on natural gas markets. The markets section examines the behavior of daily spot and futures prices based on information from trade press, as well as regional, weekly data on natural gas storage from the American Gas Association (AGA). This {open_quotes}Highlights{close_quotes} closes with a special section comparing and contrasting EIA and AGA storage data on a monthly and regional basis. The regions used are those defined by the AGA for their weekly data collection effort: the Producing Region, the Consuming Region East, and the Consuming Region West. While data on working gas levels have tracked fairly closely between the two data sources, differences have developed recently. The largest difference is in estimates of working gas levels in the East consuming region during the heating season.

  1. Method of Liquifying a gas

    DOE Patents [OSTI]

    Zollinger, William T.; Bingham, Dennis N.; McKellar, Michael G.; Wilding, Bruce M.; Klingler, Kerry M.

    2006-02-14

    A method of liquefying a gas is disclosed and which includes the steps of pressurizing a liquid; mixing a reactant composition with the pressurized liquid to generate a high pressure gas; supplying the high pressure gas to an expansion engine which produces a gas having a reduced pressure and temperature, and which further generates a power and/or work output; coupling the expansion engine in fluid flowing relation relative to a refrigeration assembly, and wherein the gas having the reduced temperature is provided to the refrigeration assembly; and energizing and/or actuating the refrigeration assembly, at least in part, by supplying the power and/or work output generated by the expansion engine to the refrigeration assembly, the refrigeration assembly further reducing the temperature of the gas to liquefy same.

  2. Gas turbine engine

    DOE Patents [OSTI]

    Lawlor, Shawn P.; Roberts, II, William Byron

    2016-03-08

    A gas turbine engine with a compressor rotor having compressor impulse blades that delivers gas at supersonic conditions to a stator. The stator includes a one or more aerodynamic ducts that each have a converging portion and a diverging portion for deceleration of the selected gas to subsonic conditions and to deliver a high pressure oxidant containing gas to flameholders. The flameholders may be provided as trapped vortex combustors, for combustion of a fuel to produce hot pressurized combustion gases. The hot pressurized combustion gases are choked before passing out of an aerodynamic duct to a turbine. Work is recovered in a turbine by expanding the combustion gases through impulse blades. By balancing the axial loading on compressor impulse blades and turbine impulse blades, asymmetrical thrust is minimized or avoided.

  3. Gas separating

    DOE Patents [OSTI]

    Gollan, A.Z.

    1990-12-25

    Feed gas is directed tangentially along the non-skin surface of gas separation membrane modules comprising a cylindrical bundle of parallel contiguous hollow fibers supported to allow feed gas to flow from an inlet at one end of a cylindrical housing through the bores of the bundled fibers to an outlet at the other end while a component of the feed gas permeates through the fibers, each having the skin side on the outside, through a permeate outlet in the cylindrical casing. 3 figs.

  4. Natural Gas

    U.S. Department of Energy (DOE) all webpages (Extended Search)

    Energy Conversion Efficiency Solar Energy Wind Energy Water Power Supercritical CO2 Geothermal Natural Gas Safety, Security & Resilience of the Energy Infrastructure Energy Storage ...

  5. Gas magnetometer

    DOE Patents [OSTI]

    Walker, Thad Gilbert; Lancor, Brian Robert; Wyllie, Robert

    2016-05-03

    Measurement of a precessional rate of a gas, such as an alkali gas, in a magnetic field is made by promoting a non-uniform precession of the gas in which substantially no net magnetic field affects the gas during a majority of the precession cycle. This allows sensitive gases that would be subject to spin-exchange collision de-phasing to be effectively used for extremely sensitive measurements in the presence of an environmental magnetic field such as the Earth's magnetic field.

  6. Gas separating

    DOE Patents [OSTI]

    Gollan, A.

    1988-03-29

    Feed gas is directed tangentially along the non-skin surface of gas separation membrane modules comprising a cylindrical bundle of parallel contiguous hollow fibers supported to allow feed gas to flow from an inlet at one end of a cylindrical housing through the bores of the bundled fibers to an outlet at the other end while a component of the feed gas permeates through the fibers, each having the skin side on the outside, through a permeate outlet in the cylindrical casing. 3 figs.

  7. Stocking of Offsite Waters for Hungry Horse Dam Mitigation Creston National Fish Hatchery, FY 2006 Annual Report.

    SciTech Connect (OSTI)

    Hooley, Sharon

    2009-03-20

    A total of 350,000, M012 strain, westslope cutthroat trout (WCT) eggs were received from Montana Fish Wildlife & Parks (MFWP), Washoe Park State Fish Hatchery in June of 2005 to accomplish this fishery management objective. These eggs were incubated, hatched and reared entirely inside the hatchery nursery building using a protected well water supply. Fish grew according to schedule and survival was excellent. The hatchery achieved a 0.78 feed fed to pounds gained conversion ratio for this group of WCT. Not all of the progenies from this fish lot were used for Hungry Horse Dam Fishery Mitigation Implementation. Some were used for other regional fishery management projects. Westslope cutthroat trout were reared using approved fish culture techniques as recommended in the USFWS Fish Hatchery Management Handbook and also utilizing a regimen adapted for hatchery specific site conditions. The fish health for these WCT was very good. Survival from first feeding fry stage to stocking was 79%. The hatchery had an annual fish health inspection performed by the USFWS Bozeman Fish Health Center in mid March of 2006. This inspection found all fish lots at Creston to be disease free. The Montana State Fish Health Board has placed the hatchery under a limited quarantine since May of 2005 due to an epizootic of Furunculosis. This classification has allowed the Creston NFH to stock disease free fish in locations approved by regional fish managers. The hatchery has been working with the State Fish Pathologist to remove the limited quarantine classification from the facility. Although fish health for all station fish lots remains disease free, MFWP has asserted it will not remove the limited quarantine until the new influent water treatment system, including the ultraviolet disinfection unit, is running full time, year round. The USFWS is working to secure the additional funding necessary to operate the treatment building year round. Distribution of the WCT took place from March

  8. Gas-phase chemical dynamics

    SciTech Connect (OSTI)

    Weston, R.E. Jr.; Sears, T.J.; Preses, J.M.

    1993-12-01

    Research in this program is directed towards the spectroscopy of small free radicals and reactive molecules and the state-to-state dynamics of gas phase collision, energy transfer, and photodissociation phenomena. Work on several systems is summarized here.

  9. Alternative Fuels Data Center: How Do Liquefied Natural Gas Trucks...

    Alternative Fuels and Advanced Vehicles Data Center

    Liquefied Natural Gas Trucks Work? to someone by E-mail Share Alternative Fuels Data Center: How Do Liquefied Natural Gas Trucks Work? on Facebook Tweet about Alternative Fuels ...

  10. U.S. Refinery, Bulk Terminal, and Natural Gas Plant Stocks of...

    Annual Energy Outlook

    Area: U.S. PAD District 1 Connecticut Delaware District of Columbia Florida Georgia Maine Maryland Massachusetts New Hampshire New Jersey New York North Carolina Pennsylvania Rhode ...

  11. ,"Finished Motor Gasoline Refinery, Bulk Terminal, and Natural Gas Plant Stocks"

    U.S. Energy Information Administration (EIA) (indexed site)

    Annual",2015,"6/30/1993" ,"Release Date:","10/31/2016" ,"Next Release Date:","9/29/2017" ,"Excel File Name:","pet_stoc_st_a_epm0f_str_mbbl_a.xls" ,"Available from Web Page:","http://www.eia.gov/dnav/pet/pet_stoc_st_a_epm0f_str_mbbl_a.htm" ,"Source:","Energy Information Administration" ,"For Help, Contact:","infoctr@eia.gov" ,,"(202)

  12. ,"Finished Motor Gasoline Refinery, Bulk Terminal, and Natural Gas Plant Stocks"

    U.S. Energy Information Administration (EIA) (indexed site)

    Monthly","8/2016","1/15/1993" ,"Release Date:","10/31/2016" ,"Next Release Date:","11/30/2016" ,"Excel File Name:","pet_stoc_st_a_epm0f_str_mbbl_m.xls" ,"Available from Web Page:","http://www.eia.gov/dnav/pet/pet_stoc_st_a_epm0f_str_mbbl_m.htm" ,"Source:","Energy Information Administration" ,"For Help, Contact:","infoctr@eia.gov" ,,"(202)

  13. Distillate Fuel Oil Refinery, Bulk Terminal, and Natural Gas Plant Stocks

    Gasoline and Diesel Fuel Update

    Product: Finished Motor Gasoline Reformulated Gasoline Conventional Gasoline Motor Gasoline Blending Comp. (MGBC) MGBC - Reformulated MGBC - Conventional Kerosene Distillate Fuel Oil Distillate F.O., 15 ppm and under Distillate F.O., Greater than 15 to 500 ppm Distillate F.O., Greater 500 ppm Residual Fuel Oil Propane/Propylene Period-Units: Monthly-Thousand Barrels Annual-Thousand Barrels Download Series History Download Series History Definitions, Sources & Notes Definitions, Sources &

  14. ,"U.S. Refinery, Bulk Terminal, and Natural Gas Plant Stocks...

    U.S. Energy Information Administration (EIA) (indexed site)

    ... 37271,118323,35153,83170,,,,4862,103932,,56214,47718,41242,41061 37302,113911,34459,79452,,,,4385,97433,,54465,42968,38817,31781 37330,107954,33441,74513,,,,3995,91...

  15. Total Natural Gas Underground Storage Capacity

    U.S. Energy Information Administration (EIA) (indexed site)

    Total Working Gas Capacity Total Number of Existing Fields Period: Monthly Annual Download Series History Download Series History Definitions, Sources & Notes Definitions, Sources ...

  16. AEO2012 Preliminary Assumptions: Oil and Gas Supply

    U.S. Energy Information Administration (EIA) (indexed site)

    3 Oil and Gas Supply Working Group Meeting Office of Petroleum, Gas, and Biofuels Analysis July 31, 2012 | Washington, DC WORKING GROUP PRESENTATION FOR DISCUSSION PURPOSES DO NOT QUOTE OR CITE AS RESULTS ARE SUBJECT TO CHANGE Assumptions and Expectations for Annual Energy Outlook 2013: Oil and Gas Working Group Overview 2 Office of Petroleum, Gas, and Biofuels Analysis Working Group Presentation for Discussion Purposes Washington, DC, July 31, 2012 DO NOT QUOTE OR CITE as results are subject to

  17. North American Natural Gas Markets

    SciTech Connect (OSTI)

    Not Available

    1989-02-01

    This report summarizes die research by an Energy Modeling Forum working group on the evolution of the North American natural gas markets between now and 2010. The group's findings are based partly on the results of a set of economic models of the natural gas industry that were run for four scenarios representing significantly different conditions: two oil price scenarios (upper and lower), a smaller total US resource base (low US resource case), and increased potential gas demand for electric generation (high US demand case). Several issues, such as the direction of regulatory policy and the size of the gas resource base, were analyzed separately without the use of models.

  18. North American Natural Gas Markets

    SciTech Connect (OSTI)

    Not Available

    1988-12-01

    This report sunnnarizes the research by an Energy Modeling Forum working group on the evolution of the North American natural gas markets between now and 2010. The group's findings are based partly on the results of a set of economic models of the natural gas industry that were run for four scenarios representing significantly different conditions: two oil price scenarios (upper and lower), a smaller total US resource base (low US resource case), and increased potential gas demand for electric generation (high US demand case). Several issues, such as the direction of regulatory policy and the size of the gas resource base, were analyzed separately without the use of models.

  19. How Fuel Cells Work | Department of Energy

    Energy.gov (indexed) [DOE]

    0 likes How Fuel Cells Work Fuel cells produce electrical power without any combustion and operate on fuels like hydrogen, natural gas and propane. This clean energy technology can ...

  20. Power control system for a hot gas engine

    DOE Patents [OSTI]

    Berntell, John O.

    1986-01-01

    A power control system for a hot gas engine of the type in which the power output is controlled by varying the mean pressure of the working gas charge in the engine has according to the present invention been provided with two working gas reservoirs at substantially different pressure levels. At working gas pressures below the lower of said levels the high pressure gas reservoir is cut out from the control system, and at higher pressures the low pressure gas reservoir is cut out from the system, thereby enabling a single one-stage compressor to handle gas within a wide pressure range at a low compression ratio.

  1. The Gas Flow from the Gas Attenuator to the Beam Line

    SciTech Connect (OSTI)

    Ryutov, D.D.

    2010-12-03

    The gas leak from the gas attenuator to the main beam line of the Linac Coherent Light Source has been evaluated, with the effect of the Knudsen molecular beam included. It has been found that the gas leak from the gas attenuator of the present design, with nitrogen as a working gas, does not exceed 10{sup -5} torr x l/s even at the highest pressure in the main attenuation cell (20 torr).

  2. Unconventional Natural Gas

    U.S. Department of Energy (DOE) all webpages (Extended Search)

    ... 21 Exhibit 1-9 U.S. oil- and gas-producing ... for natural gas extraction (NETL, 2014) ... shale gas, tight gas sands, and coalbed methane resources. ...

  3. Gas hydrates: technology status report

    SciTech Connect (OSTI)

    Not Available

    1986-01-01

    The DOE Morgantown Energy Technology Center (METC) implemented a gas hydrates R and D program that emphasized an understanding of the resource through (1) an assessment of current technology, (2) the characterization of gas hydrate geology and reservoir engineering, and (3) the development of diagnostic tools and methods. Recovery of natural gas from gas hydrates will be made possible through (1) improved instrumentation and recovery methods, (2) developing the capability to predict production performance, and (3) field verification of recovery methods. Gas hydrates research has focused primarily on geology. As work progressed, areas where gas hydrates are likely to occur were identified, and specific high potential areas were targeted for detailed investigation. A Geologic Analysis System (GAS) was developed. GAS contains approximately 30 software packages and can manipulate and correlate several types of geologic and petroleum data into maps, graphics, and reports. The system also contains all well information currently available from the Alaskan North Slope area. Laboratory research on gas hydrates includes the characterization of the physical system, which focuses on creating synthetic methane hydrates and developing synthetic hydrate cores using tetrahydrofuran (THF), consolidated rock cores, frost base mixtures, water/ice-base mixtures, and water-base mixtures. Laboratory work produced measurements of the sonic velocity and electrical resistivity of these synthetic hydrates. During 1983, a sample from a natural hydrate core recovered from the Pacific coast of Guatemala was tested for these properties by DOE/METC. More recently, natural hydrate samples acquired from the Gulf of Mexico are being tested. Modeling and systems analysis work has focused on the development of GAS and preliminary gas hydrate production models. 23 refs., 18 figs., 6 tabs.

  4. How NIF Works

    ScienceCinema (OSTI)

    None

    2016-07-12

    The National Ignition Facility, located at Lawrence Livermore National Laboratory, is the world's largest laser system... 192 huge laser beams in a massive building, all focused down at the last moment at a 2 millimeter ball containing frozen hydrogen gas. The goal is to achieve fusion... getting more energy out than was used to create it. It's never been done before under controlled conditions, just in nuclear weapons and in stars. We expect to do it within the next 2-3 years. The purpose is threefold: to create an almost limitless supply of safe, carbon-free, proliferation-free electricity; examine new regimes of astrophysics as well as basic science; and study the inner-workings of the U.S. stockpile of nuclear weapons to ensure they remain safe, secure and reliable without the need for underground testing. More information about NIF can be found at:

  5. New and existing gas wells promise bountiful LPG output in Michigan

    SciTech Connect (OSTI)

    Not Available

    1991-01-01

    Michigan remains the leading LP-gas producer in the Northeast quadrant of the U.S. This paper reports that boosted by a number of new natural gas wells and a couple of new gas processing plants, the state is firmly anchored in the butane/propane production business. Since 1981, more than 100 deep gas wells, most in excess of 8000 feet in depth, have been completed as indicated producers in the state. Many of these are yielding LPG-grade stock. So, combined with LPG-grade production from shallower geologic formations, the supply picture in this area looks promising for the rest of the country.

  6. Nevada Natural Gas Gross Withdrawals from Gas Wells (Million...

    U.S. Energy Information Administration (EIA) (indexed site)

    from Gas Wells (Million Cubic Feet) Nevada Natural Gas Gross Withdrawals from Gas Wells ... Natural Gas Gross Withdrawals from Gas Wells Nevada Natural Gas Gross Withdrawals and ...

  7. New Mexico Natural Gas Gross Withdrawals from Shale Gas (Million...

    U.S. Energy Information Administration (EIA) (indexed site)

    Shale Gas (Million Cubic Feet) New Mexico Natural Gas Gross Withdrawals from Shale Gas ... Natural Gas Gross Withdrawals from Shale Gas Wells New Mexico Natural Gas Gross ...

  8. GAS STORAGE TECHNOLOGY CONSORTIUM

    SciTech Connect (OSTI)

    Robert W. Watson

    2004-10-18

    Gas storage is a critical element in the natural gas industry. Producers, transmission and distribution companies, marketers, and end users all benefit directly from the load balancing function of storage. The unbundling process has fundamentally changed the way storage is used and valued. As an unbundled service, the value of storage is being recovered at rates that reflect its value. Moreover, the marketplace has differentiated between various types of storage services, and has increasingly rewarded flexibility, safety, and reliability. The size of the natural gas market has increased and is projected to continue to increase towards 30 trillion cubic feet (TCF) over the next 10 to 15 years. Much of this increase is projected to come from electric generation, particularly peaking units. Gas storage, particularly the flexible services that are most suited to electric loads, is critical in meeting the needs of these new markets. In order to address the gas storage needs of the natural gas industry, an industry-driven consortium was created--the Gas Storage Technology Consortium (GSTC). The objective of the GSTC is to provide a means to accomplish industry-driven research and development designed to enhance operational flexibility and deliverability of the Nation's gas storage system, and provide a cost effective, safe, and reliable supply of natural gas to meet domestic demand. To accomplish this objective, the project is divided into three phases that are managed and directed by the GSTC Coordinator. The first phase, Phase 1A, was initiated on September 30, 2003, and was completed on March 31, 2004. Phase 1A of the project included the creation of the GSTC structure, development and refinement of a technical approach (work plan) for deliverability enhancement and reservoir management. This report deals with Phase 1B and encompasses the period July 1, 2004, through September 30, 2004. During this time period there were three main activities. First was the ongoing

  9. The efficient use of natural gas in transportation

    SciTech Connect (OSTI)

    Stodolsky, F.; Santini, D.J.

    1992-04-01

    Concerns over air quality and greenhouse gas emissions have prompted discussion as well as action on alternative fuels and energy efficiency. Natural gas and natural gas derived fuels and fuel additives are prime alternative fuel candidates for the transportation sector. In this study, we reexamine and add to past work on energy efficiency and greenhouse gas emissions of natural gas fuels for transportation (DeLuchi 1991, Santini et a. 1989, Ho and Renner 1990, Unnasch et al. 1989). We add to past work by looking at Methyl tertiary butyl ether (from natural gas and butane component of natural gas), alkylate (from natural gas butanes), and gasoline from natural gas. We also reexamine compressed natural gas, liquified natural gas, liquified petroleum gas, and methanol based on our analysis of vehicle efficiency potential. We compare the results against nonoxygenated gasoline.

  10. The efficient use of natural gas in transportation

    SciTech Connect (OSTI)

    Stodolsky, F.; Santini, D.J.

    1992-01-01

    Concerns over air quality and greenhouse gas emissions have prompted discussion as well as action on alternative fuels and energy efficiency. Natural gas and natural gas derived fuels and fuel additives are prime alternative fuel candidates for the transportation sector. In this study, we reexamine and add to past work on energy efficiency and greenhouse gas emissions of natural gas fuels for transportation (DeLuchi 1991, Santini et a. 1989, Ho and Renner 1990, Unnasch et al. 1989). We add to past work by looking at Methyl tertiary butyl ether (from natural gas and butane component of natural gas), alkylate (from natural gas butanes), and gasoline from natural gas. We also reexamine compressed natural gas, liquified natural gas, liquified petroleum gas, and methanol based on our analysis of vehicle efficiency potential. We compare the results against nonoxygenated gasoline.

  11. DOE - Office of Legacy Management -- Morgantown Ordnance Works...

    Office of Legacy Management (LM)

    NETL historically has focused on the development of advanced technologies related to coal and natural gas. Also see Documents Related to Morgantown Ordnance Works Historical ...

  12. GAS STORAGE TECHNOLOGY CONSORTIUM

    SciTech Connect (OSTI)

    Robert W. Watson

    2004-07-15

    Gas storage is a critical element in the natural gas industry. Producers, transmission and distribution companies, marketers, and end users all benefit directly from the load balancing function of storage. The unbundling process has fundamentally changed the way storage is used and valued. As an unbundled service, the value of storage is being recovered at rates that reflect its value. Moreover, the marketplace has differentiated between various types of storage services, and has increasingly rewarded flexibility, safety, and reliability. The size of the natural gas market has increased and is projected to continue to increase towards 30 trillion cubic feet (TCF) over the next 10 to 15 years. Much of this increase is projected to come from electric generation, particularly peaking units. Gas storage, particularly the flexible services that are most suited to electric loads, is critical in meeting the needs of these new markets. In order to address the gas storage needs of the natural gas industry, an industry-driven consortium was created--the Gas Storage Technology Consortium (GSTC). The objective of the GSTC is to provide a means to accomplish industry-driven research and development designed to enhance operational flexibility and deliverability of the Nation's gas storage system, and provide a cost effective, safe, and reliable supply of natural gas to meet domestic demand. To accomplish this objective, the project is divided into three phases that are managed and directed by the GSTC Coordinator. Base funding for the consortium is provided by the U.S. Department of Energy (DOE). In addition, funding is anticipated from the Gas Technology Institute (GTI). The first phase, Phase 1A, was initiated on September 30, 2003, and was completed on March 31, 2004. Phase 1A of the project included the creation of the GSTC structure, development and refinement of a technical approach (work plan) for deliverability enhancement and reservoir management. This report deals with

  13. GAS STORAGE TECHNOLGOY CONSORTIUM

    SciTech Connect (OSTI)

    Robert W. Watson

    2004-04-23

    Gas storage is a critical element in the natural gas industry. Producers, transmission and distribution companies, marketers, and end users all benefit directly from the load balancing function of storage. The unbundling process has fundamentally changed the way storage is used and valued. As an unbundled service, the value of storage is being recovered at rates that reflect its value. Moreover, the marketplace has differentiated between various types of storage services, and has increasingly rewarded flexibility, safety, and reliability. The size of the natural gas market has increased and is projected to continue to increase towards 30 trillion cubic feet (TCF) over the next 10 to 15 years. Much of this increase is projected to come from electric generation, particularly peaking units. Gas storage, particularly the flexible services that are most suited to electric loads, is critical in meeting the needs of these new markets. In order to address the gas storage needs of the natural gas industry, an industry-driven consortium was created--the Gas Storage Technology Consortium (GSTC). The objective of the GSTC is to provide a means to accomplish industry-driven research and development designed to enhance operational flexibility and deliverability of the Nation's gas storage system, and provide a cost effective, safe, and reliable supply of natural gas to meet domestic demand. To accomplish this objective, the project is divided into three phases that are managed and directed by the GSTC Coordinator. Base funding for the consortium is provided by the U.S. Department of Energy (DOE). In addition, funding is anticipated from the Gas Technology Institute (GTI). The first phase, Phase 1A, was initiated on September 30, 2003, and is scheduled for completion on March 31, 2004. Phase 1A of the project includes the creation of the GSTC structure, development of constitution (by-laws) for the consortium, and development and refinement of a technical approach (work plan) for

  14. GAS STORAGE TECHNOLOGY CONSORTIUM

    SciTech Connect (OSTI)

    Robert W. Watson

    2004-04-17

    Gas storage is a critical element in the natural gas industry. Producers, transmission and distribution companies, marketers, and end users all benefit directly from the load balancing function of storage. The unbundling process has fundamentally changed the way storage is used and valued. As an unbundled service, the value of storage is being recovered at rates that reflect its value. Moreover, the marketplace has differentiated between various types of storage services, and has increasingly rewarded flexibility, safety, and reliability. The size of the natural gas market has increased and is projected to continue to increase towards 30 trillion cubic feet (TCF) over the next 10 to 15 years. Much of this increase is projected to come from electric generation, particularly peaking units. Gas storage, particularly the flexible services that are most suited to electric loads, is critical in meeting the needs of these new markets. In order to address the gas storage needs of the natural gas industry, an industry-driven consortium was created--the Gas Storage Technology Consortium (GSTC). The objective of the GSTC is to provide a means to accomplish industry-driven research and development designed to enhance operational flexibility and deliverability of the Nation's gas storage system, and provide a cost effective, safe, and reliable supply of natural gas to meet domestic demand. To accomplish this objective, the project is divided into three phases that are managed and directed by the GSTC Coordinator. Base funding for the consortium is provided by the U.S. Department of Energy (DOE). In addition, funding is anticipated from the Gas Technology Institute (GTI). The first phase, Phase 1A, was initiated on September 30, 2003, and is scheduled for completion on March 31, 2004. Phase 1A of the project includes the creation of the GSTC structure, development of constitution (by-laws) for the consortium, and development and refinement of a technical approach (work plan) for

  15. Novel Vertimass Catalyst for Conversion of Ethanol and Other Alcohols into Fungible Gasoline, Jet, and Diesel Fuel Blend Stocks

    Energy.gov [DOE]

    Novel Vertimass Catalyst for Conversion of Ethanol and Other Alcohols into Fungible Gasoline, Jet, and Diesel Fuel Blend Stocks

  16. PADD 1 Stocks of Crude Oil and Petroleum Products

    Gasoline and Diesel Fuel Update

    18,290 17,961 18,180 18,018 18,125 17,282 1990-2016 Commercial Crude Oil (Incl. Lease Stock) 1990-2016 Total Motor Gasoline 57,932 60,907 62,874 60,969 55,592 56,167 1990-2016 Finished Motor Gasoline 4,744 4,978 5,028 5,125 4,576 4,856 1994-2016 Reformulated 29 28 25 28 33 29 1993-2016 Blended with Fuel Ethanol 29 28 25 28 33 29 2004-2016 Conventional 4,715 4,950 5,003 5,097 4,543 4,827 1994-2016 Blended with Fuel Ethanol 62 53 53 53 44 44 2004-2016 Blended with Fuel Ethanol, Greater than Ed55 0

  17. Florida Natural Gas Number of Gas and Gas Condensate Wells (Number...

    Gasoline and Diesel Fuel Update

    Gas and Gas Condensate Wells (Number of Elements) Florida Natural Gas Number of Gas and ...2016 Referring Pages: Number of Producing Gas Wells (Summary) Florida Natural Gas Summary

  18. Natural Gas Weekly Update

    Annual Energy Outlook

    of mild weather. With production at very high levels, stocks were able to rapidly gain ground in the absence of much power sector demand and before major heating demand begins....

  19. Coke oven gas injection to blast furnaces

    SciTech Connect (OSTI)

    Maddalena, F.L.; Terza, R.R.; Sobek, T.F.; Myklebust, K.L.

    1995-12-01

    U.S. Steel has three major facilities remaining in Pennsylvania`s Mon Valley near Pittsburgh. The Clairton Coke Works operates 12 batteries which produce 4.7 million tons of coke annually. The Edgar Thomson Works in Braddock is a 2.7 million ton per year steel plant. Irvin Works in Dravosburg has a hot strip mill and a range of finishing facilities. The coke works produces 120 mmscfd of coke oven gas in excess of the battery heating requirements. This surplus gas is used primarily in steel re-heating furnaces and for boiler fuel to produce steam for plant use. In conjunction with blast furnace gas, it is also used for power generation of up to 90 MW. However, matching the consumption with the production of gas has proved to be difficult. Consequently, surplus gas has been flared at rates of up to 50 mmscfd, totaling 400 mmscf in several months. By 1993, several changes in key conditions provided the impetus to install equipment to inject coke oven gas into the blast furnaces. This paper describes the planning and implementation of a project to replace natural gas in the furnaces with coke oven gas. It involved replacement of 7 miles of pipeline between the coking plants and the blast furnaces, equipment capable of compressing coke oven gas from 10 to 50 psig, and installation of electrical and control systems to deliver gas as demanded.

  20. Resident Fish Stock above Chief Joseph and Grand Coulee Dams; 2002 Annual Report.

    SciTech Connect (OSTI)

    Connor, Jason M.; McLellan, Jason G.; Butler, Chris

    2003-09-01

    In 1980, the United States Congress enacted the Northwest Power Planning and Conservation Act (PL 96-501, 1980), which established the Northwest Power and Conservation Council (NPCC), formerly the Northwest Power Planning Council. The NPCC was directed by Congress to develop a regional Power Plan and also the Columbia River Basin Fish and Wildlife Program (FWP) to restore or replace losses of fish caused by construction and operation of hydroelectric dams in the Columbia River Basin. In developing the FWP, Congress specifically directed NPCC to solicit recommendations for measures to be included in the Program from the region's fish and wildlife agencies and Indian tribes. All measures adopted by the Council were also required to be consistent with the management objectives of the agencies and tribes [Section 4.(h)(6)(A)], the legal rights of Indian tribes in the region [Section 4.(h)(6)(D)] and be based upon and supported by the best available scientific knowledge [Section 4.(h)(6)(B)]. The Resident Fish Stock Status above Chief Joseph and Grand Coulee Dams Project, also known as the Joint Stock Assessment Project (JSAP) specifically addresses NPPC Council measure 10.8B.26 of the 1994 program. The Joint Stock Assessment Project is a management tool using ecosystem principles to manage artificial fish assemblages and native fish in altered environments existing in the Columbia River System above Chief Joseph and Grand Coulee Dams (Blocked Area). A three-phase approach of this project will enhance the fisheries resources of the Blocked Area by identifying data gaps, filling data gaps with research, and implementing management recommendations based on research results. The Blocked Area fisheries information is housed in a central location, allowing managers to view the entire system while making decisions, rather than basing management decisions on isolated portions of the system. The JSAP is designed and guided jointly by fisheries managers in the Blocked Area. The

  1. Resident Fish Stock Status above Chief Joseph and Grand Coulee Dams; 2002-2003 Annual Report.

    SciTech Connect (OSTI)

    Connor, Jason M.; McLellan, Jason G.; Butler, Chris

    2006-02-01

    In 1980, the United States Congress enacted the Northwest Power Planning and Conservation Act (PL 96-501, 1980), which established the Northwest Power and Conservation Council (NPCC), formerly the Northwest Power Planning Council. The NPCC was directed by Congress to develop a regional Power Plan and also the Columbia River Basin Fish and Wildlife Program (FWP) to restore or replace losses of fish caused by construction and operation of hydroelectric dams in the Columbia River Basin. In developing the FWP, Congress specifically directed NPCC to solicit recommendations for measures to be included in the Program from the region's fish and wildlife agencies and Indian tribes. All measures adopted by the Council were also required to be consistent with the management objectives of the agencies and tribes [Section 4.(h)(6)(A)], the legal rights of Indian tribes in the region [Section 4.(h)(6)(D)] and be based upon and supported by the best available scientific knowledge [Section 4.(h)(6)(B)]. The Resident Fish Stock Status above Chief Joseph and Grand Coulee Dams Project, also known as the Joint Stock Assessment Project (JSAP) specifically addresses NPPC Council measure 10.8B.26 of the 1994 program. The Joint Stock Assessment Project is a management tool using ecosystem principles to manage artificial and native fish assemblages in altered environments existing in the Columbia River System above Chief Joseph and Grand Coulee Dams (Blocked Area). A three-phase approach of this project will enhance the fisheries resources of the Blocked Area by identifying data gaps, filling data gaps with research, and implementing management recommendations based on research results. The Blocked Area fisheries information is housed in a central location, allowing managers to view the entire system while making decisions, rather than basing management decisions on isolated portions of the system. The JSAP is designed and guided jointly by fisheries managers in the Blocked Area. The

  2. Resident Fish Stock Status above Chief Joseph and Grand Coulee Dams; 2001 Annual Report.

    SciTech Connect (OSTI)

    Connor, Jason M.; McLellan, Jason G.; O'Connor, Dick

    2003-01-01

    In 1980, the United States Congress enacted the Northwest Power Planning and Conservation Act (PL 96-501, 1980), which established the Northwest Power Planning Council (NPPC). The NPPC was directed by Congress to develop a regional Power Plan and also the Columbia River Basin Fish and Wildlife Program (FWP) to restore or replace losses of fish caused by construction and operation of hydroelectric dams in the Columbia River Basin. In developing the FWP, Congress specifically directed NPPC to solicit recommendations for measures to be included in the Program from the region's fish and wildlife agencies and Indian tribes. All measures adopted by the Council were also required to be consistent with the management objectives of the agencies and tribes [Section 4.(h)(6)(A)], the legal rights of Indian tribes in the region [Section 4.(h)(6)(D)] and be based upon and supported by the best available scientific knowledge [Section 4.(h)(6)(B)]. The Resident Fish Stock Status above Chief Joseph and Grand Coulee Dams Project, also known as the Joint Stock Assessment Project (JSAP) specifically addresses NPPC Council measure 10.8B.26 of the 1994 program. The Joint Stock Assessment Project is a management tool using ecosystem principles to manage artificial fish assemblages and native fish in altered environments existing in the Columbia River System above Chief Joseph and Grand Coulee Dams (Blocked Area). A three-phase approach of this project will enhance the fisheries resources of the Blocked Area by identifying data gaps, filling data gaps with research, and implementing management recommendations based on research results. The Blocked Area fisheries information is housed in a central location, allowing managers to view the entire system while making decisions, rather than basing management decisions on isolated portions of the system. The JSAP is designed and guided jointly by fisheries managers in the Blocked Area and the Columbia Basin Blocked Area Management Plan (1998

  3. Resident Fish Stock above Chief Joseph and Grand Coulee Dams; 2003-2004 Annual Report.

    SciTech Connect (OSTI)

    Connor, Jason M.; McLellan, Jason G.; Butler, Chris

    2005-11-01

    In 1980, the United States Congress enacted the Northwest Power Planning and Conservation Act (PL 96-501, 1980), which established the Northwest Power and Conservation Council (NPCC), formerly the Northwest Power Planning Council. The NPCC was directed by Congress to develop a regional Power Plan and also the Columbia River Basin Fish and Wildlife Program (FWP) to restore or replace losses of fish caused by construction and operation of hydroelectric dams in the Columbia River Basin. In developing the FWP, Congress specifically directed NPCC to solicit recommendations for measures to be included in the Program from the region's fish and wildlife agencies and Indian tribes. All measures adopted by the Council were also required to be consistent with the management objectives of the agencies and tribes [Section 4.(h)(6)(A)], the legal rights of Indian tribes in the region [Section 4.(h)(6)(D)] and be based upon and supported by the best available scientific knowledge [Section 4.(h)(6)(B)]. The Resident Fish Stock Status above Chief Joseph and Grand Coulee Dams Project, also known as the Joint Stock Assessment Project (JSAP) specifically addresses NPPC Council measure 10.8B.26 of the 1994 program. The Joint Stock Assessment Project is a management tool using ecosystem principles to manage artificial and native fish assemblages in altered environments existing in the Columbia River System above Chief Joseph and Grand Coulee Dams (Blocked Area). A three-phase approach of this project will enhance the fisheries resources of the Blocked Area by identifying data gaps, filling data gaps with research, and implementing management recommendations based on research results. The Blocked Area fisheries information is housed in a central location, allowing managers to view the entire system while making decisions, rather than basing management decisions on isolated portions of the system. The JSAP is designed and guided jointly by fisheries managers in the Blocked Area. The

  4. Gas sensor

    DOE Patents [OSTI]

    Schmid, Andreas K.; Mascaraque, Arantzazu; Santos, Benito; de la Figuera, Juan

    2014-09-09

    A gas sensor is described which incorporates a sensor stack comprising a first film layer of a ferromagnetic material, a spacer layer, and a second film layer of the ferromagnetic material. The first film layer is fabricated so that it exhibits a dependence of its magnetic anisotropy direction on the presence of a gas, That is, the orientation of the easy axis of magnetization will flip from out-of-plane to in-plane when the gas to be detected is present in sufficient concentration. By monitoring the change in resistance of the sensor stack when the orientation of the first layer's magnetization changes, and correlating that change with temperature one can determine both the identity and relative concentration of the detected gas. In one embodiment the stack sensor comprises a top ferromagnetic layer two mono layers thick of cobalt deposited upon a spacer layer of ruthenium, which in turn has a second layer of cobalt disposed on its other side, this second cobalt layer in contact with a programmable heater chip.

  5. AEO2015 Liquid Fuels Markets Working Group Presentation

    U.S. Energy Information Administration (EIA) (indexed site)

    Independent Statistics & Analysis Assumptions for Annual Energy Outlook 2015: Liquid Fuels Markets Working Group AEO2015 Liquid Fuels Markets Working Group Meeting Office of Petroleum, Natural Gas & Biofuels Analysis July 17, 2014 | Washington, DC WORKING GROUP PRESENTATION FOR DISCUSSION PURPOSES DO NOT QUOTE OR CITE AS RESULTS ARE SUBJECT TO CHANGE Discussion topics Office of Petroleum, Natural Gas, & Biofuels Analysis Working Group Presentation for Discussion Purposes Washington

  6. The rule of the stock distribution with large bell in blast furnace

    SciTech Connect (OSTI)

    Liu Yuncai

    1996-12-31

    This paper describes in detail, starting from the basic equation of materials falling from a two bell furnace top system, how a number of mathematical expressions which govern the stock distribution of the throat were derived. An analysis was then made by applying these equations on topics, such as stockline levels, charging sequences, stock grain size, large bell angle and batch weight. This demonstrates that a reasonable two bells top charging system and practice could be established theoretically. Furthermore, character numbers for stock distribution, such as E{sub B} and D{sub K}, were developed for a possible computer application.

  7. Natural Gas Weekly Update

    Annual Energy Outlook

    natural gas demand, thereby contributing to larger net injections of natural gas into storage. Other Market Trends: EIA Releases The Natural Gas Annual 2006: The Energy...

  8. Natural Gas Applications

    Annual Energy Outlook

    Gas Applications. If you need assistance viewing this page, please call (202) 586-8800. Energy Information Administration Home Page Home > Natural Gas > Natural Gas Applications...

  9. Habitat planning, maintenance and management working group

    SciTech Connect (OSTI)

    1997-03-01

    The Gulf of Mexico (GOM), called {open_quotes}America`s Sea,{close_quotes} is actually a small ocean basin covering over 1.5 million square kilometers. Because of the multiple uses, diversity, and size of the Gulf`s resources, management is shared by a number of governmental agencies including the Minerals Management Service, the Gulf of Mexico Fishery Management Council, the Gulf States Marine Fisheries Commission, National Marine Fisheries Service, the US Coast Guard, the US Army Corps of Engineers, and the five Gulf states fisheries agencies. All of these entities share a common goal of achieving optimum sustainable yield to maximize geological, biological, social, and economic benefits from these resources. These entities also share a common theme that the successful management of the northern GOM requires maintenance and enhancement of both the quantity and quality of habitats. A closer look at the GOM shows the sediment to be clearly dominated by vast sand and mud plains. These soft bottom habitats are preferred by many groundfish and shrimp species and, thus, have given rise to large commercial fisheries on these stocks. Hard bottom and reef habitats, on the other hand, are limited to approximately 1.6% of the total area of the Gulf, so that, while there are high demands by commercial and recreational fishermen for reef associated species, the availability of habitat for these stocks is limited. The thousands of oil and gas structures placed in the Gulf have added significant amounts of new hard substrate. The rigs-to-reefs concept was a common sense idea with support from environmental user groups and the petroleum industry for preserving a limited but valuable habitat type. As long as maximizing long-term benefits from the Gulf s resources for the greatest number of users remains the goal, then programs such as Rigs-to-Reefs will remain an important tool for fisheries and habitat managers in the Gulf.

  10. New Mexico Natural Gas in Underground Storage (Base Gas) (Million...

    Annual Energy Outlook

    Base Gas) (Million Cubic Feet) New Mexico Natural Gas in Underground Storage (Base Gas) ... Underground Base Natural Gas in Storage - All Operators New Mexico Underground Natural Gas ...

  11. New York Natural Gas in Underground Storage (Base Gas) (Million...

    U.S. Energy Information Administration (EIA) (indexed site)

    Base Gas) (Million Cubic Feet) New York Natural Gas in Underground Storage (Base Gas) ... Underground Base Natural Gas in Storage - All Operators New York Underground Natural Gas ...

  12. 120 years of U.S. residential housing stock and floor space

    SciTech Connect (OSTI)

    Moura, Maria Cecilia P.; Smith, Steven J.; Belzer, David B.; Zhou, Wei -Xing

    2015-08-11

    Residential buildings are a key driver of energy consumption and also impact transportation and land-use. Energy consumption in the residential sector accounts for one-fifth of total U.S. energy consumption and energy-related CO₂ emissions, with floor space a major driver of building energy demands. In this work a consistent, vintage-disaggregated, annual long-term series of U.S. housing stock and residential floor space for 1891–2010 is presented. An attempt was made to minimize the effects of the incompleteness and inconsistencies present in the national housing survey data. Over the 1891–2010 period, floor space increased almost tenfold, from approximately 24,700 to 235,150 million square feet, corresponding to a doubling of floor space per capita from approximately 400 to 800 square feet. While population increased five times over the period, a 50% decrease in household size contributed towards a tenfold increase in the number of housing units and floor space, while average floor space per unit remains surprisingly constant, as a result of housing retirement dynamics. In the last 30 years, however, these trends appear to be changing, as household size shows signs of leveling off, or even increasing again, while average floor space per unit has been increasing. GDP and total floor space show a remarkably constant growth trend over the period and total residential sector primary energy consumption and floor space show a similar growth trend over the last 60 years, decoupling only within the last decade.

  13. Shale gas is natural gas trapped inside

    Energy.gov (indexed) [DOE]

    Shale gas is natural gas trapped inside formations of shale - fine grained sedimentary rocks that can be rich sources of petroleum and natural gas. Just a few years ago, much of ...

  14. GAS SEAL

    DOE Patents [OSTI]

    Monson, H.; Hutter, E.

    1961-07-11

    A seal is described for a cover closing an opening in the top of a pressure vessel that may house a nuclear reactor. The seal comprises a U-shaped trough formed on the pressure vessel around the opening therein, a mass of metal in the trough, and an edge flange on the cover extending loosely into the trough and dipping into the metal mass. The lower portion of the metal mass is kept melted, and the upper portion, solid. The solid pontion of the metal mass prevents pressure surges in the vessel from expelling the liquid portion of the metal mass from the trough; the liquld portion, thus held in place by the solid portion, does not allow gas to go through, and so gas cannot escape through shrinkage holes in the solid portion.

  15. Asset Recovery of Hazardous Materials Beneficial Reuse of Radiologically Encumbered Lead Stocks ''Getting the Lead Out''

    SciTech Connect (OSTI)

    LLOYD, E.R.

    2003-01-23

    Underutilized and surplus lead stocks and leaded components are a common legacy environmental problem across much of the Department of Energy (DOE) Complex. While seeking to dispose of these items through its Environmental Management Program, DOE operational programs continue to pursue contemporary mission requirements such as managing and/or storing radioactive isotopes that require lead materials for shielding. This paradox was identified in late 1999 when DOES policies for managing scrap metal were assessed. In January 2000, the Secretary of Energy directed the National Center of Excellence for Materials Recycle (NMR) to develop and implement a comprehensive lead reuse program for all of DOE. Fluor Hanford, contractor for DOE Richland Operations, subsequently contacted NMR to pilot lead reclamation and reuse at the Hanford Site, This relationship resulted in the development of a beneficial reuse pathway for lead reclaimed from spent fuel transport railcars being stored at Hanford. The 1.3 million pounds of lead in the railcars is considered radiologically encumbered due to its prior use. Further, the material was considered a mixed Resource Conservation and Recovery Act (RCRA) low-level radioactive waste that would require expensive storage or macro encapsulation to meet land disposal restrictions prior to burial. Working closely with Flour Hanford and the Office of Air, Water, and Radiation (EH-412), NMR developed a directed reuse pathway for this and other radiologically encumbered lead When derived supplemental release limits were used, the lead recovered from these railcars became eligible for reuse in shielding products to support DOE and commercial nuclear industry operations. Using this disposition pathway has saved Hanford one third of the cost of disposing of the lead and the cost of acquiring additional lead for nuclear shielding applications. Furthermore, the environmental costs associated with mining and producing new lead for shielding products and

  16. A bottom-up engineering estimate of the aggregate heating andcooling loads of the entire U.S. building stock

    SciTech Connect (OSTI)

    Huang, Yu Joe; Brodrick, Jim

    2000-08-01

    A recently completed project for the U.S. Department of Energy's (DOE) Office of Building Equipment combined DOE-2 results for a large set of prototypical commercial and residential buildings with data from the Energy Information Administration (EIA) residential and commercial energy consumption surveys (RECS, CBECS) to estimate the total heating and cooling loads in U.S. buildings attributable to different shell components such as windows, roofs, walls, etc., internal processes, and space-conditioning systems. This information is useful for estimating the national conservation potentials for DOE's research and market transformation activities in building energy efficiency. The prototypical building descriptions and DOE-2 input files were developed from 1986 to 1992 to provide benchmark hourly building loads for the Gas Research Institute (GRI) and include 112 single-family, 66 multi-family, and 481 commercial building prototypes. The DOE study consisted of two distinct tasks : (1) perform DOE-2 simulations for the prototypical buildings and develop methods to extract the heating and cooling loads attributable to the different building components; and (2) estimate the number of buildings or floor area represented by each prototypical building based on EIA survey information. These building stock data were then multiplied by the simulated component loads to derive aggregated totals by region, vintage, and building type. The heating and cooling energy consumption of the national building stock estimated by this bottom-up engineering approach was found to agree reasonably well with estimates from other sources, although significant differences were found for certain end-uses. The main added value from this study, however, is the insight it provides about the contributing factors behind this energy consumption, and what energy savings can be expected from efficiency improvements for different building components by region, vintage, and building type.

  17. Natural Gas Weekly Update, Printer-Friendly Version

    Annual Energy Outlook

    Btu per cubic foot as published in Table A2 of the Annual Energy Review 2001. Source: Energy Information Administration, Office of Oil and Gas. Storage: Working gas in...

  18. Natural Gas Weekly Update, Printer-Friendly Version

    Gasoline and Diesel Fuel Update

    to withdraw natural gas from storage to meet current demand. Wellhead Prices Annual Energy Review More Price Data Storage Working gas in storage decreased to 2,406 Bcf as of...

  19. Natural Gas Weekly Update, Printer-Friendly Version

    Annual Energy Outlook

    Btu per cubic foot as published in Table A4 of the Annual Energy Review 2002. Source: Energy Information Administration, Office of Oil and Gas. Storage: Working gas in storage...

  20. Natural Gas Weekly Update, Printer-Friendly Version

    Gasoline and Diesel Fuel Update

    Btu per cubic foot as published in Table A2 of the Annual Energy Review 2001. Source: Energy Information Administration, Office of Oil and Gas. Storage: Working gas in storage...

  1. Natural Gas Weekly Update, Printer-Friendly Version

    Gasoline and Diesel Fuel Update

    Working gas in storage was 3,121 Bcf as of Friday, Oct 24, 2003, according to the Energy Information Administration (EIA) Weekly Natural Gas Storage Report. This is 2.7...

  2. Natural Gas Weekly Update, Printer-Friendly Version

    Gasoline and Diesel Fuel Update

    gas in storage, as well as decreases in the price of crude oil. Wellhead Prices Annual Energy Review More Price Data Storage Working gas in storage increased to 2,905 Bcf as of...

  3. Natural Gas Weekly Update, Printer-Friendly Version

    Gasoline and Diesel Fuel Update

    economic incentive to inject natural gas into underground storage. Wellhead Prices Annual Energy Review More Price Data Storage Working gas in storage totaled 1,943 Bcf as of...

  4. Natural Gas Weekly Update, Printer-Friendly Version

    Gasoline and Diesel Fuel Update

    to replenish inventory levels of natural gas held in storage. Wellhead Prices Annual Energy Review More Price Data Storage Working natural gas in storage increased to 3,052...

  5. Natural Gas Weekly Update, Printer-Friendly Version

    Gasoline and Diesel Fuel Update

    Btu per cubic foot as published in Table A4 of the Annual Energy Review 2002. Source: Energy Information Administration, Office of Oil and Gas. Storage: Working gas in...

  6. Natural Gas Weekly Update, Printer-Friendly Version

    Annual Energy Outlook

    Table A4 of the Annual Energy Review 2002. Source: Energy Information Administration, Office of Oil and Gas. Storage: Working gas in storage increased to 3,254 Bcf as of Friday,...

  7. Natural Gas Weekly Update, Printer-Friendly Version

    Gasoline and Diesel Fuel Update

    Table A2 of the Annual Energy Review 2001. Source: Energy Information Administration, Office of Oil and Gas. Storage: Working gas in storage was 2,414 Bcf as of Friday, January 9,...

  8. Natural Gas Weekly Update, Printer-Friendly Version

    Annual Energy Outlook

    Table A4 of the Annual Energy Review 2002. Source: Energy Information Administration, Office of Oil and Gas. Storage: Working gas in underground storage was 2,521 Bcf as of June...

  9. Natural Gas Weekly Update, Printer-Friendly Version

    Gasoline and Diesel Fuel Update

    Table A4 of the Annual Energy Review 2002. Source: Energy Information Administration, Office of Oil and Gas. Storage: Working gas in storage as of September 2 totaled 2,669 Bcf,...

  10. Natural Gas Weekly Update, Printer-Friendly Version

    Gasoline and Diesel Fuel Update

    Table A4 of the Annual Energy Review 2002. Source: Energy Information Administration, Office of Oil and Gas. Storage: Working gas in storage totaled 2,347 Bcf as of Friday,...

  11. Natural Gas Weekly Update, Printer-Friendly Version

    Gasoline and Diesel Fuel Update

    Table A2 of the Annual Energy Review 2001. Source: Energy Information Administration, Office of Oil and Gas. Storage: Working gas in storage was 821 Bcf as of May 2, according to...

  12. Natural Gas Weekly Update, Printer-Friendly Version

    Gasoline and Diesel Fuel Update

    Table A4 of the Annual Energy Review 2002. Source: Energy Information Administration, Office of Oil and Gas. Storage: Working gas inventories increased to 1,904 Bcf as of Friday,...

  13. Natural Gas Weekly Update, Printer-Friendly Version

    Annual Energy Outlook

    Office of Oil and Gas. Storage: Estimated working gas in underground storage was 3,299 Bcf as of November 26, which is 11.2 percent, or 331 Bcf, above the 5-year average...

  14. Natural Gas Weekly Update, Printer-Friendly Version

    Annual Energy Outlook

    withdrawal from working gas storage reported last Thursday. A contributing factor to the run-up in natural gas prices could be climbing crude oil prices, which rallied late last...

  15. AGA Producing Region Natural Gas in Underground Storage - Change...

    U.S. Energy Information Administration (EIA) (indexed site)

    Percent) AGA Producing Region Natural Gas in Underground Storage - Change in Working Gas ... Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1996 -32.80 -42.10 -53.10 -51.10 ...

  16. ,"Natural Gas Consumption",,,"Natural Gas Expenditures"

    U.S. Energy Information Administration (EIA) (indexed site)

    Census Division, 1999" ,"Natural Gas Consumption",,,"Natural Gas Expenditures" ,"per Building (thousand cubic feet)","per Square Foot (cubic feet)","per Worker (thousand cubic...

  17. Dry Natural Gas

    U.S. Department of Energy (DOE) all webpages (Extended Search)

    Estimated natural gas plant liquids and dry natural gas content of total natural gas proved reserves, 2014 million barrels and billion cubic feet 2014 Dry Natural Gas billion cubic ...

  18. RESEARCH AND DEVELOPMENT OF AN INTEGRAL SEPARATOR FOR A CENTRIFUGAL GAS PROCESSING FACILITY

    SciTech Connect (OSTI)

    LANCE HAYS

    2007-02-27

    A COMPACT GAS PROCESSING DEVICE WAS INVESTIGATED TO INCREASE GAS PRODUCTION FROM REMOTE, PREVIOUSLY UN-ECONOMIC RESOURCES. THE UNIT WAS TESTED ON AIR AND WATER AND WITH NATURAL GAS AND LIQUID. RESULTS ARE REPORTED WITH RECOMMENDATIONS FOR FUTURE WORK.

  19. Students Innovate to Address Gas Shortages Following Hurricane Sandy |

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Department of Energy Innovate to Address Gas Shortages Following Hurricane Sandy Students Innovate to Address Gas Shortages Following Hurricane Sandy November 9, 2012 - 3:43pm Addthis Franklin High School students working on their online map of gas and charging stations. | Photo courtesy Dayana Bustamante Franklin High School students working on their online map of gas and charging stations. | Photo courtesy Dayana Bustamante Ian Kalin Director of the Energy Data Initiative What are the key

  20. Natural Gas Basics

    SciTech Connect (OSTI)

    NREL Clean Cities

    2010-04-01

    Fact sheet answers questions about natural gas production and use in transportation. Natural gas vehicles are also described.

  1. Gas hydrates: Technology status report

    SciTech Connect (OSTI)

    Not Available

    1987-01-01

    In 1983, the US Department of Energy (DOE) assumed the responsibility for expanding the knowledge base and for developing methods to recover gas from hydrates. These are ice-like mixtures of gas and water where gas molecules are trapped within a framework of water molecules. This research is part of the Unconventional Gas Recovery (UGR) program, a multidisciplinary effort that focuses on developing the technology to produce natural gas from resources that have been classified as unconventional because of their unique geologies and production mechanisms. Current work on gas hydrates emphasizes geological studies; characterization of the resource; and generic research, including modeling of reservoir conditions, production concepts, and predictive strategies for stimulated wells. Complementing this work is research on in situ detection of hydrates and field tests to verify extraction methods. Thus, current research will provide a comprehensive technology base from which estimates of reserve potential can be made, and from which industry can develop recovery strategies. 7 refs., 3 figs., 6 tabs.

  2. Ensuring Safe and Reliable Underground Natural Gas Storage

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    October 2016 Ensuring Safe and Reliable Underground Natural Gas Storage Final Report of the Interagency Task Force on Natural Gas Storage Safety About the Cover: Relief well at the SoCalGas Aliso Canyon Gas Storage Facility well Standard Sesnon 25 (SS-25) (February 2016) i Message from the Secretary of Energy Earlier this year, Congress and the Administration worked together to establish a Federal Task Force to analyze California's Aliso Canyon natural gas leak and make recommendations on how to

  3. The Compelling Case for Natural Gas Vehicles | Department of Energy

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    The Compelling Case for Natural Gas Vehicles The Compelling Case for Natural Gas Vehicles Presentation-given at the April 2012 Federal Utility Partnership Working Group (FUPWG) meeting-covers the natural gas vehicle (NGV) market, the benefits of NGVs, the growing selection of NGVs, and more. Download the The Compelling Case for Natural Gas Vehicles presentation. (2.92 MB) More Documents & Publications QER - Comment of American Gas Association 3 Growth of the NGV Market: Lessons Learned

  4. Work Force Retention Work Group Charter

    Office of Energy Efficiency and Renewable Energy (EERE)

    The Work force Retention Work Group is established to support the Department’s critical focus on maintaining a high-performing work force at a time when a significant number of the workers needed to support DOE’s national security mission are reaching retirement age.

  5. New York Natural Gas Number of Gas and Gas Condensate Wells ...

    U.S. Energy Information Administration (EIA) (indexed site)

    Gas and Gas Condensate Wells (Number of Elements) New York Natural Gas Number of Gas and ... Number of Producing Gas Wells Number of Producing Gas Wells (Summary) New York Natural Gas ...

  6. Underground natural gas storage reservoir management

    SciTech Connect (OSTI)

    Ortiz, I.; Anthony, R.

    1995-06-01

    The objective of this study is to research technologies and methodologies that will reduce the costs associated with the operation and maintenance of underground natural gas storage. This effort will include a survey of public information to determine the amount of natural gas lost from underground storage fields, determine the causes of this lost gas, and develop strategies and remedial designs to reduce or stop the gas loss from selected fields. Phase I includes a detailed survey of US natural gas storage reservoirs to determine the actual amount of natural gas annually lost from underground storage fields. These reservoirs will be ranked, the resultant will include the amount of gas and revenue annually lost. The results will be analyzed in conjunction with the type (geologic) of storage reservoirs to determine the significance and impact of the gas loss. A report of the work accomplished will be prepared. The report will include: (1) a summary list by geologic type of US gas storage reservoirs and their annual underground gas storage losses in ft{sup 3}; (2) a rank by geologic classifications as to the amount of gas lost and the resultant lost revenue; and (3) show the level of significance and impact of the losses by geologic type. Concurrently, the amount of storage activity has increased in conjunction with the net increase of natural gas imports as shown on Figure No. 3. Storage is playing an ever increasing importance in supplying the domestic energy requirements.

  7. Nebraska Underground Natural Gas Storage - All Operators

    U.S. Energy Information Administration (EIA) (indexed site)

    Base Gas 20,031 22,197 22,197 22,197 22,197 22,197 1990-2016 Working Gas 13,797 11,418 10,438 8,645 8,093 8,192 1990-2016 Net Withdrawals -1,193 212 979 1,788 549 -103 1990-2016 ...

  8. Oklahoma Underground Natural Gas Storage - All Operators

    U.S. Energy Information Administration (EIA) (indexed site)

    Base Gas 185,345 185,530 183,624 183,624 183,624 183,624 1990-2016 Working Gas 173,608 169,454 162,995 136,212 126,100 131,961 1990-2016 Net Withdrawals -13,483 3,951 8,250 26,725 ...

  9. Pennsylvania Underground Natural Gas Storage - All Operators

    U.S. Energy Information Administration (EIA) (indexed site)

    Base Gas 344,161 343,997 343,965 343,818 343,699 336,838 1990-2016 Working Gas 380,696 386,683 375,251 287,921 225,614 212,465 1990-2016 Net Withdrawals -31,589 -5,821 11,466 ...

  10. Missouri Underground Natural Gas Storage - All Operators

    U.S. Energy Information Administration (EIA) (indexed site)

    Base Gas 7,845 7,845 7,845 7,845 7,845 7,845 1990-2016 Working Gas 6,341 6,537 6,493 6,045 6,198 6,063 1990-2016 Net Withdrawals -268 -212 28 433 -168 119 1990-2016 Injections 268 ...

  11. Michigan Underground Natural Gas Storage - All Operators

    U.S. Energy Information Administration (EIA) (indexed site)

    Gas 394,117 394,117 394,117 386,427 387,027 385,038 1990-2015 Working Gas 241,221 323,709 398,647 488,022 563,188 622,544 1990-2015 Net Withdrawals -82,150 -82,493 -74,938...

  12. Arkansas Underground Natural Gas Storage - All Operators

    U.S. Energy Information Administration (EIA) (indexed site)

    Base Gas 10,841 11,213 11,664 11,664 11,652 11,652 1990-2016 Working Gas 2,222 2,132 1,808 1,374 1,057 619 1990-2016 Net Withdrawals -212 -283 -127 434 328 438 1990-2016 Injections ...

  13. Texas Underground Natural Gas Storage - All Operators

    U.S. Energy Information Administration (EIA) (indexed site)

    Base Gas 297,441 297,427 293,580 294,440 294,891 295,519 1990-2016 Working Gas 470,258 471,593 469,012 411,431 386,432 405,225 1990-2016 Net Withdrawals -41,913 -2,086 6,424 56,721 ...

  14. Lake Roosevelt Fisheries Evaluation Program; Meadow Creek vs. Lake Whatcom Stock Kokanee Salmon Investigations in Lake Roosevelt, Annual Report 2002.

    SciTech Connect (OSTI)

    McLellan, Holly

    2003-03-01

    Lake Whatcom, Washington kokanee have been stocked in Lake Roosevelt since 1987 with the primary objective of creating a self-sustaining fishery. Success has been limited by low recruitment to the fishery, low adult returns to hatcheries, and a skewed sex ratio. It was hypothesized that a stock native to the upper Columbia River might perform better than the coastal Lake Whatcom stock. Kokanee from Meadow Creek, a tributary of Kootenay Lake, British Columbia were selected as an alternative stock. Post smolts from each stock were released from Sherman Creek Hatchery in late June 2000 and repeated in 2001. Stock performance was evaluated using three measures; (1) number of returns to Sherman Creek, the primary egg collection facility, (2) the number of returns to 86 tributaries sampled and, (3) the number of returns to the creel. In two repeated experiments, neither Meadow Creek or Lake Whatcom kokanee appeared to be capable of providing a run of three-year old spawners to sustain stocking efforts. Less than 10 three-years olds from either stock were collected during the study period. Chi-square analysis indicated age two Meadow Creek kokanee returned to Sherman Creek and to other tributaries in significantly higher numbers when compared to the Lake Whatcom stock in both 2000 and 2001. However, preliminary data from the Spokane Tribe of Indians indicated that a large number of both stocks were precocial before they were stocked. The small number of hatchery three-year olds collected indicated that the current hatchery rearing and stocking methods will continue to produce a limited jacking run largely composed of precocious males and a small number of three-year olds. No kokanee from the study were collected during standard lake wide creel surveys. Supplemental creel data, including fishing derbies, test fisheries, and angler diaries, indicated anglers harvested two-year-old hatchery kokanee a month after release. The majority of the two-year old kokanee harvested

  15. Control apparatus for hot gas engine

    SciTech Connect (OSTI)

    Stotts, R.E.

    1986-07-22

    This patent describes an apparatus for controlling the operation of a hot gas engine that includes a hot gas engine having a positionable power controller for adding working gas to the engine from a supply line to increase engine power and releasing working gas from the engine to an outlet line to decrease engine power, a plurality of tanks for supplying gas stored therein to the supply line, each tank being at a different pressure, a plurality of compressor units each having an inlet that is connected to the engine outlet for pumping released gas from the engine and a discharge that is connected to the supply line to return the released gas to one of the tanks, a first selector means for opening a selected one of the tanks to the supply line whereby gas can be added to the engine from the open tank or returned to the open tank from the compressor means, and a second selector means for activating at least one of the compressor units to pump gas from the engine and return the gas to a selected one of the tanks.

  16. Weekly Natural Gas Storage Report - EIA

    Weekly Natural Gas Storage Report

    August 14, 2015 | Released: August 20, 2015 at 10:30 a.m. | Next Release: August 27, 2015 Working gas in underground storage, Lower 48 states Summary text CSV JSN Historical...

  17. ConocoPhillips Gas Hydrate Production Test

    SciTech Connect (OSTI)

    Schoderbek, David; Farrell, Helen; Howard, James; Raterman, Kevin; Silpngarmlert, Suntichai; Martin, Kenneth; Smith, Bruce; Klein, Perry

    2013-06-30

    Work began on the ConocoPhillips Gas Hydrates Production Test (DOE award number DE-NT0006553) on October 1, 2008. This final report summarizes the entire project from January 1, 2011 to June 30, 2013.

  18. Alternative Fuels Data Center: How Do Natural Gas Class 8 Trucks...

    Alternative Fuels and Advanced Vehicles Data Center

    Natural Gas Class 8 Trucks Work? to someone by E-mail Share Alternative Fuels Data Center: How Do Natural Gas Class 8 Trucks Work? on Facebook Tweet about Alternative Fuels Data ...

  19. Fuel gas conditioning process

    DOE Patents [OSTI]

    Lokhandwala, Kaaeid A.

    2000-01-01

    A process for conditioning natural gas containing C.sub.3+ hydrocarbons and/or acid gas, so that it can be used as combustion fuel to run gas-powered equipment, including compressors, in the gas field or the gas processing plant. Compared with prior art processes, the invention creates lesser quantities of low-pressure gas per unit volume of fuel gas produced. Optionally, the process can also produce an NGL product.

  20. Spare parts program practices for flue gas desulfurization systems: Final report

    SciTech Connect (OSTI)

    Morgan, W.E.; Stresewski, J.E.; Cannell, A.L.

    1987-04-01

    Reliability and availability of a flue gas desulfurization (FGD) system is dependent to some extent on adequate system maintenance. System maintenance must be supported by a well planned spare parts program. The objective of this project was to determine the current practices followed by electric utilities in planning spare parts programs. Utilities with operational FGD systems were surveyed to determine the types of practices and typical inventory levels for spare parts for various items of FGD system equipment. FGD system suppliers and consulting engineering firms were also surveyed to obtain their recommendations regarding system sparing philosophy. The survey results were examined to determine significant trends and identify areas where further work could be beneficial. In general, spare parts problems typically have not been a cause for loss of availability except in some specific cases where a late start in planning the spare parts program contributed to problems during early stages of FGD system operation. Computerized methods for inventory surveillance and reordering are replacing manual methods. Stock levels for spare parts typically have been adjusted to reflect the individual utilities' operating experience. Documentation of spare parts usage rates over an extended time period would provide a data base for utilities planning spare parts programs for their first FGD system installation.

  1. Refinery Stocks of Crude Oil and Petroleum Products

    U.S. Energy Information Administration (EIA) (indexed site)

    Product: Crude Oil and Petroleum Products Crude Oil Petroleum Products Pentanes Plus Liquefied Petroleum Gases Ethane/Ethylene Propane/Propylene Normal Butane/Butylene Isobutane/Isobutylene Oxygenates/Renewables/Other Hydrocarbons Oxygenates (excl. Fuel Ethanol) Methyl Tertiary Butyl Ether (MTBE) All Other Oxygenates Renewable Fuels (incl. Fuel Ethanol) Fuel Ethanol Renewable Diesel Fuel Other Renewable Fuels Other Hydrocarbons Unfinished Oils Naphthas and Lighter Kerosene and Light Gas Oils

  2. Natural Gas Weekly Update, Printer-Friendly Version

    Gasoline and Diesel Fuel Update

    and October 2010 contracts all fell by less than 1 cent. Wellhead Prices Annual Energy Review More Price Data Storage Working natural gas inventories set a new record,...

  3. ,"U.S. Underground Natural Gas Storage - All Operators"

    U.S. Energy Information Administration (EIA) (indexed site)

    Total Underground Storage",6,"Monthly","72015","01151973" ,"Data 2","Change in Working Gas from Same Period Previous Year",2,"Monthly","72015","01151973" ,"Release...

  4. The Office of Fossil Energy Natural Gas Regulatory Activities

    Energy Savers

    ... fire and gas detection, and the supervision of refrigeration compressors installation. ... Train 4 worked on completing the refrigeration compressor table top foundation and ...

  5. FE Oil and Natural Gas News | Department of Energy

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    DOE will continue to work together to ensure safe, sustainable offshore production of oil and natural gas. August 7, 2013 Energy Department Authorizes Third Proposed Facility to...

  6. Gas Storage Technology Consortium

    SciTech Connect (OSTI)

    Joel Morrison; Elizabeth Wood; Barbara Robuck

    2010-09-30

    The EMS Energy Institute at The Pennsylvania State University (Penn State) has managed the Gas Storage Technology Consortium (GSTC) since its inception in 2003. The GSTC infrastructure provided a means to accomplish industry-driven research and development designed to enhance the operational flexibility and deliverability of the nation's gas storage system, and provide a cost-effective, safe, and reliable supply of natural gas to meet domestic demand. The GSTC received base funding from the U.S. Department of Energy's (DOE) National Energy Technology Laboratory (NETL) Oil & Natural Gas Supply Program. The GSTC base funds were highly leveraged with industry funding for individual projects. Since its inception, the GSTC has engaged 67 members. The GSTC membership base was diverse, coming from 19 states, the District of Columbia, and Canada. The membership was comprised of natural gas storage field operators, service companies, industry consultants, industry trade organizations, and academia. The GSTC organized and hosted a total of 18 meetings since 2003. Of these, 8 meetings were held to review, discuss, and select proposals submitted for funding consideration. The GSTC reviewed a total of 75 proposals and committed co-funding to support 31 industry-driven projects. The GSTC committed co-funding to 41.3% of the proposals that it received and reviewed. The 31 projects had a total project value of $6,203,071 of which the GSTC committed $3,205,978 in co-funding. The committed GSTC project funding represented an average program cost share of 51.7%. Project applicants provided an average program cost share of 48.3%. In addition to the GSTC co-funding, the consortium provided the domestic natural gas storage industry with a technology transfer and outreach infrastructure. The technology transfer and outreach were conducted by having project mentoring teams and a GSTC website, and by working closely with the Pipeline Research Council International (PRCI) to jointly host

  7. Influences of Stocking Salmon Carcass Analogs on Salmonids in Yakima River Tributaries, 2001-2002 Technical Report.

    SciTech Connect (OSTI)

    Pearsons, Todd N.; Johnson, Christopher L.

    2003-04-01

    The benefits that marine derived nutrients from adult salmon carcasses provide to juvenile salmonids are increasingly being recognized. Current estimates suggest that only 6-7% of marine-derived nitrogen and phosphorus that were historically available to salmonids in the Pacific Northwest are currently available. Food limitation may be a major constraint limiting the restoration of salmonids. A variety of methods have been proposed to offset this nutrient deficit including: allowing greater salmon spawning escapement, stocking hatchery salmon carcasses, and stocking inorganic nutrients. Unfortunately, each of these methods has some ecological or socio-economic shortcoming. We intend to overcome many of these shortcomings by making and evaluating a pathogen free product that simulates a salmon carcass (analog). Abundant sources of marine derived nutrients are available such as fish offal from commercial fishing and salmon carcasses from hatcheries. However, a method for recycling these nutrients into a pathogen free analog that degrades at a similar rate as a natural salmon carcass has never been developed. We endeavored to (1) develop a salmon carcass analog that will increase the food available to salmonids, (2) determine the pathways that salmonids use to acquire food from analogs, and (3) determine the benefits to salmonids and the potential for application to salmonid restoration. We used a before-after-control-impact-paired design in six tributaries of the upper Yakima basin to determine the utility of stocking carcass analogs. Our preliminary results suggest that the introduction of carcass analogs into food-limited streams can be used to restore food pathways previously provided by anadromous salmon. The analogs probably reproduced both of the major food pathways that salmon carcasses produce: direct consumption and food chain enhancement. Trout and salmon fed directly on the carcass analogs during the late summer and presumably benefited from the increased

  8. Mississippi Natural Gas in Underground Storage - Change in Working...

    U.S. Energy Information Administration (EIA) (indexed site)

    8,335 13,283 2009 13,864 4,222 12,013 22,839 24,117 25,695 29,900 29,138 34,146 21,818 24,358 7,096 2010 4,902 1,262 6,394 7,350 10,135 7,975 1,284 1,863 7,042 14,373 9,281...

  9. Wyoming Natural Gas in Underground Storage - Change in Working...

    U.S. Energy Information Administration (EIA) (indexed site)

    -26,121 -26,362 -27,771 -28,829 -30,471 -30,725 -31,860 -31,627 -33,317 1993 -9,841 ... 6,038 2,848 1,207 1,398 2010 -5,857 -11,471 -12,279 -11,921 -10,771 -10,354 -10,157 ...

  10. East Region Natural Gas Working Underground Storage (Billion...

    U.S. Energy Information Administration (EIA) (indexed site)

    2010-Jan 0101 769 0108 703 0115 642 0122 616 0129 582 2010-Feb 0205 523 0212 471 0219 425 0226 390 2010-Mar 0305 349 0312 341 0319 334 0326 336 2010-Apr 0402 333 ...

  11. New York Natural Gas in Underground Storage - Change in Working...

    U.S. Energy Information Administration (EIA) (indexed site)

    Apr May Jun Jul Aug Sep Oct Nov Dec 1990 -484 -13 300 294 -712 -349 -288 393 1,101 972 1,011 1,114 1991 3,318 2,144 1,258 2,592 3,476 1,343 977 614 2,324 4,252 -55 2,063 1992...

  12. Louisiana Natural Gas in Underground Storage - Change in Working...

    U.S. Energy Information Administration (EIA) (indexed site)

    Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1990 -16,163 -3,291 4,933 5,735 6,541 3,761 1,457 -2,718 333 6,361 22,218 1991 25,998 -7,924 -12,602 -6,752 5,539 14,861 14,428 ...

  13. Virginia Natural Gas in Underground Storage - Change in Working...

    U.S. Energy Information Administration (EIA) (indexed site)

    Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1997 0 0 0 0 0 0 0 0 0 0 0 0 1998 0 0 0 0 0 0 0 0 0 0 0 1,533 1999 210 227 211 187 147 49 88 -64 30 8 -80 -189 2000 -521 -228 ...

  14. Eastern Consuming Region Natural Gas Working Underground Storage (Billion

    Gasoline and Diesel Fuel Update

    11 11 10 9 9 1982-2016 Operating 10 8 10 9 9 9 1982-2016 Idle 4 3 1 1 0 0 1982-2016 Atmospheric Crude Oil Distillation Capacity Operable (Barrels per Calendar Day) 1,617,500 1,188,200 1,293,200 1,296,500 1,268,500 1,277,500 1982-2016 Operating 1,205,000 1,010,200 1,265,200 1,268,500 1,236,500 1,245,500 1982-2016 Idle 412,500 178,000 28,000 28,000 32,000 32,000 1982-2016 Operable (Barrels per Stream Day) 1,708,500 1,254,700 1,361,700 1,364,000 1,332,000 1,353,000 1982-2016 Operating 1,273,500

  15. Oregon Natural Gas in Underground Storage - Change in Working...

    U.S. Energy Information Administration (EIA) (indexed site)

    -221 -204 -131 -374 -387 -356 -231 86 454 -69 1994 587 858 640 -1,359 -1,793 -1,593 ... 3,325 3,229 2002 3,447 4,923 3,026 2,188 -454 167 551 811 1,460 1,970 2,121 2,495 2003 ...

  16. South Central Region Natural Gas in Underground Storage (Working...

    Annual Energy Outlook

    Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 2014 668,540 452,778 337,592 426,793 560,429 666,015 755,579 806,418 929,012 1,090,604 1,084,413 1,044,833 2015 831,268 576,019 574,918...

  17. Underground Working Natural Gas in Storage - All Operators

    Annual Energy Outlook

    Download Series History Download Series History Definitions, Sources & Notes Definitions, Sources & Notes Show Data By: Data Series Area Feb-16 Mar-16 Apr-16 May-16 Jun-16 Jul-16 ...

  18. U.S. Working Natural Gas Total Underground Storage Capacity ...

    U.S. Energy Information Administration (EIA) (indexed site)

    Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 2012 4,491,557 4,491,226 4,491,596 4,502,901 4,514,569 4,526,987 4,530,486 4,540,575 4,567,586 4,577,649 4,575,112 4,576,356 ...

  19. Michigan Working Natural Gas Underground Storage Capacity (Million Cubic

    Gasoline and Diesel Fuel Update

    1998 Other 1980-1998

    1,365 15,193 11,630 8,521 21,248 10,985 1982-2015 Import Price 4.73 4.38 2.88 4.02 8.34 2.87 1989-2015 Export Volume 721,075 876,267 872,620 684,510 554,675 486,675 1982-2015 Export Price 4.85 4.44 3.12 4.07 6.26 3.19 1989

    Connecticut Delaware Georgia Idaho Illinois Indiana Iowa Kansas Kentucky Louisiana Maryland Massachusetts Michigan Minnesota Mississippi Missouri Montana Nebraska New Jersey New Mexico New York North Carolina Ohio Oklahoma Oregon Pennsylvania

  20. Minnesota Working Natural Gas Underground Storage Capacity (Million Cubic

    Gasoline and Diesel Fuel Update

    2 20 9 22 66 10 1967-2015 Synthetic 0 0 0 1980-2015 Propane-Air 12 20 9 22 66 1

    451,405 548,686 406,327 243,805 328,610 233,011 1982-2015 Import Price 4.49 4.15 2.87 3.87 5.60 2.89 1989-2015 Export Volume 0 3,975 11,768 16,209 5,474 5,245 1999-2015 Export Price -- 3.90 3.46 3.83 11.05 3.34 199

    Connecticut Delaware Georgia Idaho Illinois Indiana Iowa Kansas Kentucky Louisiana Maryland Massachusetts Michigan Minnesota Mississippi Missouri Montana Nebraska New Jersey New Mexico New York

  1. Mississippi Working Natural Gas Underground Storage Capacity (Million Cubic

    Gasoline and Diesel Fuel Update

    0 5,774 0 0 0 0 2007-2015 Import Price -- 12.93 -- -- -- -- 2007

    Connecticut Delaware Georgia Idaho Illinois Indiana Iowa Kansas Kentucky Louisiana Maryland Massachusetts Michigan Minnesota Mississippi Missouri Montana Nebraska New Jersey New Mexico New York North Carolina Ohio Oklahoma Oregon Pennsylvania Rhode Island South Carolina Tennessee Texas Utah Virginia Washington West Virginia Wisconsin Wyoming AGA Producing Region AGA Eastern Consuming Region AGA Western Consuming Region East

  2. Missouri Working Natural Gas Underground Storage Capacity (Million Cubic

    Gasoline and Diesel Fuel Update

    8 * * * 172 * 1967-2015 Synthetic 0 0 0 0 0 * 2007-2015 Propane-Air 18 0 172

    Connecticut Delaware Georgia Idaho Illinois Indiana Iowa Kansas Kentucky Louisiana Maryland Massachusetts Michigan Minnesota Mississippi Missouri Montana Nebraska New Jersey New Mexico New York North Carolina Ohio Oklahoma Oregon Pennsylvania Rhode Island South Carolina Tennessee Texas Utah Virginia Washington West Virginia Wisconsin Wyoming AGA Producing Region AGA Eastern Consuming Region AGA Western Consuming

  3. Montana Working Natural Gas Underground Storage Capacity (Million Cubic

    Gasoline and Diesel Fuel Update

    706,201 679,848 754,058 719,176 541,135 534,807 1982-2015 Import Price 4.13 3.75 2.45 3.23 4.39 2.40 1989-2015 Export Volume 9,437 6,826 4,332 2,353 891 35 1982-2015 Export Price 4.05 3.82 2.40 3.43 5.38 12.54 198

    Connecticut Delaware Georgia Idaho Illinois Indiana Iowa Kansas Kentucky Louisiana Maryland Massachusetts Michigan Minnesota Mississippi Missouri Montana Nebraska New Jersey New Mexico New York North Carolina Ohio Oklahoma Oregon Pennsylvania Rhode Island South Carolina Tennessee

  4. Nebraska Working Natural Gas Underground Storage Capacity (Million Cubic

    Gasoline and Diesel Fuel Update

    12 9 4 2 376 29 1967-2015 Propane-Air 12 9 4 2 376 23 1980-2015 Biomass 0 0 6 1999

    Monthly Annual Download Series History Download Series History Definitions, Sources & Notes Definitions, Sources & Notes Show Data By: Data Series Area 2010 2011 2012 2013 2014 2015 View History Net Withdrawals 1,043 -2,925 1,897 440 -278 -786 1967-2015 Injections 8,146 10,482 6,349 9,578 9,998 8,058 1967-2015 Withdrawals 9,189 7,557 8,247 10,018 9,720 7,272 1967-2015

    Illinois Indiana Iowa

  5. New Mexico Working Natural Gas Underground Storage Capacity (Million Cubic

    Gasoline and Diesel Fuel Update

    1

    Monthly Annual Download Series History Download Series History Definitions, Sources & Notes Definitions, Sources & Notes Show Data By: Data Series Area 2010 2011 2012 2013 2014 2015 View History Net Withdrawals -2,967 -2,028 -12,074 9,944 7,015 -19,897 1967-2015 Injections 18,643 19,738 22,732 14,077 14,010 26,085 1967-2015 Withdrawals 15,676 17,710 10,658 24,021 21,025 6,188 1967-2015

    Illinois Indiana Iowa Kansas Kentucky Louisiana Maryland Michigan Minnesota Mississippi

  6. New York Working Natural Gas Underground Storage Capacity (Million Cubic

    Gasoline and Diesel Fuel Update

    2 0 0 0 0 0 1967-2015 Synthetic 1980-2005 Propane-Air 2 1980-2010 Biomass 1993-2005 Other 1980-200

    434,526 324,474 278,422 233,453 200,394 190,194 1982-2015 Import Price 5.43 4.96 3.83 5.59 8.60 4.98 1989-2015 Export Volume 0 38,783 68,843 184,071 201,691 188,634 1982-2015 Export Price -- 4.69 3.61 4.29 5.56 3.06 199

    Connecticut Delaware Georgia Idaho Illinois Indiana Iowa Kansas Kentucky Louisiana Maryland Massachusetts Michigan Minnesota Mississippi Missouri Montana Nebraska New

  7. Ohio Working Natural Gas Underground Storage Capacity (Million Cubic Feet)

    Gasoline and Diesel Fuel Update

    353 296 366 416 641 467 1967-2015 Synthetic 0 0 0 1980-2015 Propane-Air 40 27 6 34 263 80 1980-2015 Biomass 313 269 360 383 378 387 1993-201

    Connecticut Delaware Georgia Idaho Illinois Indiana Iowa Kansas Kentucky Louisiana Maryland Massachusetts Michigan Minnesota Mississippi Missouri Montana Nebraska New Jersey New Mexico New York North Carolina Ohio Oklahoma Oregon Pennsylvania Rhode Island South Carolina Tennessee Texas Utah Virginia Washington West Virginia Wisconsin Wyoming AGA

  8. Oklahoma Working Natural Gas Underground Storage Capacity (Million Cubic

    Gasoline and Diesel Fuel Update

    Connecticut Delaware Georgia Idaho Illinois Indiana Iowa Kansas Kentucky Louisiana Maryland Massachusetts Michigan Minnesota Mississippi Missouri Montana Nebraska New Jersey New Mexico New York North Carolina Ohio Oklahoma Oregon Pennsylvania Rhode Island South Carolina Tennessee Texas Utah Virginia Washington West Virginia Wisconsin Wyoming AGA Producing Region AGA Eastern Consuming Region AGA Western Consuming Region East Region South Central Region Midwest Region Mountain Region Pacific

  9. Oregon Working Natural Gas Underground Storage Capacity (Million Cubic

    Gasoline and Diesel Fuel Update

    0 0 0 0 0 0 1967-2015 Propane-Air 1982-2004

    Connecticut Delaware Georgia Idaho Illinois Indiana Iowa Kansas Kentucky Louisiana Maryland Massachusetts Michigan Minnesota Mississippi Missouri Montana Nebraska New Jersey New Mexico New York North Carolina Ohio Oklahoma Oregon Pennsylvania Rhode Island South Carolina Tennessee Texas Utah Virginia Washington West Virginia Wisconsin Wyoming AGA Producing Region AGA Eastern Consuming Region AGA Western Consuming Region East Region South Central

  10. Tennessee Working Natural Gas Underground Storage Capacity (Million Cubic

    Gasoline and Diesel Fuel Update

    Synthetic 1980-2003 Propane-Air 1980-2004

    Monthly Annual Download Series History Download Series History Definitions, Sources & Notes Definitions, Sources & Notes Show Data By: Data Series Area 2015 View History Net Withdrawals -453 1968-2015 Injections 665 1968-2015 Withdrawals 212 1968-201

    Illinois Indiana Iowa Kansas Kentucky Louisiana Maryland Michigan Minnesota Mississippi Missouri Montana Nebraska New Mexico New York Ohio Oklahoma Oregon Pennsylvania Rhode Island

  11. Utah Working Natural Gas Underground Storage Capacity (Million Cubic Feet)

    Gasoline and Diesel Fuel Update

    Connecticut Delaware Georgia Idaho Illinois Indiana Iowa Kansas Kentucky Louisiana Maryland Massachusetts Michigan Minnesota Mississippi Missouri Montana Nebraska New Jersey New Mexico New York North Carolina Ohio Oklahoma Oregon Pennsylvania Rhode Island South Carolina Tennessee Texas Utah Virginia Washington West Virginia Wisconsin Wyoming AGA Producing Region AGA Eastern Consuming Region AGA Western Consuming Region East Region South Central Region Midwest Region Mountain Region Pacific

  12. Virginia Working Natural Gas Underground Storage Capacity (Million Cubic

    Gasoline and Diesel Fuel Update

    59 89 48 130 301 180 1967-2015 Synthetic 0 0 0 1980-2015 Propane-Air 159 89 48 130 301 180 1980-2015 Other 0 0 0 2005

    Connecticut Delaware Georgia Idaho Illinois Indiana Iowa Kansas Kentucky Louisiana Maryland Massachusetts Michigan Minnesota Mississippi Missouri Montana Nebraska New Jersey New Mexico New York North Carolina Ohio Oklahoma Oregon Pennsylvania Rhode Island South Carolina Tennessee Texas Utah Virginia Washington West Virginia Wisconsin Wyoming AGA Producing Region AGA Eastern

  13. Washington Working Natural Gas Underground Storage Capacity (Million Cubic

    Gasoline and Diesel Fuel Update

    332,358 313,922 312,236 333,050 359,348 429,653 1982-2015 Import Price 4.22 3.96 2.72 3.62 4.32 2.36 1989-2015 Export Volume 7,769 9,768 6,016 10,409 3,547 5,333 1982-2015 Export Price 4.81 4.47 3.87 4.02 5.05 2.34 1998

    Connecticut Delaware Georgia Idaho Illinois Indiana Iowa Kansas Kentucky Louisiana Maryland Massachusetts Michigan Minnesota Mississippi Missouri Montana Nebraska New Jersey New Mexico New York North Carolina Ohio Oklahoma Oregon Pennsylvania Rhode Island South Carolina

  14. West Virginia Working Natural Gas Underground Storage Capacity (Million

    Gasoline and Diesel Fuel Update

    Monthly Annual Download Series History Download Series History Definitions, Sources & Notes Definitions, Sources & Notes Show Data By: Data Series Area 2010 2011 2012 2013 2014 2015 View History Net Withdrawals 12,132 -32,304 26,959 15,043 -765 -28,151 1967-2015 Injections 171,179 197,202 153,479 189,906 186,131 191,719 1967-2015 Withdrawals 183,311 164,898 180,437 204,949 185,367 163,568 1967-201

    Illinois Indiana Iowa Kansas Kentucky Louisiana Maryland Michigan Minnesota Mississippi

  15. Wyoming Working Natural Gas Underground Storage Capacity (Million Cubic

    Gasoline and Diesel Fuel Update

    Connecticut Delaware Georgia Idaho Illinois Indiana Iowa Kansas Kentucky Louisiana Maryland Massachusetts Michigan Minnesota Mississippi Missouri Montana Nebraska New Jersey New Mexico New York North Carolina Ohio Oklahoma Oregon Pennsylvania Rhode Island South Carolina Tennessee Texas Utah Virginia Washington West Virginia Wisconsin Wyoming AGA Producing Region AGA Eastern Consuming Region AGA Western Consuming Region East Region South Central Region Midwest Region Mountain Region Pacific

  16. Lower 48 States Natural Gas Working Underground Storage (Billion Cubic

    Gasoline and Diesel Fuel Update

    Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 2011 798,985 584,421 146,319 -212,194 -399,411 -340,172 -243,618 -244,191 -398,130 -385,221 -37,590 383,241 2012 544,477 459,574 -34,987 -137,493 -284,231 -232,226 -134,343 -165,879 -290,456 -241,849 125,379 384,754 2013 721,687 605,009 380,314 -136,310 -417,919 -370,907 -273,815 -270,544 -352,576 -254,021 209,916 712,811 2014 970,871 727,603 353,651 -216,741 -477,379 -461,091 -399,247 -372,803 -420,968 -400,405 161,568 287,134

  17. Nonsalt Producing Region Natural Gas Working Underground Storage (Billion

    Gasoline and Diesel Fuel Update

    Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9 2000's 0 88 144 199 2010's 223 250 282 367 347 367

    6-2016 Arkansas NA NA NA NA NA NA 1991-2016 California NA NA NA NA NA NA 1996-2016 Colorado NA NA NA NA NA NA 1996-2016 Federal Offshore Gulf of Mexico NA NA NA NA NA NA 1997-2016 Kansas NA NA NA NA NA NA 1996-2016 Louisiana NA NA NA NA NA NA 1996-2016 Montana NA NA NA NA NA NA 1996-2016 New Mexico NA NA NA NA NA NA 1996-2016 North Dakota NA NA NA NA NA NA 1996-2016

  18. AGA Eastern Consuming Region Natural Gas Working Underground Storage

    Gasoline and Diesel Fuel Update

    2015 Trilateral Energy Outlook Project December 2015 Prepared by: The National Energy Board Canada Secretaría de Energía de México U.S. Energy Information Administration 2015 Trilateral Energy Outlook Project i This report was prepared in support of the North American Cooperation on Energy Information by the National Energy Board Canada (NEB), the Secretaría de Energía de México (SENER), and the U.S. Energy Information Administration (EIA). Results do not necessarily reflect the countries'

  19. Arkansas Working Natural Gas Underground Storage Capacity (Million Cubic

    Gasoline and Diesel Fuel Update

    Connecticut Delaware Georgia Idaho Illinois Indiana Iowa Kansas Kentucky Louisiana Maryland Massachusetts Michigan Minnesota Mississippi Missouri Montana Nebraska New Jersey New Mexico New York North Carolina Ohio Oklahoma Oregon Pennsylvania Rhode Island South Carolina Tennessee Texas Utah Virginia Washington West Virginia Wisconsin Wyoming AGA Producing Region AGA Eastern Consuming Region AGA Western Consuming Region East Region South Central Region Midwest Region Mountain Region Pacific

  20. Colorado Working Natural Gas Underground Storage Capacity (Million Cubic

    Gasoline and Diesel Fuel Update

    5,148 4,268 4,412 4,077 4,120 4,032 1967-2015 Propane-Air 4 21 99 6 10 2 1980-2015 Other 5,144 4,247 4,313 4,071 4,110 4,030 1980-2015

    Connecticut Delaware Georgia Idaho Illinois Indiana Iowa Kansas Kentucky Louisiana Maryland Massachusetts Michigan Minnesota Mississippi Missouri Montana Nebraska New Jersey New Mexico New York North Carolina Ohio Oklahoma Oregon Pennsylvania Rhode Island South Carolina Tennessee Texas Utah Virginia Washington West Virginia Wisconsin Wyoming AGA Producing

  1. East Region Natural Gas Working Underground Storage Capacity (Million Cubic

    Gasoline and Diesel Fuel Update

    1,471 2,114 2,970 2,608 3,801 4,282 1996-2015 Pipeline Prices 5.13 4.57 3.41 4.37 5.18 3.78 Cubic Feet)

    Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9 1990's 2.52 2.79 2.24 2.35 2000's 3.91 4.45 3.44 5.34 5.95 7.49 6.73 6.72 9.00 4.47 2010's 5.13 4.57 3.41 4.37 5.18 3.78

    Cubic Feet)

    Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 2011 4.77 4.97 4.44 4.94 5.00 4.95 5.04 4.61 4.61 4.39 4.11 3.94 2012 3.67 3.24 3.02 2.78 2.63 3.10 3.43 3.78 3.28

  2. Kansas Working Natural Gas Underground Storage Capacity (Million Cubic

    Gasoline and Diesel Fuel Update

    Connecticut Delaware Georgia Idaho Illinois Indiana Iowa Kansas Kentucky Louisiana Maryland Massachusetts Michigan Minnesota Mississippi Missouri Montana Nebraska New Jersey New Mexico New York North Carolina Ohio Oklahoma Oregon Pennsylvania Rhode Island South Carolina Tennessee Texas Utah Virginia Washington West Virginia Wisconsin Wyoming AGA Producing Region AGA Eastern Consuming Region AGA Western Consuming Region East Region South Central Region Midwest Region Mountain Region Pacific

  3. Kentucky Working Natural Gas Underground Storage Capacity (Million Cubic

    Gasoline and Diesel Fuel Update

    5 8 1 29 52 51 1967-2015 Propane-Air 5 8 1 29 52 51 1980-201

    Connecticut Delaware Georgia Idaho Illinois Indiana Iowa Kansas Kentucky Louisiana Maryland Massachusetts Michigan Minnesota Mississippi Missouri Montana Nebraska New Jersey New Mexico New York North Carolina Ohio Oklahoma Oregon Pennsylvania Rhode Island South Carolina Tennessee Texas Utah Virginia Washington West Virginia Wisconsin Wyoming AGA Producing Region AGA Eastern Consuming Region AGA Western Consuming Region East Region

  4. Layman's guide to oil and gas investments and royalty income

    SciTech Connect (OSTI)

    Brown, T.E.; Miller, S.

    1985-01-01

    This thoroughly revised second edition explains the basics of what oil and gas are, where they can be found, the people who find and produce it, the deal process, detecting the ''wormy'' and fraudulent deal, and what tax advantages you might expect. Government controls, oil and reserve estimates, leasing updated to 1985. New material includes effects of the dramatic drop in drilling costs over the last three years, new deductions and write-offs, sample tax calculations, rights and royalties, conservation rules, regulations, and laws, a thorough examination of lease agreement clauses, and a special section on OTC energy stocks.

  5. Oil and natural gas market outlook and drivers

    Gasoline and Diesel Fuel Update

    American Foundry Society May 18, 2016 | Washington, DC by Howard Gruenspecht, Deputy Administrator world supply and demand million barrels per day implied stock change million barrels per day AFS | Oil and natural gas market outlook and drivers, May 18, 2016 Global supply has consistently exceeded demand since the start of 2014; EIA forecasts a return to market balance in the second half of 2017 Source: EIA, Short-Term Energy Outlook, May 2016 2 Forecast -3 -2 -1 0 1 2 3 4 5 6 82 84 86 88 90 92

  6. Natural Gas Summary from the Short-Term Energy Outlook

    Gasoline and Diesel Fuel Update

    63 and $2.72 per MMBtu during the months through October without the wide variations that occurred over the spring and early summer months (Short-Term Energy Outlook, August 2002). Prices are expected to be less variable unless unusually hot weather in late summer results in gas being diverted from storage to meet the added cooling demand, or colder-than-normal weather for October results in an unexpected drawdown of storage stocks. Overall in 2002, wellhead prices are expected to average about

  7. Financing is next step in Brazil-Bolivia natural gas project. [Economic costs and benefits of a new natural gas pipeline project

    SciTech Connect (OSTI)

    Cajueiro Costa, A.S. )

    1993-11-01

    This paper reviews a new four billion dollar arrangement which would start a major gas network between Brazil and Bolivia. The proposed 2,200 mile long, 28 and 14 inch pipeline network would connect Bolivian reserves with the undeserved markets of southern Brazil. The paper briefly reviews the economic involvement and impacts on both countries and the current market for natural gas in Brazil. Because most of Brazil's energy is currently from hydroelectric power or petroleum, the new distribution network will have dramatic effects on industries which need this high-grade fuel source for operation. Financing of this project will be by Petrobras and 49 percent through stock options.

  8. ID@Work

    U.S. Department of Energy (DOE) all webpages (Extended Search)

    ID@Work ID@Work ID@Work is a video feature that introduces DOE-ID employees and the jobs they perform. These videos are created in Windows Media Video (wmv) format and have no ...

  9. Quality Work Plan Update

    Energy Savers

    eere.energy.gov ACI Detroit Quality Work Plan Update April 2014 QWP: Background ... The Quality Work Plan: WPN 14---4 Defining the Work. CommunicaKng ExpectaKons ...

  10. North American Natural Gas Markets. Volume 1

    SciTech Connect (OSTI)

    Not Available

    1988-12-01

    This report sunnnarizes the research by an Energy Modeling Forum working group on the evolution of the North American natural gas markets between now and 2010. The group`s findings are based partly on the results of a set of economic models of the natural gas industry that were run for four scenarios representing significantly different conditions: two oil price scenarios (upper and lower), a smaller total US resource base (low US resource case), and increased potential gas demand for electric generation (high US demand case). Several issues, such as the direction of regulatory policy and the size of the gas resource base, were analyzed separately without the use of models.

  11. North American Natural Gas Markets. Volume 2

    SciTech Connect (OSTI)

    Not Available

    1989-02-01

    This report summarizes die research by an Energy Modeling Forum working group on the evolution of the North American natural gas markets between now and 2010. The group`s findings are based partly on the results of a set of economic models of the natural gas industry that were run for four scenarios representing significantly different conditions: two oil price scenarios (upper and lower), a smaller total US resource base (low US resource case), and increased potential gas demand for electric generation (high US demand case). Several issues, such as the direction of regulatory policy and the size of the gas resource base, were analyzed separately without the use of models.

  12. 120 years of U.S. residential housing stock and floor space

    DOE PAGES-Beta [OSTI]

    Moura, Maria Cecilia P.; Smith, Steven J.; Belzer, David B.; Zhou, Wei -Xing

    2015-08-11

    Residential buildings are a key driver of energy consumption and also impact transportation and land-use. Energy consumption in the residential sector accounts for one-fifth of total U.S. energy consumption and energy-related CO₂ emissions, with floor space a major driver of building energy demands. In this work a consistent, vintage-disaggregated, annual long-term series of U.S. housing stock and residential floor space for 1891–2010 is presented. An attempt was made to minimize the effects of the incompleteness and inconsistencies present in the national housing survey data. Over the 1891–2010 period, floor space increased almost tenfold, from approximately 24,700 to 235,150 million squaremore » feet, corresponding to a doubling of floor space per capita from approximately 400 to 800 square feet. While population increased five times over the period, a 50% decrease in household size contributed towards a tenfold increase in the number of housing units and floor space, while average floor space per unit remains surprisingly constant, as a result of housing retirement dynamics. In the last 30 years, however, these trends appear to be changing, as household size shows signs of leveling off, or even increasing again, while average floor space per unit has been increasing. GDP and total floor space show a remarkably constant growth trend over the period and total residential sector primary energy consumption and floor space show a similar growth trend over the last 60 years, decoupling only within the last decade.« less

  13. EIA - Natural Gas Pipeline Network - Intrastate Natural Gas Pipeline...

    Gasoline and Diesel Fuel Update

    Intrastate Natural Gas Pipeline Segment About U.S. Natural Gas Pipelines - Transporting Natural Gas based on data through 20072008 with selected updates Intrastate Natural Gas ...

  14. EIA - Natural Gas Pipeline Network - Major Natural Gas Transportation...

    U.S. Department of Energy (DOE) all webpages (Extended Search)

    Major Natural Gas Transportation Corridors About U.S. Natural Gas Pipelines - Transporting Natural Gas based on data through 20072008 with selected updates Major Natural Gas ...

  15. Natural Gas Regulation - Other Gas-Related Information Sources...

    U.S. Department of Energy (DOE) all webpages (Extended Search)

    Natural Gas Regulation - Other Gas-Related Information Sources Natural Gas Regulation - Other Gas-Related Information Sources The single largest source of energy information...

  16. Nevada Natural Gas Gross Withdrawals from Gas Wells (Million...

    Annual Energy Outlook

    Release Date: 05312016 Next Release Date: 06302016 Referring Pages: Natural Gas Gross Withdrawals from Gas Wells Nevada Natural Gas Gross Withdrawals and Production Natural Gas ...

  17. Savine Pass, LA Natural Gas Liquefied Natural Gas Imports from...

    Gasoline and Diesel Fuel Update

    Savine Pass, LA Natural Gas Liquefied Natural Gas Imports from Trinidad and Tobago (Million Cubic Feet) Savine Pass, LA Natural Gas Liquefied Natural Gas Imports from Trinidad and ...

  18. Working With Municipal Utilities

    Energy.gov [DOE]

    Better Buildings Residential Network Program Sustainability / Working with Utilities Peer Exchange Call: Working with Smaller Municipal Utilities, Call Slides and Summary, June 27, 2013.

  19. Overview: Gas hydrate geology and geography

    SciTech Connect (OSTI)

    Malone, R.D.

    1993-06-01

    Several geological factors which are directly responsible for the presence or absence of gas hydrates have been reviewed and are: tectonic position of the region; sedimentary environments; structural deformation; shale diapirism; hydrocarbon generation and migration; thermal regime in the hydrate formation zone (HFZ); pressure conditions; and hydrocarbon gas supply to the HFZ. Work on gas hydrate formation in the geological environment has made significant advances, but there is still much to be learned. Work is continuing in the deeper offshore areas through the Ocean Drilling Program, Government Agencies, and Industry. The pressure/temperature conditions necessary for formation has been identified for various compositions of natural gas through laboratory investigations and conditions for formation are being advanced through drilling in areas where gas hydrates exist.

  20. Overview: Gas hydrate geology and geography

    SciTech Connect (OSTI)

    Malone, R.D.

    1993-01-01

    Several geological factors which are directly responsible for the presence or absence of gas hydrates have been reviewed and are: tectonic position of the region; sedimentary environments; structural deformation; shale diapirism; hydrocarbon generation and migration; thermal regime in the hydrate formation zone (HFZ); pressure conditions; and hydrocarbon gas supply to the HFZ. Work on gas hydrate formation in the geological environment has made significant advances, but there is still much to be learned. Work is continuing in the deeper offshore areas through the Ocean Drilling Program, Government Agencies, and Industry. The pressure/temperature conditions necessary for formation has been identified for various compositions of natural gas through laboratory investigations and conditions for formation are being advanced through drilling in areas where gas hydrates exist.