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United States Energy Use by Source

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Below, find charts showing how much of each type of energy the United States was used from 1949 to 2022 in quadrillion Btu.

According to the EIA, “A British thermal unit (Btu) is a measure of the heat content of fuels or energy sources. It is the quantity of heat required to raise the temperature of one pound of liquid water by 1 degree Fahrenheit at the temperature that water has its greatest density (approximately 39 degrees Fahrenheit).”

Fossil-Fuel Energy Use

(quadrillion Btu)

Year Coal Natural Gas Petroleum Total Fossil Fuels
2023 8.17 33.61 35.43 77.17
2022 9.89 33.35 35.32 78.50
2021 10.55 31.71 35.24 77.45
2020 9.18 31.64 32.33 73.14
2019 11.32 32.26 36.87 80.42
2018 13.25 31.16 36.89 81.28
2017 13.84 28.06 36.04 77.91
2016 14.23 28.40 35.71 78.32
2015 15.55 28.19 35.37 79.09
2014 18.0 27.38 34.66 80.02
2013 18.04 26.81 34.40 79.22
2012 17.38 26.09 33.83 77.30
2011 19.66 24.95 34.64 79.26
2010 20.83 24.57 35.32 80.72
2009 19.69 23.42 34.78 77.86
2008 22.39 23.84 36.77 83.04
2007 22.75 23.66 39.37 85.81
2006 22.45 22.24 39.73 84.48
2005 22.80 22.57 40.22 85.62
2004 22.47 22.92 40.14 85.67
2003 22.32 22.83 38.71 83.91
2002 21.90 23.51 38.12 83.59
2001 21.91 22.77 38.08 82.80
2000 22.58 23.82 38.15 84.62
1999 21.62 22.91 37.73 82.32
1998 21.66 22.83 36.72 81.27
1997 21.45 23.22 36.07 80.78
1996 21.00 23.08 35.59 79.70
1995 20.09 22.67 34.34 77.16
1994 19.91 21.73 34.45 76.15
1993 19.84 21.23 33.59 74.68
1992 19.12 20.71 33.47 73.34
1991 18.9 20.03 32.79 71.82
1990 19.17 19.60 33.50 72.28
1989 19.07 19.60 34.16 72.87
1988 18.85 18.45 34.17 71.51
1987 18.01 17.64 32.82 68.47
1986 17.26 16.59 32.15 65.99
1985 17.48 17.70 30.87 66.03
1984 17.07 18.39 30.99 66.44
1983 15.89 17.22 30.00 63.10
1982 15.32 18.36 30.18 63.84
1981 15.91 19.75 31.88 67.52
1980 15.42 20.24 34.16 69.78
1979 15.04 20.67 37.08 72.84
1978 13.77 20.00 37.92 71.81
1977 13.92 19.93 37.08 70.95
1976 13.58 20.35 35.14 69.07
1975 12.66 19.95 32.70 65.32
1974 12.66 21.73 33.42 67.87
1973 12.97 22.51 34.81 70.28
1972 12.08 22.70 32.92 67.67
1971 11.60 22.47 30.54 64.57
1970 12.26 21.79 29.50 63.50
1969 12.38 20.68 28.32 61.34
1968 12.33 19.21 26.97 58.49
1967 11.91 17.94 25.27 55.12
1966 12.14 17.0 24.34 53.45
1965 11.58 15.77 23.18 50.51
1964 10.96 15.29 22.24 48.48
1963 10.41 14.40 21.65 46.45
1962 9.91 13.73 21.00 44.63
1961 9.62 12.93 20.17 42.71
1960 9.84 12.39 19.87 42.09
1959 9.52 11.72 19.28 40.51
1958 9.53 10.66 18.49 38.68
1957 10.82 10.19 17.89 38.89
1956 11.35 9.61 17.90 38.86
1955 11.17 9.00 17.23 37.38
1954 9.71 8.33 15.81 33.85
1953 11.37 7.91 15.53 34.80
1952 11.31 7.55 14.93 33.78
1951 12.55 7.05 14.41 33.99
1950 12.35 5.97 13.30 31.61
1949 11.98 5.15 11.87 28.99

Renewable Energy

Some years display 0.00 energy use in some categories (e.g., geothermal use in 1972). Please note that the energy category was used that year but for an amount that does not round up to at least 0.01 quadrillion Btu.

(quadrillion Btu)

Year Hydroelectric Geothermal Solar Wind Biomass Total Renewable Energy
2023 0.82 0.12 0.88 1.45 4.98 8.24
2022 0.87 0.12 0.76 1.48 4.86 8.09
2021 0.86 0.12 0.63 1.29 4.75 7.64
2020 0.97 0.12 0.51 1.15 4.55 7.30
2019 0.98 0.12 0.43 1.01 5.06 7.59
2018 1.00 0.12 0.38 0.93 5.10 7.53
2017 1.02 0.12 0.33 0.87 5.04 7.38
2016 0.91 0.12 0.25 0.77 5.06 7.12
2015 0.85 0.12 0.20 0.65 5.01 6.83
2014 0.88 0.12 0.16 0.62 5.02 6.80
2013 0.92 0.12 0.12 0.57 4.86 6.59
2012 0.94 0.12 0.09 0.48 4.52 6.15
2011 1.09 0.12 0.08 0.41 4.62 6.31
2010 0.89 0.11 0.07 0.32 4.51 5.90
2009 0.93 0.10 0.06 0.25 3.94 5.30
2008 0.87 0.10 0.06 0.19 3.85 5.07
2007 0.84 0.09 0.06 0.12 3.48 4.59
2006 0.99 0.09 0.05 0.09 3.26 4.48
2005 0.92 0.08 0.05 0.06 3.11 4.23
2004 0.92 0.08 0.05 0.05 3.01 4.11
2003 0.94 0.08 0.05 0.04 2.81 3.92
2002 0.90 0.07 0.06 0.04 2.70 3.77
2001 0.74 0.07 0.06 0.02 2.62 3.51
2000 0.94 0.07 0.06 0.02 3.01 4.10
1999 1.09 0.07 0.06 0.02 2.96 4.20
1998 1.10 0.07 0.06 0.01 2.93 4.17
1997 1.22 0.07 0.06 0.01 3.11 4.46
1996 1.18 0.06 0.07 0.01 3.16 4.48
1995 1.06 0.06 0.06 0.01 3.10 4.30
1994 0.89 0.07 0.06 0.01 3.03 4.06
1993 0.96 0.07 0.06 0.01 2.91 4.01
1992 0.86 0.07 0.06 0.01 2.93 3.93
1991 0.99 0.07 0.06 0.01 2.78 3.90
1990 1.00 0.06 0.06 0.01 2.74 3.86
1989 0.93 0.06 0.05 0.00 3.16 4.21
1988 0.77 0.04 0.00 0.00 3.02 3.82
1987 0.86 0.04 0.00 0.00 2.87 3.77
1986 1.00 0.04 0.00 0.00 2.93 3.97
1985 0.97 0.03 0.00 0.00 3.02 4.02
1984 1.11 0.03 0.00 0.00 2.97 4.10
1983 1.14 0.02 n/a 0.00 2.90 4.07
1982 1.07 0.02 n/a n/a 2.66 3.75
1981 0.90 0.02 n/a n/a 2.60 3.52
1980 0.95 0.02 n/a n/a 2.48 3.45
1979 0.97 0.01 n/a n/a 2.15 3.13
1978 0.97 0.01 n/a n/a 2.04 3.01
1977 0.76 0.01 n/a n/a 1.84 2.61
1976 0.98 0.01 n/a n/a 1.71 2.70
1975 1.03 0.01 n/a n/a 1.50 2.54
1974 1.04 0.01 n/a n/a 1.54 2.59
1973 0.94 0.01 n/a n/a 1.53 2.48
1972 0.94 0.00 n/a n/a 1.50 2.45
1971 0.92 0.00 n/a n/a 1.43 2.35
1970 0.86 0.00 n/a n/a 1.43 2.29
1969 0.86 0.00 n/a n/a 1.44 2.31
1968 0.77 0.00 n/a n/a 1.42 2.19
1967 0.77 0.00 n/a n/a 1.34 2.11
1966 0.68 0.00 n/a n/a 1.37 2.04
1965 0.67 0.00 n/a n/a 1.33 2.01
1964 0.62 0.00 n/a n/a 1.34 1.95
1963 0.58 0.00 n/a n/a 1.32 1.90
1962 0.59 0.00 n/a n/a 1.30 1.89
1961 0.53 0.00 n/a n/a 1.29 1.83
1960 0.51 0.00 n/a n/a 1.32 1.83
1959 0.48 n/a n/a n/a 1.35 1.83
1958 0.49 n/a n/a n/a 1.32 1.81
1957 0.46 n/a n/a n/a 1.33 1.79
1956 0.41 n/a n/a n/a 1.42 1.84
1955 0.40 n/a n/a n/a 1.42 1.82
1954 0.38 n/a n/a n/a 1.39 1.78
1953 0.37 n/a n/a n/a 1.42 1.79
1952 0.37 n/a n/a n/a 1.47 1.85
1951 0.36 n/a n/a n/a 1.53 1.89
1950 0.34 n/a n/a n/a 1.56 1.91
1949 0.32 n/a n/a n/a 1.55 1.87

Nuclear Energy

The United States began using nuclear energy in 1958. The table below begins in 1960 because the amount of nuclear energy used in 1958 and 1949 was too small to be captured in two decimal points.

(quadrillion Btu)

Year Nuclear
2023 8.10
2022 8.06
2021 8.13
2020 8.25
2019 8.45
2018 8.44
2017 8.42
2016 8.43
2015 8.34
2014 8.34
2013 8.24
2012 8.06
2011 8.27
2010 8.43
2009 8.36
2008 8.43
2007 8.46
2006 8.21
2005 8.16
2004 8.22
2003 7.96
2002 8.15
2001 8.03
2000 7.87
1999 7.61
1998 7.07
1997 6.98
1996 7.09
1995 7.08
1994 6.70
1993 6.41
1992 6.48
1991 6.42
1990 6.10
1989 5.60
1988 5.59
1987 4.75
1986 4.38
1985 4.08
1984 3.55
1983 3.20
1982 3.13
1981 3.01
1980 2.74
1979 2.78
1978 3.02
1977 2.70
1976 2.11
1975 1.90
1974 1.27
1973 0.91
1972 0.58
1971 0.41
1970 0.24
1969 0.15
1968 0.14
1967 0.09
1966 0.06
1965 0.04
1964 0.04
1963 0.04
1962 0.03
1961 0.02
1960 0.01

Sources for United States Energy Use by Source

  • U.S. Energy Information Administration, “Units and Calculators Explained: British Thermal Units (Btu),” eia.gov, June 4, 2020
  • U.S. Energy Information Administration, “Primary Energy Consumption by Source,” eia.gov (accessed Sep. 9, 2024)

State-by-State Energy Use

Each U.S. state relies on fossil fuels, nuclear, and renewable energy in different proportions. Texas, for example, used the most of all fossil fuels (coal, natural gas, and petroleum) in 2018 but is also the top consumer of wind power. California consumed the most biomass, geothermal, and solar power, while Washington used the most hydroelectric power and Illinois the most nuclear power.

Below, find tables and charts detailing each states’ use of each source of energy in 2018 (the most recent available data), as well as total energy consumption as compared to the states’ populations in 2018.

The numbers listed are in trillions of Btu. According to the EIA, “A British thermal unit (Btu) is a measure of the heat content of fuels or energy sources. It is the quantity of heat required to raise the temperature of one pound of liquid water by 1 degree Fahrenheit at the temperature that water has its greatest density (approximately 39 degrees Fahrenheit).”

2018 State-by-State Fossil-Fuel Energy Consumption

(trillions of Btu)

State Coal Natural Gas Petroleum Total Fossil Fuels
Alabama 377.2 770.9 519.6 1667.6
Alaska 17.3 346.3 221.2 584.8
Arizona 331.5 400.6 539.5 1,271.6
Arkansas 304.1 366.9 329.9 1,001.0
California 33.3 2,207.4 3,512.8 5,753.5
Colorado 284.5 519.6 501.0 1,305.1
Connecticut 4.0 286.0 312.7 602.7
Delaware 4.3 99.4 109.4 213.1
D.C. 0.0 32.6 19.0 51.7
Florida 327.8 1,511.1 1,688.0 3,526.9
Georgia 340.2 759.3 876.3 1,975.8
Hawaii 14.4 0.2 247.2 261.8
Idaho 2.8 115.8 180.8 299.4
Illinois 704.6 1,127.5 1,228.6 3,060.6
Indiana 985.7 890.4 741.1 2,617.2
Iowa 325.7 431.5 413.4 1,170.5
Kansas 227.7 321.4 345.6 894.6
Kentucky 655.9 356.5 604.1 1,616.5
Louisiana 137.8 1,860.7 1,897.0 3,895.5
Maine 2.1 48.4 173.6 224.1
Maryland 124.2 313.0 448.5 885.7
Massachusetts 0.1 452.6 561.5 1,014.2
Michigan 506.1 1,010.8 877.4 2,394.3
Minnesota 261.5 514.5 582.6 1,358.6
Mississippi 60.0 591.4 465.2 1,116.6
Missouri 668.2 329.8 610.7 1,608.7
Montana 152.3 90.8 172.7 415.8
Nebraska 264.1 196.4 242.3 702.8
Nevada 35.0 310.8 259.8 605.6
New Hampshire 7.8 51.5 155.2 214.4
New Jersey 16.7 799.6 935.1 1,751.4
New Mexico 136.8 281.2 259.4 677.4
New York 16.7 1,393.7 1,328.9 2,739.3
North Carolina 325.1 599.3 838.4 1,762.8
North Dakota 407.3 130.5 189.9 727.6
Ohio 717.8 1,211.9 1,110.5 3,040.2
Oklahoma 171.3 834.6 538.7 1,544.5
Oregon 16.9 271.3 332.9 621.1
Pennsylvania 644.1 1,513.2 1,203.2 3,360.4
Rhode Island 0.0 104.7 84.4 189.2
South Carolina 205.2 336.8 529.4 1,071.4
South Dakota 27.6 95.5 114.4 237.6
Tennessee 251.8 403.5 719.5 1,374.8
Texas 1,189.3 4,564.1 6,998.9 12,752.2
Utah 273.1 253.5 303.4 830.0
Vermont 0.0 14.2 76.3 90.6
Virginia 149.3 666.9 776.4 1,592.6
Washington 61.2 334.8 801.3 1,197.2
West Virginia 661.8 222.9 218.6 1,103.2
Wisconsin 362.1 565.3 543.1 1,470.4
Wyoming 455.7 174.9 162.6 793.2
United States 13,250.0 31,086.4 36,901.6 81,212.3

2018 State-by-State Nuclear Energy Consumption

State Nuclear
Alabama 412.6
Alaska 0.0
Arizona 325.1
Arkansas 133.0
California 190.4
Colorado 0.0
Connecticut 176.5
Delaware 0.0
D.C. 0.0
Florida 306.5
Georgia 359.3
Hawaii 0.0
Idaho 0.0
Illinois 1,025.7
Indiana 0.0
Iowa 51.2
Kansas 95.9
Kentucky 0.0
Louisiana 179.3
Maine 0.0
Maryland 156.7
Massachusetts 46.4
Michigan 318.7
Minnesota 152.7
Mississippi 72.3
Missouri 111.4
Montana 0.0
Nebraska 58.9
Nevada 0.0
New Hampshire 105.2
New Jersey 334.4
New Mexico 0.0
New York 448.7
North Carolina 439.9
North Dakota 0.0
Ohio 191.5
Oklahoma 0.0
Oregon 0.0
Pennsylvania 872.7
Rhode Island 0.0
South Carolina 551.2
South Dakota 0.0
Tennessee 378.2
Texas 430.6
Utah 0.0
Vermont 0.0
Virginia 305.8
Washington 101.5
West Virginia 0.0
Wisconsin 105.9
Wyoming 0.0
United States 8,438.1

2018 State-by-State Renewable Energy Consumption

State Hydroelectric Biomass Geothermal Solar Wind Total Renewable Energy
Alabama 101.4 193.4 0.1 3.4 0.0 298.4
Alaska 15.2 8.2 0.2 0.0 1.4 25.0
Arizona 63.6 38.9 0.3 70.8 4.8 178.5
Arkansas 27.4 93.5 0.8 2.1 0.0 123.8
California 239.7 296.9 108.4 381.7 127.7 1,154.5
Colorado 16.6 43.2 0.8 15.3 88.7 164.6
Connecticut 5.1 38.7 0.0 6.5 0.1 50.4
Delaware 0.0 6.1 0.4 1.5 0.0 8.0
D.C. 0.0 2.0 0.0 0.7 0.0 2.7
Florida 2.1 251.8 10.1 53.5 0.0 317.5
Georgia 33.7 247.5 0.3 21.0 0.0 302.4
Hawaii 0.9 10.7 1.0 13.1 5.5 31.1
Idaho 100.4 46.7 2.3 5.4 24.2 178.9
Illinois 1.3 170.3 2.00 2.7 108.3 284.7
Indiana 2.0 126.0 4.6 3.7 49.5 185.9
Iowa 8.4 258.1 1.3 1.3 194.2 463.4
Kansas 0.2 46.6 1.0 0.3 172.1 220.3
Kentucky 40.2 58.4 2.7 0.7 0.0 102.1
Louisiana 10.7 140.2 1.8 2.2 0.0 155.0
Maine 29.7 108.2 0.1 0.8 21.7 160.4
Maryland 25.8 47.4 0.6 11.5 5.2 90.4
Massachusetts 10.3 63.8 0.9 28.2 2.0 105.2
Michigan 14.3 179.0 5.2 2.3 49.7 250.4
Minnesota 9.6 183.5 1.1 10.4 97.5 302.2
Mississippi 0.0 72.8 1.0 3.1 0.0 76.8
Missouri 7.5 71.8 0.4 3.0 25.8 108.5
Montana 103.8 22.8 0.3 0.5 19.6 147.1
Nebraska 12.6 128.8 1.2 0.4 50.5 193.5
Nevada 17.1 15.7 33.1 48.6 2.8 117.3
New Hampshire 12.3 45.0 0.0 1.1 3.7 62.1
New Jersey 0.3 57.7 0.5 28.2 0.2 86.9
New Mexico 1.4 23.1 0.5 14.8 55.5 95.2
New York 269.8 165.2 1.2 17.7 36.4 490.3
North Carolina 60.1 149.3 1.0 57.8 4.9 273.2
North Dakota 29.0 32.9 1.0 0.0 97.7 160.5
Ohio 2.2 134.2 3.4 2.8 15.9 158.6
Oklahoma 18.5 49.8 0.0 0.7 248.9 317.9
Oregon 322.7 95.0 2.8 8.5 67.8 496.8
Pennsylvania 38.8 172.6 2.2 5.1 32.5 251.2
Rhode Island 0.0 7.3 0.1 1.2 1.4 10.0
South Carolina 27.4 128.5 0.6 6.9 0.0 163.5
South Dakota 57.0 64.8 1.9 0.0 25.8 149.5
Tennessee 93.7 109.3 0.2 2.4 0.4 206.0
Texas 10.3 270.8 2.5 36.3 689.2 1,009.0
Utah 8.4 16.9 4.9 23.9 7.2 61.3
Vermont 11.5 27.0 0.0 2.3 3.4 44.2
Virginia 16.1 155.5 1.7 8.2 0.0 181.5
Washington 736.4 145.9 1.1 1.5 71.9 956.8
West Virginia 16.8 20.6 0.0 0.1 16.1 53.7
Wisconsin 21.8 161.0 0.6 1.30 14.9 199.6
Wyoming 8.9 8.4 0.7 0.1 36.9 54.9
United States 2,663.1 5,011.7 208.9 915.5 2,482.4 11,281.6

State-by-State Population v. Energy Consumption

State Population Total Energy Consumption Total Fossil-Fuel Energy Consumption Total Alternative Energy Consumption
Alabama 4,887,681 1,954.8 1,667.6 711.0
Alaska 735,139 609.8 584.8 25.0
Arizona 7,158,024 1,271.6 1,271.6 503.6
Arkansas 3,009,733 1,119.7 1,001.0 256.8
California 39,461,588 7,966.6 5,753.5 1,344.9
Colorado 5,691,287 1,513.3 1,305.1 164.6
Connecticut 3,571,520 753.0 602.7 226.9
Delaware 965,479 290.3 213.1 8.0
D.C. 701,547 174.5 51.7 2.7
Florida 21,244,317 4,281.3 3,526.9 624.0
Georgia 2,876.10 2,876.1 1,975.8 661.7
Hawaii 1,420,593 292.9 261.8 31.1
Idaho 1,750,536 553.3 299.4 178.9
Illinois 12,723,071 4,012.0 3,060.6 1,310.4
Indiana 6,695,497 2,837.6 2,617.2 185.9
Iowa 3,148,618 1,616.1 1,170.5 514.6
Kansas 2,911,359 1,134.5 894.6 316.2
Kentucky 4,461,153 1,743.9 1,616.5 102.1
Louisiana 4,659,690 4,403.2 3,895.5 334.3
Maine 4,659,690 395.3 224.1 160.4
Maryland 6,035,802 1,361.2 885.7 247.1
Massachusetts 6,882,635 1,458.6 1,014.2 151.6
Michigan 9,984,072 2,894.2 2,394.3 569.1
Minnesota 5,606,249 1,913.9 1,358.6 454.9
Mississippi 2,981,020 1,192.7 1,116.6 149.1
Missouri 6,121,623 1,847.8 1,608.7 219.9
Montana 1,060,665 435.2 415.8 147.1
Nebraska 1,925,614 914.6 702.8 252.4
Nevada 3,027,341 727.2 605.6 117.3
New Hampshire 1,353,465 324.7 214.4 167.3
New Jersey 8,886,025 2,240.7 1,751.4 421.3
New Mexico 2,092,741 702.8 677.4 95.2
New York 19,530,351 3,854.2 2,739.3 939.0
North Carolina 10,381,615 2,616.1 1,762.8 713.1
North Dakota 758,080 661.0 727.6 160.5
Ohio 11,676,341 3,755.9 3,040.2 350.1
Oklahoma 3,940,235 1,706.5 1,544.5 317.9
Oregon 4,181,886 1,012.2 621.1 496.8
Pennsylvania 12,800,922 3,961.6 3,360.4 1,123.9
Rhode Island 1,058,287 197.4 189.2 10.0
South Carolina 5,084,156 1,671.8 1071.4 714.7
South Dakota 878,698 396.8 237.6 149.5
Tennessee 6,771,631 2,255.9 1,374.8 584.2
Texas 28,628,666 14,258.8 12752.2 1,439.6
Utah 3,153,550 835.1 830.0 61.3
Vermont 624,358 139.2 90.6 44.2
Virginia 8,501,286 2,401.2 1,592.6 487.3
Washington 7,523,869 2,078.7 1,197.2 1,058.3
West Virginia 1,804,291 832.9 1,103.2 53.7
Wisconsin 5,807,406 1,885.9 1,470.4 305.5
Wyoming 577,601 558.6 793.2 54.9
United States 326,687,501 101,083.6 81,212.3 19,719.7

Sources for State-by-State Energy Use

  • U.S. Census Bureau, “Annual Estimates of the Resident Population for the United States, Regions, States, and Puerto Rico: April 1, 2010 to July 1, 2019 (NST-EST2019-01),” census.gov, Dec. 2019
  • U.S. Energy Information Administration, “State Energy Consumption Estimates, 1960 through 2018,” eia.gov, June 2020
  • U.S. Energy Information Administration, “Table C3. Primary Energy Consumption Estimates, 2018 (Trillion Btu),” eia.gov (accessed Aug. 19, 2020)
  • U.S. Energy Information Administration, “Units and Calculators Explained: British Thermal Units (Btu),” eia.gov, June 4, 2020

Historical Timeline

History of Alternative Energy and Fossil Fuels

2000 bce–1499

2000 bce - Chinese First to Use Coal as an Energy Source

“According to the report of an early missionary to China, coal was already being burned there for heating and cooking, and had been so employed for up to 4000 years. Likewise, in early medieval Europe, the existence of coal was no secret, but the ‘black stone’ was regarded as an inferior fuel because it produced so much soot and smoke….

Thus, until the 13th century, it was largely ignored in favor of wood. As wood shortages began to appear, poor people began heating their homes by burning coal.”

The Party’s Over: Oil, War and the Fate of Industrial Societies, 2005

200 bce - Chinese Develop Natural Gas as an Energy Source

“The first practical use of natural gas dates to 200 bce and is attributed, like so many technical developments, to the Chinese. They used it to make salt from brine in gas-fired evaporators, boring shallow wells and conveying the gas to the evaporators via bamboo pipes.”

—“History of Energy in the United States: 1635-2000,” eia.doe.gov (accessed May 20, 2009)

200 bce - Europeans Harness Water Energy to Power Mills

“The vertical waterwheel, invented perhaps two centuries before the time of Christ, spread across Europe within a few hundred years. By the end of the Roman era, waterwheels powered mills to crush grain, full cloth, tan leather, smelt and shape iron, saw wood, and carry out a variety of other early industrial processes. Productivity increased, dependence on human and animal muscle power gradually declined, and locations with good water-power resources became centers of economic and industrial activity.”

—“History of Energy,” fi.edu, Apr. 25, 2006

1st Century - Chinese First to Refine Petroleum (Oil) for Use as an Energy Source

“More than 2,000 years ago, our ancestors discovered oil seepages in many places in northwest China. A book titled Han Book Geography Annals written by a historian of the Eastern Han Dynasty, Ban Gu (32-92 AD), wrote of flammables in the Weishui River. Located at the east of the Yanan city, the river now is called the Jian.

There was also a detailed description about petroleum in the famous Sketch Book at Meng Xi written by the distinguished scientist Sheng Kuo (1031-1095). He reported that there was a lot of oil in the subsurface, ‘and it is inexhaustible.’

Long ago, our ancestors already applied petroleum for lamps, as lubricants, in medicine and for military actions. Similarly, the technology of heating and evaporating brine from flowing brine wells for producing edible salt was also developed more than a thousand years ago (East Jin Dynasty, 347 AD) in China.”

—“China’s Petroleum Industry,” worldenergysource.com (accessed July 21, 2009)

10th Century - Windmills Built in Persia to Grind Grain and Pump Water

“For the tenth century, we have material proof that windmills were turning in the blustery Seistan region of Persia. These primitive, vertical carousel-type mills utilized the wind to grind corn, and to raise water from streams to irrigate gardens….[T]heir use soon spread to India, other parts of the Muslim world, and China, where farmers employed them to pump water, grind grain, and crush sugarcane.”

Wind Energy in America: A History, 1996

1500–1799

1590s - Dutch Build Windmills for Multiple Uses

“The mill reached its greatest size and its most efficient form in the hands of the Dutch engineers toward the end of the sixteenth century….The Dutch provinces…developed the windmill to the fullest possible degree: it ground the grain produced on the rich meadows, it sawed the wood…and it ground the spices….

Above all, the windmill was the chief agent in land reclamation. The threat of inundation by the sea led these North Sea fishermen and farmers to attempt not only to control the water itself, but by keeping it back, to add to the land….

Once the dykes were built, however, the problem was how to keep the area under the level of the sea clear of water: the windmill…was the means of raising the water of the rising streams and canals: it maintained the balance between the water and the land that made life possible in this precarious situation.”

Technics and Civilization, 1934

1600s - Development of Coal Coke in England Aids Iron Production and Helps to Pave the Way for the Industrial Revolution

“Experimenters…discovered that the roasting process used to make charcoal [from wood] could be adapted to coal, the result being an extremely hot-burning fuel called coke. The use of coke in iron and steel production, beginning in England in the 17th century, would so transform those industries as to constitute one of the key developments paving the way for the industrial revolution.”

—The Party’s Over: Oil, War and the Fate of Industrial Societies, 2005

1700s - Coal Begins to Displace Use of Other Energies

“The great shift in population and industry that took place in the eighteenth century was due to the introduction of coal as a source of mechanical power, to the use of new means of making that power effective—the steam engine—and to new methods of smelting and working up iron. Out of this coal and iron complex, a new civilization developed….

By the end of the eighteenth century coal began to take the place of current sources of energy.…Wood, wind, water, beeswax, tallow, sperm-oil—all these were displaced steadily by coal and derivatives of coal.…

In the economy of the earth, the large-scale opening up of coal seams meant that industry was beginning to live for the first time on an accumulation of potential energy, derived from the ferns of the carboniferous period, instead of upon current income.”

Technics and Civilization, 1934

1712 - First Steam Engine Developed in England to Pump Water Out of Coal Mines

“By 1700 [coal] mine shafts were as deep as 200 feet. There were problems down there with gases and especially with flooding.…Muscle, animal and human, and sometimes watermills and windmills were put to work lifting the water out of the mines, but it was an endless battle that technology circa 1700 could not win.…

Coal, the Carboniferous legacy of stored sunlight, would solve that problem. Coal would be burned to power the heat engine….

[Thomas] Newcomen…built a steam machine close by a coal shaft…in 1712….Newcomen’s first machine made twelve strokes a minute, raising 10 gallons of water with each stroke. Its strength is estimated at 5.5 horsepower, not impressive to us, but the ‘fire engine,’ as it was sometimes called, was a sensation in power-starved Britain and Europe. Soon there were scores of Newcomen engines, most nodding at the pitheads of Britain’s mines, which now could be dug twice as deep as before. In 1700, Britain produced 2.7 million metric tons of coal; in 1815, 23 million tons. That sum was twenty times in energy equivalent what the existing woodlands of Britain could produce in a year.…

Thomas Newcomen’s invention was the first machine to provide significantly large amounts of power not derived from muscle, water, or wind.…If I were to attempt anything so simple-minded as to pick a birthday for the industrial revolution, it would be the first day that Newcomen’s machine began operating in 1712.”

Children of the Sun: A History of Humanity’s Unappeasable Appetite for Energy, 2006

1748 - First Commercial Coal Production in the U.S. Begins in Richmond, Virginia

“In 1701, coal was found by Huguenot settlers on the James River in what is now Richmond, Virginia. By 1736, several ‘coal mines’ were shown on a map of the upper Potomac River near what is now the border of Maryland and West Virginia.

The first coal ‘miners’ in the American colonies were likely farmers who dug coal from beds exposed on the surface and sold it by the bushel. In 1748, the first commercial coal production began from mines around Richmond, Virginia. Coal was used to manufacture shot, shell, and other war material during the Revolutionary War.

By the late 1700s, coal was being mined on ‘Coal Hill,’ now Mount Washington in Pittsburgh, Pennsylvania. Dug from the steep hillsides, the coal was used by early settlers to heat their homes and sent across the Monongahela River in canoes to provide fuel for the military garrison at Fort Pitt.”

—“History of U.S. Coal Use,” netl.doe.gov (accessed May 14, 2009)

1800–99

1800 - Process of Electrolysis Discovered

“English scientists William Nicholson and Sir Anthony Carlisle discovered that applying electric current to water produced hydrogen and oxygen gases. This process was later termed ‘electrolysis.’ The discovery of electrolysis was an important historical step in the development of hydrogen energy and the hydrogen fuel cell.”

—“The History of Hydrogen,” hydrogenassociation.org (accessed June 4, 2009)

1821 - First Natural Gas Well in the U.S. Is Drilled

“In 1821, the first well specifically intended to obtain natural gas was dug in Fredonia, New York, by William Hart. After noticing gas bubbles rising to the surface of a creek, Hart dug a 27 foot well to try and obtain a larger flow of gas to the surface. Hart is regarded by many as the ‘father of natural gas’ in America….

During most of the 19th century, natural gas was used almost exclusively as a source of light. Without a pipeline infrastructure, it was difficult to transport the gas very far, or into homes to be used for heating or cooking. Most of the natural gas produced in this era was manufactured from coal, as opposed to transported from a well. Near the end of the 19th century, with the rise of electricity, natural gas lights were converted to electric lights.”

—“History,” naturalgas.org (accessed June 16, 2009)

1830 - Coal Becomes Primary Locomotive (Train) Fuel in the U.S., Displacing Wood

“The first major boon for coal use occurred in 1830 when the Tom Thumb, the first commercially practical American-built locomotive, was manufactured. The Tom Thumb burned coal, and in rapid fashion, virtually every American locomotive that burned wood was converted to use coal. America’s coal industry had begun taking shape.”

—“History of U.S. Coal Use,” netl.doe.gov (accessed May 14, 2009)

1830s - First Coal Powered Iron Forges Are Developed in New England

“In the early 1830’s…American iron was still being produced by charcoal. New England still relied on Europe for most of its iron supply, little metal was yet used in machinery, and steam was hardly employed at all as a source of power. This lag in the use of iron and steam appears to have held back high volume factory production in all industries except textiles. Then in the 1830’s and 1840’s, these patterns began to change quickly. A revolution in American iron making began in the 1830’s with the use of coal in the making of wrought iron, and then in the 1840’s in the production of cast iron with the adoption of the coal-using furnaces in eastern Pennsylvania. In the same decades, steam began for the first time to be used extensively in industrial production.”

—“Anthracite Coal and the Beginnings of the Industrial Revolution in the United States,” The Business History Review, Summer 1972

1830s - Ethanol Blend Becomes Popular Lamp Fuel in the U.S., Displacing Whale Oil

“In the 30 or 40 years before petroleum was discovered in Pennsylvania, the leading fuel was ‘camphene’ (sometimes simply called ‘burning fluid’). It was a blend of high-proof ethyl alcohol with 20 to 50 percent turpentine to color the flame and a few drops of camphor oil to mask the turpentine smell. Alcohol for camphene was an important mainstay for distilleries, and many sold between one third and 80 percent of their product on the fuel market. The first U.S. patent for alcohol as a lamp fuel was awarded in 1834 to S. Casey, of Lebanon, Maine….By the late 1830s, alcohol blends had replaced increasingly expensive whale oil in most parts of the country….

By 1860, thousands of distilleries churned out at least 90 million gallons of alcohol per year for lighting.”

—“Henry Ford, Charles Kettering and the Fuel of the Future,” Automotive History Review, Spring 1998

1838 - First Hydrogen Fuel Cell Developed to Generate Electricity

“William Robert Grove (1811-1896), a Welsh lawyer turned scientist, won renown for his development of an improved wet-cell battery in 1838. The ‘Grove cell,’ as it came to be called, used a platinum electrode immersed in nitric acid and a zinc electrode in zinc sulfate to generate about 12 amps of current at about 1.8 volts….

In 1800, British scientists William Nicholson and Anthony Carlisle had described the process of using electricity to decompose water into hydrogen and oxygen. But combining the gases to produce electricity and water was, according to Grove, ‘a step further that any hitherto recorded.’ Grove realized that by combining several sets of these electrodes in a series circuit he might ‘effect the decomposition of water by means of its composition.’ He soon accomplished this feat with the device he named a ‘gas battery’– the first fuel cell.”

—“Fuel Cell Origins: 1840-1890,” americanhistory.si.edu (accessed June 4, 2009)

1850s - Windmill Becomes Popular Water-Pumping Tool of Western Homesteaders and Railroad Builders

“Wind as the force behind water-pumping windmills proved quite pivotal in the settling of the West. Such water pumps assisted early pioneers and they are still in use today….This windmill represented intermediate technology at its best. It transformed the abundant wind into an agent to alleviate the shortage of water. It liberated groundwater for a moisture-poor region, providing the technology necessary to settle vast tracts of the rangeland….

Although it was the Western environment that created the demand for a new windmill, a Connecticut mechanic, by the name of Daniel Halladay, provided the inventive genius. In 1857, Halladay, having perfected his windmill, formed the Halladay Wind Mill Company….

It was Western railroad builders who first used the Halladay windmill. Hand in hand with the first transcontinental railroad came the windmill, providing water to the thirsty Union Pacific steam locomotives….

In the years to follow…water-pumping windmills dotted the US landscape. There is no way accurately to estimate their numbers, but some authorities have offered a figure of more than six million.”

Wind Energy in America: A History, 1996

1859 - First Commercial Oil Well Drilled by Edwin Drake in Pennsylvania; Kerosene Begins to Displace Other Lamp Fuels

“By the middle decades of the nineteenth century, coal gas was displacing whale oil lamps for city lighting, public and private. But it was far from an ideal illuminant. Storing it and piping it to the customer was burdensome and expensive, and it was poisonous and explosive.

Kerosene, which Abraham Gesner, a Canadian chemist, discovered how to distill from petroleum in 1853, proved in many circumstances to be a better choice….In 1859, E.L. Drake…was searching for it [petroleum] at the suitably named Oil Creek in Titusville, Pennsylvania. He rejected the idea of digging for it, and chose to seek it out with a drill driven by a small steam engine. He hit it on August 29 at 71 feet, initiating America’s and the world’s first petroleum rush….Before that boom ended in 1879, Oil Creek spouted 56 million gallons of petroleum, kerosene lamps were spreading everywhere, and the American whale fishery was a business of minor importance.”

—Children of the Sun: A History of Humanity’s Unappeasable Appetite for Energy, 2006

1860 - First Solar Power System Developed in France to Produce Steam to Drive Machinery

“Worried by the possibility of fossil fuels, such as coal, running out, Augustine Mouchot develops a solar powered steam generation system to drive industrial machinery.

Mouchot felt it was possible that the sun’s heat could replace the burning of coal to run Europe’s industries.

Mouchot’s research into mirror technology led him to develop the first sun motor. The sun motor used the heat from concentrated sunlight to produce steam which was used to drive machinery.”

—From Space to Earth: The Story of Solar Electricity, 1999

1862 - Abraham Lincoln Enacts an Ethanol Tax to Help Finance the Civil War, Severely Hampering the Ethanol Fuel Industry

“In 1860, ethanol was one of the nation’s best-selling chemicals, used as an illuminant and solvent. When the Civil War broke out, President Abraham Lincoln imposed a $2.08 per gallon Spirits Tax [in 1862] to finance the war effort. Ethanol was subject to the tax….

Industrial and fuel ethanol disappeared for 45 years.

In 1906, Teddy Roosevelt, seeking a competitor to Big Oil, convinced Congress to lift the Spirits Tax. The ethanol industry was back in business. By the end of World War I it was producing some 50 million gallons a year.”

—“West Wing’s Ethanol Problem,” alternet.org, Feb. 2, 2005

1870 - John D. Rockefeller Forms Standard Oil and Develops Petroleum as a Major Energy Source in the U.S.

“After the American Civil War, the petroleum industry made continual technological advances that allowed it to emerge as society’s major source of energy and lubrication during the twentieth century. The immense potential of petroleum resources and applications became evermore apparent, attracting the interest of one of the most effective businessmen in history, John D. Rockefeller. Working within the South Improvement Company for much of the late 1860s, Rockefeller laid the groundwork for his effort to gain absolute control of the industry, covering each phase of the process. Rockefeller formed the Standard Oil Company of Ohio in 1870. In the early 1870s, oil exploration in Pennsylvania’s Oil Creek region grew significantly, and the effort would expand to other states and nations during the next decade. By 1879, Standard controlled 90 percent of U.S. refining capacity, as well as the majority of rail lines between urban centers in the northeastern U.S. and many leasing companies at various sites of oil speculation throughout the country. Due to Rockefeller’s efforts and developments, petroleum became the primary energy source not only in the U.S., but for societies around the world.”

—“Petroleum History, United States,” eoearth.org (accessed May 18, 2009)

1876 - First Demonstration of Generating Electricity Directly from Sunlight in a Selenium Solar Cell

“When William Grylls Adams and his student, Richard Evans Day, discovered that an electrical current could be started in selenium solely by exposing it to light, they felt confident that they had discovered something completely new. Werner von Siemens, a contemporary whose reputation in the field of electricity ranked him alongside Thomas Edison, called the discovery ‘scientifically of the most far-reaching importance.’ This pioneering work portended quantum mechanics long before most chemists and physicist had accepted the reality of atoms. Although selenium solar cells failed to convert enough sunlight to power electrical equipment, they proved that a solid material could change light into electricity without heat or without moving parts.”

—“The History of Solar Energy,” californiasolarcenter.org (accessed May 19, 2009)

Sep. 4, 1882 - First Electric Plant Built by Thomas Edison in New York

“In New York he [Thomas Edison] built the first commercial electric utility near Wall Street….At 3pm on September 4, 1882, Edison threw the switch that would start up America’s first power plant, serving a square-mile area that included some very wealthy and influential customers: J.P. Morgan, the Stock Exchange, and the nation’s largest newspapers.”

—“Edison’s Miracle of Light: The Film & More - Program Description,” pbs.org (accessed July 27, 2009)

Sep. 30, 1882 - First Commercial Scale Hydroelectric Plant Goes into Operation in Appleton, Wisconsin

“It was on Saturday night, September 30, 1882, that one of the world’s first hydro-electric central stations was placed in successful operation in Appleton, Wisconsin. As late as 1977, local enthusiasm identified the installation as the ‘world’s first hydro-electric central station.’ This statement has since been corrected to read ‘the first hydro-electric central station to serve a system of private and commercial customers in North America.’ Whether first built or first in service, it was a significant engineering achievement for its time….

Three buildings were lighted initially- two paper mills and one residence. The people of Appleton reportedly went to view them in those early fall evenings and marveled, declaring them to be ‘as bright as day.’…

Progress was rapid. A second dynamo was purchased in 1882 and placed into service on November 25th. Early in 1883 the Waverly House was wired, reportedly becoming the first hotel in the western part of the United States with electric light. Two larger generators were acquired in 1886 and placed in a new central plant to which the original dynamos were also moved.

The Vulcan Street Plant had an ‘Elmer’ waterwheel, so named because it was patented by Mr. Elmer of Berlin, Wisconsin. The output of the original dynamo was 12.5 KW and was capable of lighting 250 sixteen-candlepower lamps.”

—“Vulcan Street Power Plant,” asme.org (accessed May 21, 2009)

1888 - First Windmill to Generate Electricity Developed in Cleveland

Charles F. Brush develops the world’s first windmill that can generate electricity as described in an 1890 issue of Scientific American:

“With the exception of the gigantic windmill and electric plant shown…we do not know of a successful system of electric lighting operated by means of wind power.

The mill here shown, as well as all of the electrical apparatus used in connection with it…have been designed and carried out according to the plans of Mr. Charles F. Brush, of Cleveland Ohio….

The speed of the dynamo at full load is 500 revolutions per minute, and its normal capacity at full load is 12,000 watts….

In the basement of Mr. Brush’s house there are 408 secondary battery cells arranged in 12 batteries of 34 cells each….

The house is furnished with 350 incandescent lights…two arch lights and three electric motors. It is found after continued use of this electric plant that the amount of attention required to keep it in working condition is practically nothing. It has been in constant operation more than two years, and has proved in every respect a complete success.”

—“Mr. Brush’s Windmill Dynamo,” Dec. 20, 1890

1892 - World’s First Geothermal District Heating System Built in Boise, Idaho

“Folks in Boise, Idaho, feel the heat of the world’s first district heating system as water is piped from hot springs to town buildings. Within a few years, the system is serving 200 homes and 40 downtown businesses. Today, there are four district heating systems in Boise that provide heat to over 5 million square feet of residential, business, and governmental space. Although no one imitated this system for some 70 years, there are now 17 district heating systems in the United States and dozens more around the world.”

—“A History of Geothermal Energy in the United States,” eere.energy.gov (accessed June 3, 2009)

1900–50

1900 - First Diesel Engine to Run on Vegetable Oil Demonstrated at World’s Fair in Paris

“The first public demonstration of vegetable oil based diesel fuel was at the 1900 World’s Fair, when the French government commissioned the Otto company to build a diesel engine to run on peanut oil. The French government was interested in vegetable oils as a domestic fuel for their African colonies. Rudolph Diesel later did extensive work on vegetable oil fuels and became a leading proponent of such a concept, believing that farmers could benefit from providing their own fuel. However, it would take almost a century before such an idea became a widespread reality. Shortly after Dr. Diesel’s death in 1913 petroleum became widely available in a variety of forms, including the class of fuel we know today as ‘diesel fuel’. With petroleum being available and cheap, the diesel engine design was changed to match the properties of petroleum diesel fuel. The result was an engine which was fuel efficient and very powerful. For the next 80 years diesel engines would become the industry standard where power, economy and reliability are required.”

—“History of Biodiesel Fuel,” biodiesel.com (accessed June 8, 2009)

1901 - Birth of the Modern Oil Industry: Lucas Gusher and the Discovery of Texas’s Vast Spindletop Oil Field

“The modern oil industry was born on a hill in southeastern Texas. This hill was formed by a giant underground dome of salt as it moved slowly towards the surface. As it crept, it pushed the earth that was in its path higher and higher. This dome was known by several names, but the one that stuck was ‘Spindletop’. Through the later half of the 19th century, Pennsylvania had been the most oil-productive state in the country. All that changed on January 10th, 1901….

‘Black Gold’ erupted from [Spindletop’s Lucas Gusher]…to a height greater than 150 feet (nearly 50 meters) on January 10th, 1901. It was not brought under control for 9 days….A device now called a ‘Christmas Tree’ was invented on the spot to control the flow of oil. Christmas trees are now commonplace in the industry to prevent just such an occurrence. An estimated 850,000 barrels of oil was lost. By today’s standards, that’s a loss of about $17,000,000. Of course, given the huge amount of oil which glutted the market after this discovery, the price of oil dropped from $2 to $.03 per barrel.”

—“Spindletop Texas,” priweb.org (accessed May 27, 2009)

1905 - Albert Einstein Publishes First Theoretical Paper Describing the Photoelectric Effect

In 1905 Albert Einstein publishes the first theoretical work describing the photovoltaic effect titled “Concerning an Heuristic Point of View Toward the Emission and Transformation of Light.” In the paper, “he showed that light possesses an attribute that earlier scientists had not recognized. Light, Einstein discovered, contains packets of energy, which he called light quanta….

Einstein’s bold and novel description of light, combined with the [1898] discovery of the electron…gave scientists in the second decade of the twentieth century a better understanding of photo electricity. They saw that the more powerful photons carry enough energy to knock poorly linked electrons from their atomic orbits in materials like selenium. When wires are attached, the liberated electrons flow through them as electricity…by the 1920s scientists referred to the phenomenon as the photovoltaic effect.”

From Space to Earth: The Story of Solar Electricity, 1999

—“Concerning an Heuristic Point of View Toward the Emission and Transformation of Light,” Mar. 17, 1905

June 8, 1906 - The “Free Alcohol Bill” Is Signed to Promote the Use of Alcohol as an Alternative to Gasoline

“The President [Theodore Roosevelt] today signed the Denatured Alcohol bill [Free Alcohol Bill].

This measure provides that alcohol manufactured for use in the arts or industries shall be free from the internal revenue tax when so treated as to be made a poison and so unfit for drinking. It is designed to start a great industry that will furnish cheap fuel for many purposes for which gasoline is now used.”

“In 1906, Teddy Roosevelt, seeking a competitor to Big Oil, convinced Congress to lift the Spirits Tax. The ethanol industry was back in business. By the end of World War I it was producing some 50 million gallons a year.”

The New York Times, “Free Alcohol Bill Signed,” June 9, 1906

—“West Wing’s Ethanol Problem,” alternet.org, Feb. 2, 2005

1906–08 - Studies on Alcohol Fuel (Ethanol) Find Advantages over Petroleum Fuels Such as Gasoline and Kerosene

“Studies of alcohol as an internal combustion engine fuel began in the U.S. with the Edison Electric Testing Laboratory and Columbia University in 1906. Elihu Thomson reported that despite a smaller heat or B.T.U. [British thermal unit] value, ‘a gallon of alcohol will develop substantially the same power in an internal combustion engine as a gallon of gasoline. This is owing to the superior efficiency of operation…’ Other researchers confirmed the same phenomena around the same time.

USDA [United States Department of Agriculture] tests in 1906 also demonstrated the efficiency of alcohol in engines and described how gasoline engines could be modified for higher power with pure alcohol fuel or for equivalent fuel consumption, depending on the need. The U.S. Geological Service and the U.S. Navy performed 2000 tests on alcohol and gasoline engines in 1907 and 1908 in Norfolk, Va. and St. Louis, Mo. They found that much higher engine compression ratios could be achieved with alcohol than with gasoline.

When the compression ratios were adjusted for each fuel, fuel economy was virtually equal despite the greater B.T.U. value of gasoline. ‘In regard to general cleanliness, such as absence of smoke and disagreeable odors, alcohol has many advantages over gasoline or kerosene as a fuel,’ the report said. ‘The exhaust from an alcohol engine is never clouded with a black or grayish smoke.’ USGS [United States Geological Service] continued the comparative tests and later noted that alcohol was ‘a more ideal fuel than gasoline’ with better efficiency despite the high cost.”

—“Henry Ford, Charles Kettering and the Fuel of the Future,” Automotive History Review, Spring 1998

May 15, 1911 - U.S. Supreme Court Orders Dissolution of Standard Oil Trust for Engaging in Monopolistic Practices

“Final decision was returned late this afternoon [May 15, 1911] by the Supreme Court of the United States in one of the two great trust cases which have been before it for so long—that of the Standard Oil Company. The decree of the Circuit Court for the Eighth Circuit directing the dissolution of the Oil Trust was affirmed [in an 8–1 decision], with minor modifications….

Broadly speaking, the court determines against the Standard Oil Company on the ground that it is a combination in unreasonable restraint of inter-State commerce [under the Sherman Antitrust Act].”

“Rockefeller’s cutthroat business tactics and near monopolization of the domestic industry led to an anti-trust suit brought by the Federal Government. In 1911, a decision of the Supreme Court forced the breakup of Standard Oil Company into Standard Oil of New Jersey (which later became Exxon), Standard Oil of New York (Mobil), Standard Oil of California (Chevron), Standard Oil Of Ohio (Sohio, later acquired by BP), Standard Oil of Indiana (Amoco, now BP), Continental Oil (Conoco), and Atlantic (later Atlantic Richfield, then ARCO, then sun, now BP). Rockefeller eventually profited handsomely from the split, and the new companies carefully avoided directly competing with one another.”

The New York Times, “Standard Oil Company Must Dissolve in 6 Months; Only Unreasonable Restraint of Trade Forbidden,” May 16, 1911

Standard Oil Co. of New Jersey v. United States, May 15, 1911

The Party’s Over: Oil, War and the Fate of Industrial Societies, 2005

1921 - World’s First Geothermal Power Plant Is Built in California

“The Geysers [72 miles north of San Francisco] were discovered in the early 1800’s but were an untapped energy source for many years….[In 1921] John D. Grant drilled a geothermal well and ran a small direct-current generator which was used to provide electricity for lighting The Geysers resort. However, because the materials used at that time could not withstand the geothermal steam environment and because of the difficulties of drilling for geothermal steam, this resource could not compete at that time with other low-cost, easier-to-develop energy resources.”

—“Third Symposium on the Cerro Prieto Geothermal Field, Baja California, Mexico,” Mar. 1981

1924 - First Federal Law Established to Control Pollution from the Oil Industry

The federal government established a precedent for combating oil pollution when it passed the Oil Pollution Control Act in 1924. The contamination of water from tanker discharges and seepage problems on land were the primary problems. The former attracted the most attention largely because the polluting of waterways and coastal areas affected commercial fishermen and resort owners….

The Oil Pollution Act of 1924 had inadequate enforcement provisions and dealt only with dumping fuel at sea by oil-burning vessels.

Although the Oil Pollution Act disappointed [U.S. President Herbert] Hoover and the conservationists, it was the first serious attempt to deal with the issue on a national scale. The problem did not receive serious attention again until the Santa Barbara oil spill of 1969.”

—“Energy and Environment in the United States: The Era of Fossil Fuels,” Environmental Review, Fall 1987

1927 - First Commercial Wind Turbines Sold to Generate Electricity on Remote Farms

Marcellus and Joe Jacobs develop the first commercially available wind turbine for electricity generation.

The brothers knew that many remote farms were unable to electrify without using gasoline generators. Gasoline generators were too costly and inconvenient for many remote farms since gasoline had to be constantly transported in bulk over large distances. As a result, many farms remained unelectrified.

The Jacobs brothers created a wind powered turbine based on the design of earlier water pump mills. The design succeeds when they replace the blades of the water pump mills with modern air plane propellers.

In 1927 the Jacobs Wind Electric Company is formed. Between 1927 and 1957 the company sells over 30,000 units.

Throughout the 1930s and 1940s hundreds of thousands of wind-electric systems were in operation around the country with a similar design.

Wind Energy in America: A History, 1996

1930s - Alcohol Fuel Production Promoted to Combat the Great Depression

“By the 1930s, with the country caught in the depths of the Great Depression, new ideas were welcome. Corn prices had dropped from 45 cents per bushel to 10 cents, it was only natural that people in Midwestern business and science would begin thinking about new uses for farm products….

[T]he movement for alcohol fuels…came to be seen as part of a broader campaign for industrial uses for farm crops to help fight the Depression….

By 1937 motorists from Indiana to South Dakota were urged to use Agrol, an ethyl alcohol blend with gasoline. Two types were available—Agrol 5, with five to seven percent alcohol, and Agrol 10, with twelve and a half to 17 and a half percent alcohol. ‘Try a tankfull—you’ll be thankful,’ the Agrol brochures said. The blend was sold to high initial enthusiasm at 2,000 service stations….However, Agrol plant managers complained of sabotage and bitter infighting by the oil industry….

By 1939, the Atchison Agrol plant closed its doors, not in bankruptcy, but without viable markets to continue.”

—“Henry Ford, Charles Kettering and the Fuel of the Future,” Automotive History Review, Spring 1998

1935 - Hoover Dam, the World’s Largest Hydroelectric Power Plant, Is Built

Hoover Dam is completed on the Colorado River in Arizona in 1935, four years after construction began in 1931. At the time of its completion, the Hoover Dam was the largest hydroelectric producer in the world. The dam remains the largest producer of hydroelectricity in the world until 1948.

—“What Is the Biggest Dam in the World?,” usbr.gov (accessed May 27, 2009)

1938 - Natural Gas Act: First Direct Federal Regulation of Natural Gas Industry

“In 1938, the federal government became involved directly in the regulation of interstate natural gas with the passage of the Natural Gas Act (NGA). This act constitutes the first real involvement of the federal government in the rates charged by interstate gas transmission companies. Essentially, the NGA gave the Federal Power Commission (the FPC, which had been created in 1920 with the passage of the Federal Water Power Act) jurisdiction over regulation of interstate natural gas sales. The FPC was charged with regulating the rates that were charged for interstate natural gas delivery, as well as limited certification powers….

The rationale for the passage of the NGA was the concern over the heavy concentration of the natural gas industry, and the monopolistic tendencies of interstate pipelines to charge higher than competitive prices due to their market power.”

—“The History of Regulation,” naturalgas.org (accessed June 16, 2009)

Dec. 1942 - First Controlled Nuclear Chain Reaction

“As the world went to war in the 1940s, [physicist Enrico] Fermi and other physicists in Europe and America came to understand that a uranium atom split by a neutron would cause a self-perpetuating chain reaction of atom splitting that would release enormous energy. This process, called nuclear fission, suggested possible military applications, and Fermi and his colleagues at Columbia University joined with Albert Einstein to persuade the U.S. Government to study the idea. Meanwhile, at Columbia, Fermi sought to develop a controlled nuclear fission chain reaction. In 1942, when President Franklin Roosevelt authorized the ‘Manhattan Project,’ Fermi’s work was relocated to the University of Chicago, where in December of that year, he and his team achieved the first controlled nuclear chain reaction.”

—“History of Energy,” fi.edu, Apr. 25, 2006

1946 - Atomic Energy Act of 1946: U.S. Atomic Energy Commission (AEC) Created

“The use of atomic bombs against the Japanese cities of Hiroshima and Nagasaki in August 1945 ushered in a new historical epoch, breathlessly labeled in countless news reports, magazine articles, films, and radio broadcasts as the ‘Atomic Age.’ Within a short time after the end of World War II, politicians, journalists, scientists, and business leaders were suggesting that peaceful applications of nuclear power could be as dramatic in their benefits as nuclear weapons were awesome in their destructive power….

Developing nuclear energy for civilian purposes, as even the most enthusiastic proponents recognized, would take many years. The government’s first priority was to maintain strict control over atomic technology and to exploit it further for military purposes. The Atomic Energy Act of 1946, passed as tensions with the Soviet Union were developing into the cold war, acknowledged in passing the potential peaceful benefits of atomic power. But it emphasized the military aspects of nuclear energy and underscored the need for secrecy, raw materials, and production of new weapons. The 1946 law did not allow for private, commercial application of atomic energy; rather, it created a virtual government monopoly of the technology. To manage the nation’s atomic energy programs, the act established the five-member Atomic Energy Commission (AEC).”

—“A Short History of Nuclear Regulation, 1946-1999,” nrc.gov (accessed May 19, 2009)

—Atomic Energy Act of 1946

1951–99

1950 - Petroleum Becomes Most Used Fuel in the U.S.

Due primarily to demand caused by the automobile, 1950 is the first year that petroleum becomes most consumed fuel in the U.S.

—“Petroleum Timeline,” eia.doe.gov (accessed May 28, 2009)

1950s - Natural Gas Becomes a Major Fuel in the U.S. with Extensive Construction of Natural Gas Pipelines

Natural gas was not a widespread home fuel before the 1950s. Home use of natural gas required a large pipeline network for delivery and the cost of such a system was considered prohibitive.

However, “improvements in metals, welding techniques and pipe making during the War [World War II] made pipeline construction more economically attractive. After World War II, the nation began building its pipeline network. Throughout the 1950s and 1960s, thousands of miles of pipeline were constructed throughout the United States. Today, the U.S. pipeline network, laid end-to-end, would stretch to the moon and back twice.”

—“The History of Natural Gas,” fossil.energy.gov (accessed May 13, 2009)

Dec. 20, 1951 - First Nuclear Power Reactor to Generate Electricity Built in Idaho

“On Dec. 20, 1951, a nuclear reactor produced useful electricity for the first time. It was barely enough to power a simple string of four, 100-watt light bulbs, but the 16 scientists and engineers - all staff members of Argonne National Laboratory, which designed and built the reactor - recorded their historic achievement by chalking their names on the wall beside the generator.

The reactor was Experimental Breeder Reactor-I (EBR-I), housed in a small building that today still sits alone on a wind-swept plain in southeastern Idaho. EBR-I spawned a huge international industry that now plays a major role in meeting the world’s energy needs.”

—“Early Argonne Reactor Lit the Future of the Nuclear Power Industry,” anl.gov (accessed May 27, 2009)

1953 - First Silicon Solar Cell Developed at Bell Laboratories

“In 1953, Bell Laboratories (now AT&T labs) scientists Gerald Pearson, Daryl Chapin and Calvin Fuller developed the first silicon solar cell capable of generating a measurable electric current. The New York Times reported the discovery as ‘the beginning of a new era, leading eventually to the realization of harnessing the almost limitless energy of the sun for the uses of civilization.’ ”

—“A Brief History of Solar Energy,” southface.org (accessed May 18, 2009)

Aug. 30, 1954 - U.S. Congress Passes Atomic Energy Act of 1954

“In 1954, Congress passed new legislation that for the first time permitted the wide use of atomic energy for peaceful purposes. The 1954 Atomic Energy Act redefined the atomic energy program by ending the government monopoly on technical data and making the growth of a private commercial nuclear industry an urgent national goal. The measure directed the AEC [Atomic Energy Commission] ‘to encourage widespread participation in the development and utilization of atomic energy for peaceful purposes.’ At the same time, it instructed the agency to prepare regulations that would protect public health and safety from radiation hazards. Thus, the 1954 act assigned the AEC three major roles: to continue its weapons program, to promote the private use of atomic energy for peaceful applications, and to protect public health and safety from the hazards of commercial nuclear power.”

—“A Short History of Nuclear Regulation, 1946-1999,” nrc.gov (accessed May 19, 2009)

—Atomic Energy Act of 1946

June 1956 - M. King Hubbert Develops the “Hubbert’s Peak Theory” for Measuring Oil Supply; Peak of U.S. Oil Production Correctly Predicted

The Hubbert’s peak theory states that for any given geographical area, oil production follows a bell-shaped curve where oil production will rise to a peak, followed by a sharp decline. “In 1949, he [M. King Hubbert] used statistical and physical methods to calculate total world oil and natural gas supplies and documented their sharply increasing consumption. Then, in 1956, on the basis of his reserve estimates and his study of the lifetime production profile of typical oil reservoirs, he predicted that the peak of crude-oil production in the United States would occur between 1966 and 1972. At the time, most economists, oil companies, and government agencies (including the USGS) [United States Geological Service] dismissed the prediction. The actual peak of US oil production occurred in 1970.” Hubbert’s theory came to be known as the “Hubbert’s peak theory” and continues to be one of the primary theories used to study the peaking of oil supplies.

The Party’s Over: Oil, War and the Fate of Industrial Societies, 2005

Sep. 2, 1957 - Price-Anderson Nuclear Industries Indemnity Act of 1957 Passed to Stimulate the Development of the Private Nuclear Energy Industry

“[T]he Atomic Energy Act of 1954 authorized private industry to build, own, and operate nuclear power plants and to engage in a variety of other nuclear activities….

Unwilling to risk huge financial liability, private companies viewed even the remote specter of a catastrophe as a major roadblock to their participation in the development of nuclear technology….

The Price-Anderson Act of 1957 was designed to deal with these problems. The solution outlined by the act retained the traditional approach of providing recovery to accident victims through common law liability, which could be covered by private insurance. It combined this approach, however, with an unprecedented provision for Government indemnification (reimbursement). Specifically, the act required that certain licensees must maintain financial security against offsite liability for a nuclear accident in an amount equal to that available through private insurance. Liability beyond this amount would be assumed by the Federal Government up to a limit of $560 million per incident.”

—U.S. Government Accountability Office, “Analysis of the Price-Anderson Act,” gao.gov, Aug. 18, 1980

Dec. 2, 1957 - First Commercial Nuclear Power Plant Begins Operation in Shippingport, Pennsylvania

“The first large-scale nuclear power plant in the world began operating in Shippingport, Pennsylvania, on December 2, 1957 - exactly 15 years after Enrico Fermi demonstrated the first sustained nuclear reaction. The Duquesne Light Company of Pittsburgh built and operated the Shippingport plant on a site it owned on the Ohio River. The company also contributed to the cost of developing the government-owned reactor. Three years later, the Shippingport plant began supplying electricity to the Pittsburgh area. The Shippingport nuclear power plant was retired in 1982. Congress assigned the decontamination and decommissioning of this commercial reactor to DOE [Department of Energy]. This was the first complete decontamination and decommissioning of a reactor in the United States. The reactor vessel was shipped to a low-level waste disposal facility at the Hanford Site in Richland, Washington. The reactor site was cleaned and released for unrestricted use in November 1987. Government officials proclaimed the seven-acre site is suitable for picnicking or for a children’s playground.”

—“Shippingport Nuclear Power Plant,” fas.org (accessed May 27, 2009)

1958 - First U.S. Satellite in Orbit Utilizes Solar Cells for Power

“While efforts to commercialize the silicon solar cell faltered, the US Army and Air Force saw the device as the ideal power source for a top-secret project - earth-orbiting satellites. But when the Navy was awarded the task of launching America’s first satellite, it rejected solar cells as an untried technology and decided to use chemical batteries as the power source for its Vanguard satellite. The late Dr. Hans Ziegler, probably the world’s foremost expert in satellite instrumentation in the late 1950s, strongly differed with the Navy. He argued that conventional batteries would run out of power in days, silencing millions of dollar worth of electronic equipment. In contrast, solar cells could power a satellite for years. Through an unrelenting crusade led by Dr. Ziegler to get the Navy to change its mind, the Navy finally relented and as a compromise, put a dual power system of chemical batteries and silicon solar cells on the Vanguard. Just as Ziegler predicted, the batteries failed after a week or so, but the silicon solar cells kept the Vanguard communicating with Earth for years.”

—“The History of Solar Energy,” californiasolarcenter.org (accessed May 19, 2009)

1960s - General Electric (GE) Develops Hydrogen Fuel Cells to Generate Electricity for Apollo and Gemini Space Missions

“General Electric [GE] developed workable proton-exchange membrane cells [aka fuel cells] for use as power supplies in the Apollo and Gemini space missions. The cells were big and very expensive, but they performed faultlessly, delivering an unwavering supply of current as well as a very useful byproduct in space, drinkable fresh water.

Fuel-cell technology can be compared to that of a car battery, in that hydrogen and oxygen are combined to produce electricity. But while batteries store both their fuel and their oxidizer internally, meaning they have to be periodically recharged, the fuel cell can run continuously because its fuel and oxygen are external. Fuel cells themselves are stackable flat plates, each one producing about one volt. The size of the stack determines the power output.”

—“The Hydrogen Economy: After Oil, Clean Energy from a Fuel-Cell-Driven Global Hydrogen Web,” E magazine, Jan.–Feb. 2003

1960 - First Commercial Scale Geothermal Electric Plants in the U.S. Built in California

“The first geothermal power plants in the U.S. were built in 1962 at The Geysers dry steam field, in northern California. It is still the largest producing geothermal field in the world.”

—“Geothermal Slide Show,” geothermal.marin.org (accessed July 22, 2009)

Sep. 10-14, 1960 - Formation of the Organization of Petroleum Exporting Countries (OPEC) in Baghdad, Iraq

“The Organization of the Petroleum Exporting Countries (OPEC) is a permanent, intergovernmental Organization, created at the Baghdad Conference on September 10–14, 1960, by Iran, Iraq, Kuwait, Saudi Arabia and Venezuela. The five Founding Members were later joined by nine other Members: Qatar (1961); Indonesia (1962)—suspended its membership from January 2009; Socialist Peoples Libyan Arab Jamahiriya (1962); United Arab Emirates (1967); Algeria (1969); Nigeria (1971); Ecuador (1973)—suspended its membership from December 1992–October 2007; Angola (2007) and Gabon (1975–1994). OPEC’s objective is to co-ordinate and unify petroleum policies among Member Countries, in order to secure fair and stable prices for petroleum producers; an efficient, economic and regular supply of petroleum to consuming nations; and a fair return on capital to those investing in the industry.”

—“Brief History,” opec.org (accessed May 19, 2009)

Jan. 28, 1969 - Santa Barbara Oil Spill Draws National Attention

“Neither strip mining nor air pollution riveted attention on the environmental consequences of energy exploitation like the Santa Barbara oil spill. At the time of the spill in January 1969, 925 wells had been drilled along the coastal tidelands from Santa Barbara to Los Angeles. Moreover, industrial concern over oil leaks was negligible; faith in the existing technology and the drive for profit limited the incentive to protect against the worst case….

When Union Oil’s well, A-21, blew on January 28, it leaked 235,000 gallons of crude, creating a slick of 800 miles. Although Washington responded with investigations and studies, that process offered little immediate relief to Santa Barbara. Commercial fishermen and owners of beach-front property brought lawsuits against Union Oil, and the state initiated lawsuits against the federal government. While Union Oil assumed liability for the blow-out, the financial settlements were well below the total damage. Congress tightened regulations on leases and made offshore operators liable for cleaning spills.”

—“Energy and Environment in the United States: The Era of Fossil Fuels,” Environmental Review, Fall 1987

1970 - Geothermal Steam Act of 1970 Passed to Allow the Leasing of Federal Land for Geothermal Energy Development

“To encourage the development of geothermal energy [energy generated by the heat of the Earth], the United States government passed the Geothermal Steam Act in 1970 allowing the leasing of land containing geothermal resources; however, Congress excluded any lands within the National Park System, U.S. Fish and Wildlife Service lands, and any other lands prohibited from leasing by the Mineral Leasing Act of 1920.”

—“Geothermal Steam Act of 1970, United States,” eoearth.org (accessed June 3, 2009)

1970s - Solar Cells Begin to Lower in Price and Become Cost Effective for Use on Land

“While the use of solar cells in space flourished during the 1960s and early 1970s, down on Earth electricity from the sun seemed as distant as ever. Cost was never a factor for space cells. Manufacturers worried more about size, efficiency and durability: the cost of the launch, and the continuing operation of equipment once in space far outweighed the price of power in space applications. But on Earth, the primary criterion is price per kilowatt hour.

Solar-cell technology proved too expensive for terrestrial use until the early 1970s when Dr. Elliot Berman, with financial help from Exxon Corporation, designed a significantly less costly solar cell by using a poorer grade of silicon and packaging the cells with cheaper materials. Bringing the price down from $100 a watt to $20 per watt, solar cells could now compete in situations where people needed electricity distant from power lines. Off-shore oil rigs, for example, required warning lights and horns to prevent ships from running into them but had no power other than toxic, cumbersome, short-lived batteries. Compared to their installation, maintenance and replacement, solar modules proved a bargain. Many gas and oil fields on land but far away from power lines needed small amounts of electricity to combat corrosion in well heads and piping. Once again, electricity from the sun saved the day. Major purchases of solar modules by the gas and oil industry gave the fledgling terrestrial solar cell industry the needed capital to persevere.”

—“A History of Photovoltaics,” usc.edu (accessed May 28, 2009)

1970 - Oil Production Peaks in the Lower 48 States

Crude oil production in the lower 48 States reaches its highest level in 1970, peaking at 9.4 million barrels per day, confirming the 1956 prediction of M. King Hubbert.

—“History of Energy in the United States: 1635-2000,” eia.doe.gov (accessed May 20, 2009)

1973 - OPEC Oil Embargo Against the U.S. Causes Gas Shortages and Rationing

“During the October 1973 Arab-Israeli War, the Arab members of the Organization of Petroleum Exporting Countries (OPEC) announced an embargo against the United States in response to the U.S. decision to re-supply the Israeli military during the war. Arab oil producers also extended the embargo to other countries that supported Israel. The embargo both banned petroleum exports to the targeted nations and introduced cuts in oil production. Several years of negotiations between oil producing nations and oil companies had already destabilized a decades-old system of oil pricing, and thus the Arab oil embargo was particularly effective.

Implementation of the embargo, and the changing nature of oil contracts, set off an upward spiral in oil prices that had global implications. The price of oil per barrel doubled, then quadrupled, leading to increased costs for consumers world-wide and to the potential for budgetary collapse in less stable economies. Since the embargo coincided with a devaluation of the dollar, a global recession appeared imminent. U.S. allies in Europe and Japan had stockpiled oil supplies and thus had a short term cushion, but the longer term possibility of high oil prices and recession created a strong rift within the Atlantic alliance. European nations and Japan sought to disassociate themselves from the U.S. Middle East policy. The United States, which faced growing oil consumption and dwindling domestic reserves and was more reliant on imported oil than ever before, had to negotiate an end to the embargo from a weaker international position.”

Due to gasoline shortages, Oregon and many other states impose gasoline rationing. “[O]fficials in Massachusetts, Maryland, New Jersey, Washington, B.C., Bade County, Fla., and other areas…adopted Oregon-type rationing schemes that will allow motorists with even-numbered license plates to buy gas on even-numbered dates, and those with odd-numbered plates to buy on odd-numbered dates. Some states have begun requiring a $3 minimum purchase.”

—“Gas Fever: Happiness Is a Full Tank,” Feb. 18, 1974

—U.S. Department of State, “Second Arab Oil Embargo, 1973-1974,” state.gov (accessed May 29, 2009)

Nov. 16, 1973 - Trans-Alaska Pipeline Authorization Act of 1973 Passed to Increase Domestic Oil Supplies in Wake of Oil Embargo

“After the discovery of a large oil field in Prudhoe Bay, Alaska in 1968, U.S. Congress decided to construct a pipeline transversing Alaska as a means of transporting the oil to the nearest ice-free port at Valdez, Alaska. Congress passed the Trans-Alaska Pipeline Authorization Act in 1973 as an authorization for the building of the Trans-Alaska Pipeline System (TAPS). Many environmentalists protested the construction, concerned about the effects that the pipeline would have on the surrounding environment, as well as the potential risk of an accident that could devastate the region.

In 1972, before the Act went to Congress, the Secretary of the Interior released an Environmental Impact Statement (EIS) stressing the importance of minimizing the nation’s dependence on foreign oil. The Arab oil embargo of 1973, which occurred immediately prior to the vote of Congress, reinforced this perception and positively swayed public opinion towards expansion of the domestic oil market.”

—“Trans-Alaska Pipeline Authorization Act of 1973, United States,” eoearth.org (accessed May 28, 2009)

—Trans-Alaska Pipeline Authorization Act, Nov. 16, 1973

Oct. 11, 1974 - Congress Creates the U.S. Nuclear Regulatory Commission to Replace the Atomic Energy Commission

“By 1974, the AEC’s [Atomic Energy Commission] regulatory programs had come under such strong attack that Congress decided to abolish the agency. Supporters and critics of nuclear power agreed that the promotional and regulatory duties of the AEC should be assigned to different agencies. The Energy Reorganization Act of 1974 created the Nuclear Regulatory Commission [NRC]; it began operations on January 19, 1975.

The NRC (like the AEC before it) focused its attention on several broad issues that were essential to protecting public health and safety.”

—“Our History,” nrc.gov (accessed May 19, 2009)

—Energy Reorganization Act, Oct. 11, 1974

1975 - Federal Involvement in Wind Energy Development Advances Wind Energy Technology

“From the mid 1970’s through the mid 1980’s the United States government worked with industry to advance the technology and enable large commercial wind turbines. This effort was led by NASA [National Aeronautics and Space Administration] at the Lewis Research Center in Cleveland, Ohio and was an extraordinarily successful government research and development activity. With funding from the National Science Foundation and later the Department of Energy (DOE), a total of 13 experimental wind turbines were put into operation including four major wind turbine designs. This research and development program pioneered many of the multi-megawatt turbine technologies in use today, including: steel tube towers, variable-speed generators, composite blade materials, partial-span pitch control, as well as aerodynamic, structural, and acoustic engineering design capabilities. The large wind turbines developed under this effort set several world records for diameter and power output. The Mod-2 wind turbine cluster produced a total of 7.5 megawatts of power in 1981.”

—“History of Wind Power,” nebraskawindandsolar.com (accessed June 3, 2009)

1975 - Corporate Average Fuel Economy (CAFE) Standards Set by the Energy Policy Conservation Act

“The ‘Energy Policy Conservation Act,’ enacted into law by Congress in 1975, added Title V, ‘Improving Automotive Efficiency,’ to the Motor Vehicle Information and Cost Savings Act and established CAFE standards for passenger cars and light trucks. The Act was passed in response to the 1973-74 Arab oil embargo. The near-term goal was to double new car fuel economy by model year 1985….

To meet the goal of doubling the 1974 passenger car fuel economy average by 1985 (to 27.5 mpg), Congress set fuel economy standards for some of the intervening years. Passenger car standards were established for MY [model year] 1978 (18 mpg); MY 1979 (19 mpg); MY 1980 (20 mpg); and for MY 1985 and thereafter (27.5 mpg). Congress left the level of 1981-84 standards to the Department to establish administratively. Subsequently, standards of 22, 24, 26, and 27 mpg were established. For the post-1985 period, Congress provided for the continued application of the 27.5 mpg standard for passenger cars, but gave the Department the authority to set higher or lower standards. From MY 1986 through 1989, the passenger car standards were lowered. Thereafter, in MY 1990, the passenger car standard was amended to 27.5 mpg, which it has remained at this level.”

“CAFE Overview - Frequently Asked Questions,” nhtsa.dot.gov (accessed July 22, 2009)

Dec. 22, 1975 - Formation of the Strategic Petroleum Reserve; President Gerald Ford Signs into Law the Energy Policy and Conservation Act

“President Gerald R. Ford (tenure: 1974-1977) in December 1975 established the Strategic Petroleum Reserve (SPR) by signing into law the Energy Policy and Conservation Act (EPCA, Public Law 94-163) passed by the 94th US Congress. The purpose of the law was ‘to reduce the impact of severe energy supply interruptions’ such as a repetition of the economic dislocation cause by the 1973-1974 oil embargo by the Organization of Petroleum Exporting Countries (OPEC)….

The Strategic Petroleum Reserve (SPR) was a revolutionary idea in 1974. The new Department of Energy assumed management of the operations of the SPR in 1977 under President Jimmy Carter’s Administration. ‘It was generally believed that the mere existence of a large, operational reserve of crude oil would deter future oil cutoffs and would discourage the use of oil as a weapon. In the event of an interruption, introduction into the market of oil from the SPR was expected to help calm markets, mitigate sharp price spikes, and reduce the economic dislocation that had accompanied the 1973 disruption.”

—“Strategic Petroleum Reserve: A Remarkable US Asset,” semp.us (accessed May 29, 2009)

1977 - Formation of the Solar Energy Research Institute

In 1977 the U.S. Department of Energy launches the Solar Energy Research Institute in Golden, Colorado, the first federal facility dedicated to harnessing power from the Sun. In 1991 it was designated as a national laboratory by the U.S. Department of Energy and renamed the National Renewable Energy Laboratory.

The National Renewable Energy Laboratory is considered the “nation’s primary laboratory for renewable energy and energy efficiency research and development (R&D).”

—“Overview,” nrel.gov (accessed June 3, 2009)

Apr. 18, 1977 - President Jimmy Carter Delivers Energy Speech Arguing for Conservation and Alternative Fuels

“Tonight I want to have an unpleasant talk with you about a problem unprecedented in our history. With the exception of preventing war, this is the greatest challenge our country will face during our lifetimes. The energy crisis has not yet overwhelmed us, but it will if we do not act quickly….

This difficult effort will be the ‘moral equivalent of war’….

The oil and natural gas we rely on for 75 percent of our energy are running out. In spite of increased effort, domestic production has been dropping steadily at about six percent a year. Imports have doubled in the last five years. Our nation’s independence of economic and political action is becoming increasingly constrained. Unless profound changes are made to lower oil consumption, we now believe that early in the 1980s the world will be demanding more oil that it can produce….

Because we are now running out of gas and oil, we must prepare quickly for a third change, to strict conservation and to the use of coal and permanent renewable energy sources, like solar power….

If we fail to act soon, we will face an economic, social and political crisis that will threaten our free institutions.”

—Jimmy Carter, “The President’s Proposed Energy Policy,” Apr. 18, 1977

Aug. 3, 1977 - Federal Surface Mining Control Act Signed to Lessen Environmental Impacts of Surface Coal Mining

“The Surface Mining Control and Reclamation Act (SMCRA) was enacted in 1977 after the US Congress recognized the need to regulate mining activity, rehabilitate abandoned mines, and protect society and the environment from the adverse effects of mining operations.

Before 1977, surface coal mining landowners had abandoned 1.1 million coal mine sites in the United States.

The SMCRA directed owners of coal mines to contribute bonds for land rehabilitation and environmental damages caused by mining activities….The SMCRA did not prohibit mountaintop coal mining, an activity that steadily increased after 1977.”

—“Surface Mining Control and Reclamation Act of 1977, United States,” eoearth.org, Nov. 15, 2007

—Surface Mining Control and Reclamation Act, Aug. 3, 1977

Aug. 4, 1977 - Department of Energy Organization Act Is Signed, Creating the U.S. Department of Energy

“In 1977, with the Nation facing its most severe winter in decades, natural gas shortages caused thousands of factory and school closings and threatened cutoffs to residential customers. More unrest was also taking place in the Middle East, now the world’s dominant supplier of crude oil. Islamic fundamentalism was on the rise in Iran and elsewhere, and within two years, the Shah of Iran, one of the world’s most prolific exporters of crude oil, would be overthrown.

The rapidly escalating global energy issues convinced the U.S. Government that a sharper focus should be applied to federal energy programs. On August 4, 1977, President Carter signed the Department of Energy Organization Act, consolidating more than 30 separate energy functions carried out by various government agencies, including ERDA [Energy Research and Development Administration]. On October 1, 1977, the U.S. Department of Energy activated.”

—“Fossil Energy: Our History,” fossil.energy.gov (accessed May 7, 2009)

1978 - World’s First Solar Powered Village: Tohono O’odham Reservation, Arizona

“NASA’s Lewis Research Center (now NASA Glenn) dedicated a solar power system that it installed on the Papago [Tonono O’odham] Indian Reservation in Schuchuli, Ariz. It was the world’s first solar-powered village. The system provided power for water pumping and residential electricity to 15 homes until 1983, when grid power reached the village. At that time, engineers hooked up the homes to the grid, and the solar system began pumping water from a community well.”

—“Exploration,” nasa.gov (accessed July 21, 2009)

Editors’ Note: Soldier’s Grove, Wisconsin, also considers itself America’s first solar village. By 1982 50% of the community’s heating was solar power generated.

Nov. 4, 1978 - Solar Photovoltaic Energy Research, Development, and Demonstration Act of 1978

“I am signing today H.R. 12874, the Solar Photovoltaic Energy Research, Development, and Demonstration Act of 1978, a bill that authorizes an aggressive program of research, development, and demonstration of solar photovoltaic energy technologies.

The bill’s long-term goal is to make electricity from photovoltaic systems economically competitive with electricity from conventional sources….

It is still too early to concentrate on commercialization of photovoltaics. Photovoltaic systems hold great promise, but in the short run we must emphasize research and development, including fundamental work on the physical properties of these systems….

Therefore, I will not propose to the Congress that a broad Federal solar photovoltaic purchase program tied to the specific goals of this act be undertaken soon. Rather, consistent with congressional intent, we will focus on research and development that will accelerate cost reductions. We will also continue, where appropriate, small, carefully targeted photovoltaic purchases to meet technical objectives. This approach should lay a firm foundation for the advancement of solar power from photovoltaics in the future.”

—“Solar Photovoltaic Energy Research, Development, and Demonstration Act of 1978 Statement on Signing H.R. 12874 into Law,” presidency.ucsb.edu, Nov. 4, 1978

Mar. 28, 1979 - Three Mile Island Nuclear Accident in Pennsylvania Creates Widespread Public Opposition to Nuclear Power

“On March 28, 1979, an accident at one of the reactors at Three Mile Island near Middletown, in Pennsylvania, closed the era of rosy optimism about nuclear power. The accident began when the coolant flow stopped, various mechanisms malfunctioned, and the operators lost control of what was happening. There was enough uncontrolled radioactivity to make heat for explosions and a meltdown. The interaction of melting metals (including 50 percent of the core) and the coolant steam produced something unforeseen: a large hydrogen bubble. It could have exploded, conceivably splitting the containment dome and spreading radioactive dust over considerable areas of the thickly populated East Coast of the United States; but it didn’t. Some radioactive materials escaped into the atmosphere, but most stayed put. There were no immediate casualties or, according to careful investigations years later, any in the long run. Thousands of people in the vicinity of the reactor were evacuated. The cleanup took years and cost millions of dollars.

Opposition to nuclear power soon became nearly as widespread as opposition to nuclear bombs.”

Children of the Sun: A History of Humanity’s Unappeasable Appetite for Energy, 2006

Dec. 1980 - World’s First Wind Farm Built in New Hampshire

“In December 1980, U.S. Windpower installed the world’s first wind farm, consisting of 20 wind turbines rated at 30 kilowatts each, on the shoulder of Crotched Mountain in southern New Hampshire. Like many firsts, it was a failure: The developer overestimated the wind resource, and the turbines frequently broke. U.S. Windpower, which later changed its name to Kenetech, subsequently developed wind farms in California, and after experiencing machine failure there too, improved its designs and became the world’s largest turbine manufacturer and wind farm developer before succumbing to the weight of aggressive development efforts, serious technical problems with its newest turbines, and a weak U.S. market, ultimately filing for bankruptcy in 1996.”

—“Historic Wind Development in New England: The Age of PURPA Spawns the Wind Farm” eere.energy.gov (accessed May 29, 2009)

1981 - Solar One: First Large Scale Solar-Thermal Power Plant Begins Operation in Daggett, California

“Solar One began the first test of a large-scale thermal solar tower, power plant. Solar One was designed by the Department of Energy (DOE), Southern California Edison, Los Angeles Department of Water and Power, and the California Energy Commission. It was located in Daggett, California, which is about 10 miles east of Barstow.

Solar One’s method of collecting power was based on concentrating the sun’s energy to produce heat and run a generator. A total of 1818 mirrors, or heliostats, would track the sun across the sky and reflect the sun’s light to the top of a large tower. A black-colored receiver, on top of the tower, transferred the heat to an oil heat-transfer fluid. The heated oil was then used to boil water, which turned turbines and generators. Solar One produced 10 MW [megawatts] of electricity. It was completed in 1981 and produced power from 1982 to 1986.”

—“A Short History of Solar Energy and Solar Energy in California,” gosolarcalifornia.org (accessed June 3, 2009)

1981 - Construction Begins on the World’s Largest Wind Farm in California’s Altamont Pass; Bird Deaths from Wind Turbines Number in the Thousands

“[Altamont Pass]…in Northern California, is home to one of the oldest wind farms in the U.S. and the largest concentration of wind turbines in the world. Altamont Pass is located one hour east of San Francisco, California and serves as a temperature buffer for the city by separating it from the heat of the San Joaquin Valley. Altamont Pass wind farm construction began in 1981 in response to favorable federal and state legislation that resulted from the energy price increases of the 1970s.

The Altamont wind farm consists of about 4,800 small wind turbines with a capacity of 576 megawatts (MW) annual generation of about 1.1 terawatt-hours (TWh) of electricity. The Altamont wind resource area is one of three primary regions, the others being Tehachapi and San Gorgonio [California].”

“Every year, an estimated 75 to 110 Golden Eagles are killed by the wind turbines in the Altamont Pass Wind Resource Area (APWRA). Some lose their wings, others are decapitated, and still others are cut in half. The lethal turbines, numbering roughly 6,000, are arrayed across 50,000 acres of rolling hills in northeastern Alameda and southeastern Contra Costa counties….

[A]s many as 380 Burrowing Owls (also a state-designated species of special concern), 300 Red-tailed Hawks, and 333 American Kestrels are killed every year. In all, as many as 4,700 birds die annually as a result of the wind turbines.”

—Melissa Lowitz, “Altamont Pass, California,” eoearth.org, Mar. 25, 2008

—“Avian Mortality at Altamont Pass,” goldengateaudubon.org (accessed June 3, 2009)

1982 - First Complete Decontamination and Decommissioning of a Nuclear Reactor in the U.S.

“The Shippingport nuclear power plant [the nation’s first commercial nuclear power plant] was retired in 1982. Congress assigned the decontamination and decommissioning of this commercial reactor to DOE [Department of Energy]. This was the first complete decontamination and decommissioning of a reactor in the United States. The reactor vessel was shipped to a low-level waste disposal facility at the Hanford Site in Richland, Washington. The reactor site was cleaned and released for unrestricted use in November 1987. Government officials proclaimed the seven-acre site is suitable for picnicking or for a children’s playground.”

—“Shippingport Nuclear Power Plant,” fas.org (accessed May 27, 2009)

Apr. 26, 1986 - Largest Nuclear Accident Ever Takes Place at Chernobyl in the Former Soviet Union

“On April 26, 1986, an accident occurred at Unit 4 of the nuclear power station at Chernobyl, Ukraine, in the former USSR. The accident, caused by a sudden surge of power, destroyed the reactor and released massive amounts of radioactive material into the environment….The Chernobyl accident caused many severe radiation effects almost immediately. Among the approximately 600 workers present on the site at the time of the accident, 2 died within hours of the reactor explosion and 134 received high radiation doses and suffered from acute radiation sickness. Of these, twenty eight workers died in the first four months after the accident. Another 200,000 recovery workers involved in the initial cleanup work of 1986-1987 received doses of between 0.01 and 0.50 Gy [gray, a measurement of absorbed radiation]. The number of workers involved in cleanup activities at Chernobyl rose to 600,000, although only a small fraction of these workers were exposed to dangerous levels of radiation. Both groups of cleanup and recovery workers may become ill because of their radiation exposure, so their health is being monitored. The Chernobyl accident also resulted in widespread contamination in areas of Belarus, the Russian Federation, and Ukraine inhabited by millions of residents.”

—“Backgrounder on Chernobyl Nuclear Power Plant Accident,” nrc.gov, Apr. 30, 2009

Mar. 24, 1989 - Exxon Valdez Disaster in Alaska Becomes the Largest Oil Spill in U.S. Waters

“Early in the morning on Good Friday, March 24, 1989, the Exxon Valdez struck Bligh Reef in Prince William Sound. The grounding ripped the bottom of the single-hulled vessel, resulting in the rupture of 11 of the vessel’s crude oil tanks and the release of nearly 11 million gallons of crude oil into the environment. It was, and still is, the largest oil spill in United States waters….[Two days later] on the evening of March 26, a severe winter storm blew into the Sound. The oil slick went from a relatively compact mass to a widely dispersed collection of patches and streaks, and response vessels were forced to run for shelter in the face of the storm. The oil soon hit the beaches in hundreds of places [across 1,300 miles of coastline], overwhelming any efforts to stop it….Over the next five-and-a-half months the cleanup operations grew exponentially, ultimately becoming the largest private project in Alaska since construction of the Trans-Alaska Pipeline. At one point more than 11,000 people were working on cleanup….An estimated 250,000 seabirds were killed by oil in the weeks and months following the spill….Carcasses recovered after the spill [also] included: 1,000 sea otters, 151 bald eagles, 838 cormorants, 1,100 marbled murrelets, and over 33,189 other birds.” In a criminal plea agreement, Exxon Corporation was fined $150 million—the largest fine ever imposed for an environmental crime. In addition Exxon also paid $100 million in criminal restitution for injuries caused as well as $900 million in civil penalties to be used for habitat restoration.

—“Legacy of an Oil Spill: 20 Years after Exxon Valdez,” evostc.state.ak.us, Mar. 24, 2009

Jan. 23, 1990 - Congress Passes Act to Stimulate Development of Hydrogen Power

The U.S. Congress passes the Spark M. Matsunaga Hydrogen Research, Development, and Demonstration Program Act of 1990 “to accelerate efforts to develop a domestic capability to economically produce hydrogen in quantities that will make a significant contribution toward reducing the Nation’s dependence on conventional fuels.” The purposes of the Act were to develop “a comprehensive 5-year comprehensive program management plan that will identify and resolve critical technical issues necessary for the realization of a domestic capability to produce, distribute, and use hydrogen economically within the shortest time practicable; to direct the Secretary to develop a technology assessment and information transfer program among the Federal agencies and aerospace, transportation, energy, and other entities; and to develop renewable energy resources as a primary source of energy for the production of hydrogen.”

—Spark M. Matsunaga, “Hydrogen Research, Development, and Demonstration Program Act of 1990,” Jan. 23, 1990

1994 - U.S. Begins Importing More Petroleum Than It Produces

For the first time in its history, the United States imports more petroleum than it produces.

—“History of Energy in the United States: 1635-2000,” eia.doe.gov (accessed May 20, 2009)

Apr. 1996 - Solar Two Plant Demonstrates Low-Cost Method of Storing Solar Energy

Beginning operations in Apr. 1996, the “10-megawatt Solar Two power tower pilot plant near Barstow, California, successfully completed operations in April 1999, having met essentially all of its objectives. It demonstrated the ability to collect and store solar energy efficiently and to generate electricity when needed by the utility and its customers….

Solar Two was conceived and built on the site of its predecessor, Solar One, by a consortium of U.S. utilities and industry and the Department of Energy (DOE). Over its three years of operation, Solar Two achieved its overall goal of demonstrating advanced molten-salt power tower technology developed over the past decade at a scale sufficient to allow follow-on commercialization of the technology. Plant operations successfully proved that solar energy could be collected efficiently over a broad range of operating conditions and that the low-cost energy storage system operated reliably and efficiently. This unique storage capability allowed solar energy to be collected when the sun was shining and high-value, dispatchable electric power to be generated at night or whenever demanded by the utility, even when the sun was not shining.”

—“Solar Two Demonstrates Clean Power for the Future,” energylan.sandia.gov (accessed June 3, 2009)

Oct. 9, 1996 - Hydrogen Future Act of 1996 Is Passed to Further Expand Hydrogen Power Development

“The Hydrogen Future Act of 1996 expanded the research, and development, and demonstration program under the Matsunaga Act. It authorized activities leading to production, storage, transformation, and use of hydrogen for industrial, residential, transportation, and utility applications….

The long-term vision for hydrogen energy is that sometime well into 21st century, hydrogen will join electricity as one of our Nation’s primary energy carriers, and hydrogen will ultimately be produced from renewable sources. But fossil fuels will be a significant long-term transitional resource. In the next twenty years, increasing concerns about global climate changes and energy security concerns will help bring about penetration of hydrogen in several niche markets. The growth of fuel cell technology will allow the introduction of hydrogen in both transportation and electricity sectors.”

—“George E. Brown, Jr. Hydrogen Future Act,” akaka.senate.gov, Oct. 12, 2000

—Hydrogen Fuel Act, Oct. 9, 1996

1997 - EV1 Electric Car Is Made Available to the Public for Lease; Lease Program and EV1 Later Dismantled by GM

General Motors releases the EV1 to the public for lease to meet a 1990 California mandate that 2% of all cars sold in the state in 1998 be zero-emission vehicles. “A little over 1,000 EV1s were produced by G.M. before the company pulled the plug on the project in 2002 due to insufficient demand. Other major car makers also ceased production of their electric vehicles. In the wake of a legal challenge from G.M. and DaimlerChrysler, California amended its regulations and abandoned its [zero-emission] goals. Shortly thereafter, automakers began reclaiming and dismantling their electrics as they came off lease.”

—“Who Killed the Electric Car?,” pbs.org (accessed July 27, 2009)

2000–present

Feb. 2003 - President George W. Bush Unveils the Hydrogen Fuel Initiative to Promote Hydrogen Fuel Cell Development

“[T]he Hydrogen Fuel Initiative (HFI) increased federal funding for hydrogen and fuel cell research, development, and demonstration (RD&D) to $1.2 billion over five years. With this increase in funding, the HFI accelerated the pace of RD&D efforts focused on achieving specific targets that would enable hydrogen and fuel cell technology readiness in the 2015 timeframe.”

In support of the Hydrogen Fuel Initiative, President George W. Bush stated, “Hydrogen fuel cells represent one of the most encouraging, innovative technologies of our era…let us promote hydrogen fuel cells as a way to advance into the 21st century.…

If we develop hydrogen power to its full potential, we can reduce our demand for oil by over 11 million barrels per day by the year 2040.…

So I’m asking Congress to spend $1.2 billion on a new national commitment to take hydrogen fuel cell cars from the laboratory to the showroom.…

Imagine a world in which our cars are driven by hydrogen and our homes are heated by electricity from a fusion power plant. It’ll be a totally different world than what we’re used to. The quality of life will be advanced. And people will say, gosh, I’m glad those folks went to Washington and were willing to think beyond the current.”

—United States Department of Energy, “Hydrogen Fuel Initiative,” hydrogen.energy.gov (accessed June 4, 2009)

—“Hydrogen Fuel Initiative Can Make ‘Fundamental Difference,’ ” georgewbush-whitehouse.archives.gov, Feb. 6, 2003

Feb. 27, 2003 - Plans Announced to Build FutureGen, the World’s First Zero-Emissions Coal Power Plant

“On February 27, 2003, the President [George W. Bush] announced FutureGen as a cost-shared project between DOE [Department of Energy] and industry to create the world’s first coal-fired, zero emissions electricity and hydrogen production power plant. The production of hydrogen was to support the President’s Hydrogen Fuel Initiative to create a hydrogen economy for transportation. The original FutureGen plant was planned to operate at a commercial scale as a 275 megawatt IGCC [Integrated Gasification Combined Cycle] facility that would capture and store at least 1 million metric tons of CO2 per year.”

—“Clean Coal: DOE’s Decision to Restructure FutureGen Should Be Based on a Comprehensive Analysis of Costs, Benefits, and Risks,” gao.gov, Feb. 2009

Editors’ Note: On Jan. 30, 2008, U.S. Secretary of Energy Samuel W. Bodman announced a “restructured” approach to the FutureGen project that focused on carbon capture and storage technology and excluded hydrogen production as part of the project.

—United States Department of Energy, “DOE Announces Restructured FutureGen Approach to Demonstrate CCS Technology at Multiple Clean Coal Plants,” energy.gov, Jan. 30, 2008

Nov. 9, 2005 - U.S. House Prevents Drilling for Oil in the Arctic National Wildlife Refuge

“Both the U.S. House and Senate budget bills included a provision that would allow for oil drilling in a small fraction of the Arctic National Wildlife Refuge. The Senate passed its budget bill last week, but leaders in the House dropped the ANWR provision late November 9 after a small group of moderate Republicans threatened to withhold support for the budget if ANWR were included.…

One of the moderates, Rep. Charlie Bass (R-NH), wrote a letter opposing ANWR drilling that was signed by at least 24 of his Republican colleagues and delivered to House Rules Committee Chairman David Drier…Rep. Bass’ objection to drilling is largely philosophical: ‘Including the drilling provision in the Deficit Reduction Act would undermine the protection of all public spaces by valuing the worth of the potential resources contained within these lands over their conservation value…Rather then reversing decades of protection for this publicly held land, focusing greater attention on renewable energy sources, alternate fuels, and more efficient systems and appliances would yield more net energy savings.’ ”

—“Small Group of House Republicans Derails ANWR Drilling,” nationalcenter.org, Nov. 10, 2005

Nov. 17, 2007 - IPCC Report Concludes Climate Change Is Happening and Is Mostly Human Caused

The Intergovernmental Panel on Climate Change (IPCC) releases its “Climate Change 2007: Synthesis Report,” the fourth and final volume of its Fourth Assessment Report (AR4) on global climate change. “This Synthesis Report (SYR), adopted in Valencia, Spain, on 17 November 2007, completes the four-volume Fourth Assessment Report (AR4), which was released in various steps throughout the year under the title ‘Climate Change 2007’.…[The report] confirms that climate change is occurring now, mostly as a result of human activities; it illustrates the impacts of global warming already under way and to be expected in future, and describes the potential for adaptation of society to reduce its vulnerability; finally it presents an analysis of costs, policies and technologies intended to limit the extent of future changes in the climate system. The AR4…[report involved] more than 500 Lead Authors and 2000 Expert Reviewers, building on the work of a wide scientific community and submitted to the scrutiny of delegates from more than one hundred participating nations.”

—Michel Jarrud and Achim Steiner, “Climate Change 2007: Synthesis Report. Contribution of Working Groups I, II and III to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change,” Nov. 17, 2007

Feb. 2008 - First Commercial Cellulosic Ethanol Plant Goes into Production in Wyoming

In Feb. 2008 the first commercial scale cellulosic ethanol plant goes into production. The plant is “the first small scale waste wood commercial facility operating in the US….The current production facility is utilizing soft woods, but successful test runs have occurred making use of waste materials such as cardboard and paper.”

—“Cellulosic Ethanol a Reality: First American Plant in Production,” Feb. 7, 2008

Oct. 7, 2008 - National Biofuel Action Plan Unveiled

“Department of Agriculture (USDA) Secretary Ed Schafer and Department of Energy (DOE) Secretary Samuel W. Bodman today released the National Biofuels Action Plan (NBAP), an interagency plan detailing the collaborative efforts of Federal agencies to accelerate the development of a sustainable biofuels industry….The NBAP was developed in response to President Bush’s plans to change the way America fuels its transportation fleets….The President’s ‘Twenty In Ten’ goal calls for cutting U.S. gasoline consumption by 20 percent over the next 10 years by investing in renewable and alternative fuel sources, increasing vehicle efficiency and developing alternative fuel vehicles….Interagency working groups have been chartered with near term deadlines to deliver such key results as: the development of science-based sustainability criteria and indicators, 10-year R&D forecasts for research to develop cost-effective methods of producing cellulosic biofuels from non-food based feedstock, to advance these next generation biofuels to commercialization, and recommendations on infrastructure issues. DOE has dedicated more than $1 billion to research, development, and demonstration of cellulosic biofuels technology through 2009.”

—“USDA & DOE Release National Biofuels Action Plan,” energy.gov, Oct. 7, 2008

—National Biofuels Action Plan, Oct. 2008

Dec. 22, 2008 - Worst Coal Ash Spill in U.S. History in Kingston, Tennessee

“In the early morning hours of December 22, 2008, the earthen wall of a containment pond at Tennessee’s Kingston Fossil Plant gave way. The breach released 1.3 million cubic meters (1.7 million cubic yards) of fly ash—a coal-combustion waste product captured and stored in wet form…The spill infiltrated the Emory River, buried some 120 hectares (300 acres) in sludge, and even knocked a nearby home completely off its foundation…A report released by the Tennessee Valley Authority stated that the plant’s byproducts included arsenic, lead, chromium, manganese, and barium.…Estimates of the time required to clean up the spill ranged from weeks to years.”

“Coal Ash Spill, Tennessee,” earthobservatory.nasa.gov (accessed July 22, 2009)

Feb. 17, 2009 - American Recovery and Reinvestment Act of 2009 Contains Billions of Dollars for Renewable Energy and Energy Efficiency Developments

The American Recovery and Reinvestment Act includes billions in energy investments, including grants and loan guarantees for renewable energy development, fossil-fuel development, energy efficiency programs, energy storage technology, and electric grid modernization.

Section H.R. 1-24 of the act allocates $16.8 billion to the Department of Energy for “energy efficiency and renewable energy” programs. Out of this $16.8 billion, $3.5 billion will go to renewable energy projects such as wind, solar, geothermal, and biofuels development. $11.3 billion will go to energy efficiency and conservation programs, and $2 billion will go to advanced battery development.

Section H.R. 1-24 also contains $4.5 billion for modernizing the electrical grid and an additional $6 billion is allocated to loan guarantees for renewable energy and energy transmission, carbon capture and storage technology, and other greenhouse gas reduction technologies.

The section also contains $3.4 billion for fossil energy research and development.

In support of the American Recovery and Reinvestment Act of 2009, President Barack Obama stated, “[W]e are taking big steps down the road to energy independence, laying the groundwork for new green energy economies that can create countless well-paying jobs. It’s an investment that will double the amount of renewable energy produced over the next three years.…

[W]e will transform the way we use energy. Today, the electricity we use is carried along a grid of lines and wires that date back to Thomas Edison—a grid that can’t support the demands of this economy. This means we’re using 19th and 20th century technologies to battle 21st century problems like climate change and energy security….

The investment we’re making today will create a newer, smarter electric grid that will allow for broader use of alternative energy.”

—“Remarks by the President and Vice President at Signing of the American Recovery and Reinvestment Act of 2009,” whitehouse.gov, Feb. 17, 2009

—“American Recovery and Reinvestment Act of 2009,” Feb. 17, 2009

Apr. 22, 2009 - First Framework for Wind Energy Development on the U.S. Outer Continental Shelf Announced

“President Barack Obama announced that the Department of the Interior has finalized a long-awaited framework for renewable energy production on the U.S. Outer Continental Shelf (OCS). The framework establishes a program to grant leases, easements, and rights-of-way for orderly, safe, and environmentally responsible renewable energy development activities, such as the sitting and construction of off-shore wind farms, on the OCS….

In addition to establishing a process for granting leases, easements, and rights-of-way for offshore renewable energy development, the new program also establishes methods for sharing revenues generated from OCS renewable energy projects with adjacent coastal States. Additionally the framework will enhance partnerships with Federal, state, and local agencies and tribal governments to assist in maximizing the economic and ecological benefits of OCS renewable energy development….

The Energy Policy Act of 2005 granted the Interior Department’s Minerals Management Service (MMS) the authority to regulate renewable energy development on the OCS, but no action had been taken under that authority until today.”

—“President Obama, Secretary Salazar Announce Framework for Renewable Energy Development on the U.S. Outer Continental Shelf,” mms.gov, Apr. 22, 2009

May 5, 2009 - President Barack Obama Issues Presidential Directive to USDA to Expand Access to Biofuels; $786.5 Million in Biofuels Funding Announced

“President Obama issued a presidential directive today to Secretary Vilsack to aggressively accelerate the investment in and production of biofuels….

The Biofuels Interagency Working Group will develop the nation’s first comprehensive biofuels market development program. The increased collaboration between federal agencies will accelerate the production of and access to sustainable homegrown energy options by coordinating policies that impact the supply, secure transport, and distribution of biofuels, as well as identifying new policy options to improve the environmental sustainability of biofuels feedstock production.

The Biofuels Interagency Working Group [comprised of the USDA, EPA, and the DOE] will also work to develop policies to increase flexible fuel vehicle production and assist in retail marketing efforts while also taking into consideration land use, habitat conservation, crop management practices, water efficiency and water quality, and lifecycle assessments of greenhouse gas emissions.”

“As part of the ongoing effort to increase the use of domestic renewable fuels, U.S. Secretary of Energy Steven Chu today announced plans to provide $786.5 million from the American Recovery and Reinvestment Act to accelerate advanced biofuels research and development and to provide additional funding for commercial-scale biorefinery demonstration projects….The DOE biomass program will leverage DOE’s national laboratories, universities, and the private sector to help improve biofuels reliability and overcome key technical challenges, with the goal of creating third-generation biofuels like green gasoline, diesel, and jet fuels.”

—“Secretary Chu Announces Nearly $800 Million from Recovery Act to Accelerate Biofuels Research and Commercialization,” energy.gov, May 5, 2009

—U.S. Department of Agriculture, “President Obama Issues Presidential Directive to USDA to Expand Access to Biofuels,” usda.gov, May 5, 2009

May 27, 2009 - U.S. Announces $467 Million in Recovery Act Funding for Solar Energy and Geothermal Energy Development

“President Obama this week announced more than $467 million in available funding from the American Reinvestment and Recovery Act to expand and accelerate the development, deployment, and use of geothermal and solar energy throughout the United States….

The Recovery Act makes a $350 million new investment in…[geothermal] technology, dwarfing previous government commitments. Recovery Act funding will support projects in four crucial areas: geothermal demonstration projects; Enhanced Geothermal Systems (EGS) research and development; innovative exploration techniques; and a National Geothermal Data System, Resource Assessment and Classification System….

[In addition] DOE will provide $117.6 million in Recovery Act funding to accelerate widespread commercialization of clean solar energy technologies across America. These activities will leverage partnerships that include DOE’s national laboratories, universities, local government, and the private sector, to strengthen the U.S. solar industry and make it a leader in international markets.”

—“President Obama Announces over $467 Million in Recovery Act Funding for Geothermal and Solar Energy Projects,” energy.gov, May 27, 2009

Oct. 27, 2009 - U.S. Invests $3.4 Billion to Modernize Energy Grid

“President Barack Obama today announced the largest single energy grid modernization investment in U.S. history, funding a broad range of technologies that will spur the nation’s transition to a smarter, stronger, more efficient and reliable electric system. The end result will promote energy-saving choices for consumers, increase efficiency, and foster the growth of renewable energy sources like wind and solar.

The $3.4 billion in Smart Grid Investment Grant awards are part of the American Reinvestment and Recovery Act, and will be matched by industry funding for a total public-private investment worth over $8 billion.”

—“President Obama Announces $3.4 Billion Investment to Spur Transition to Smart Energy Grid,” energy.gov, Oct. 27, 2009

Apr. 20, 2010 - BP Oil Rig Explodes and Causes Largest Oil Spill in U.S. History

On Apr. 20, 2010, the British Petroleum (BP) Deepwater Horizon oil rig 52 miles off the coast of Louisiana in the Gulf of Mexico exploded, killing 11 crew members.

On Apr. 22 the drilling rig sank 5,000 feet to the ocean floor, causing a series of breaks in the oil pipeline. Initially, it was estimated by BP that about 1,000 barrels of oil a day were leaking into the Gulf of Mexico from the broken pipe.

On Apr. 28 the National Oceanic and Atmospheric Administration stated the pipe was leaking closer to 5,000 barrels a day into the Gulf.

By May 27 the U.S. Department of Interior’s Flow Rate Technical Group (a group set up to monitor the rate of oil leakage) stated that the well was actually leaking between 12,000–19,000 barrels a day.

Based upon these May 27 estimates, as much as 30 million gallons of oil had leaked into the Gulf, making the leak/spill the largest in U.S. history—nearly three times the amount spilled during the Exxon Valdez spill in 1989.

—“Estimates Suggest Spill Is Biggest in US History,” May, 27, 2010

Mar. 11, 2011 - Earthquake off Coast of Japan Damages Six Power Plants at Fukushima Daiichi; Nuclear Crisis Eventually Reaches Level 7, the Highest Level Possible

Mar. 11, 2011: “A magnitude-9.0 earthquake and tsunami hit Japan’s northeastern coast, knocking out power and swamping the backup diesel generators needed to cool the six reactors and spent fuel pools at the Fukushima Dai-ichi nuclear plant.”

Mar. 12, 2011: “Engineers scramble to prevent a nuclear meltdown. Some of the reactors begin to grow hotter with their cooling systems disabled. A hydrogen explosion rocks Unit 1, causing a radiation leak. Workers furiously pump seawater into the reactor’s core.”

Mar. 14, 2011: “Crisis depeens [sic] at Fukushima Dai-ichi. The pressure and heat continue to build in Unit 3, resulting in a hydrogen explosion that destroys the outer containment building. Fuel rods at Unit 2 are fully exposed to air twice, worrying officials. Workers pump seawater into the cores of Units 1, 2 and 3.”

Mar. 15, 2011: “Unit 2 becomes the new focal point as a hydrogen explosion occurs there and its suppression pool is damaged. Explosion and fires also plague Unit 4, and leak radiation into the atmosphere. The government evacuates residents from the 12-mile (20-kilometer) radius around the plant.”

Mar. 16, 2011: “Another fire at Unit 4 hinders efforts to get the reactors and spent fuel pools under control. Steam and smoke rise from Unit 3, due to evaporation of water in the spent fuel pool. Radiation levels surge. The U.S. government advises its citizens within 50 miles of the plant to evacuate.”

Mar. 30, 2011: “Japanese officials say seawater outside of the Fukushima Dai-ichi nuclear power plant contains more than 3,300 times the normal amount of radioactive iodine.”

Apr. 11, 2011: “Japan’s nuclear regulators raised the severity level of the crisis at a stricken nuclear plant Tuesday to rank it on par with the 1986 Chernobyl disaster, citing the amount of radiation released in the accident. The regulators said the rating was being raised from 5 to 7 - the highest level on an international scale overseen by the International Atomic Energy Agency.”

—“Timeline: A Nuclear Crisis Unfolds in Japan,” npr.org (accessed May 5, 2011)

Sep. 1, 2011 - Solar Power Company Solyndra Declares Bankruptcy after Receiving $528 Million in Federal Loan Guarantees

On Sep. 1, 2011, solar power company Solyndra declared bankruptcy.

The company had received $1 billion in private capital and $528 million in federal loan guarantees as part of President Obama’s stimulus plan under the American Reinvestment and Recovery Act.

Prior to its bankruptcy filing, Solyndra had reported sales growth of 40% from 2009 to 2010 and had been named as one of the worlds “50 Most Innovative Companies” by MIT’s Technology Review.

—“Key Facts: Solyndra Solar,” energy.gov (accessed Mar. 13, 2012)

Feb. 9, 2012 - U.S. Nuclear Regulatory Commission (NRC) Approves New Nuclear Power Plants for First Time Since 1978; Two New Reactors to Be Built in Georgia

On Feb. 9, 2012, the U.S. Nuclear Regulatory Commission (NRC) approved the first new nuclear power reactors to be built in the United States since 1978.

According to the NRC press release, “The Nuclear Regulatory Commission has concluded its mandatory hearing on Southern Nuclear Operating Company’s (SNC) application for two Combined Licenses (COL) at the Vogtle site in Georgia. In a 4-1 vote, the Commission found the staff’s review adequate to make the necessary regulatory safety and environmental findings, clearing the way for the NRC’s Office of New Reactors to issue the COLs.”

—“NRC Concludes Hearing on Vogtle New Reactors, First-Ever Combined Licenses to be Issued,” nrc.gov, Feb. 9, 2012

Mar. 27, 2012 - U.S. Environmental Protection Agency (EPA) Announces First Clean Air Act Standard for Carbon Pollution from New Power Plants

On Mar. 27, 2012, the U.S. Environmental Protection Agency (EPA) proposed the first Clean Air Act standard for carbon pollution from new power plants.

The rule applies to all new power plants that burn fossil fuel to create electricity including coal- and natural gas-fired power plants. The new rule proposes that new fossil-fuel power plants must meet an output-based standard of 1,000 pounds of CO2 per megawatt-hour.

According to the EPA, 95% of the new natural gas combined cycle power plants that have been built since 2005 already meet the standard.

According to the Los Angeles Times, “The newest natural-gas-fired power plants [as of 2012] emit about 800 pounds of carbon per megawatt hour, new coal plants, between 1,600 to about 1,900 pounds per megawatt hour.”

—“Obama Administration Sets Limits On Power Plant Emissions,” latimes.com, Mar. 27, 2012

—Environmental Protection Agency, “EPA FACT SHEET: Proposed Carbon Pollution Standard for New Power Plants,” epa.gov, Mar. 27, 2012

Apr. 17, 2012 - EPA Issues First Clean Air Rules for Natural Gas Produced by Fracking

On Apr. 17, 2012, the EPA issued the first federal rules on air pollution from wells that utilize hydraulic fracturing (also known as fracking) to produce natural gas.

“The final rules include the first federal air standards for natural gas wells that are hydraulically fractured, along with requirements for several other sources of pollution in the oil and gas industry that currently are not regulated at the federal level….

A key component of the final rules is expected to yield a nearly 95 percent reduction in VOCs [volatile organic compounds] emitted from more than 11,000 new hydraulically fractured gas wells each year….

[T]he reductions would yield a significant environmental co-benefit by reducing methane emissions from new and modified wells. Methane, the primary constituent of natural gas, is a potent greenhouse gas – more than 20 times as potent as carbon dioxide when emitted directly to the atmosphere….

Today’s final rules also would protect against potential cancer risks from emissions of several air toxics, including benzene.”

—“Overview of Final Amendments to Air Regulations for the Oil and Natural Gas Industry,” epa.gov, Apr. 17, 2012

June 25, 2013 - President Obama Releases His Climate Action Plan Including Increased Use of Renewable Energy and Carbon Pollution Restrictions for Power Plants

“President Obama is issuing a Presidential Memorandum directing the Environmental Protection Agency to work expeditiously to complete carbon pollution standards for both new and existing power plants….

In 2012 the President set a goal to issue permits for 10 gigawatts of renewables on public lands by the end of the year. The Department of the Interior achieved this goal ahead of schedule and the President has directed it to permit an additional 10 gigawatts by 2020….

The Administration is also taking steps to encourage the development of hydroelectric power at existing dams….

Also, the Department of Defense — the single largest consumer of energy in the United States — is committed to deploying 3 gigawatts of renewable energy on military installations, including solar, wind, biomass, and geothermal, by 2025. In addition, federal agencies are setting a new goal of reaching 100 megawatts of installed renewable capacity across the federally subsidized housing stock by 2020….

In the coming weeks, the Department of Energy will issue a Federal Register Notice announcing a draft of a solicitation that would make up to $8 billion in (self-pay) loan guarantee authority available for a wide array of advanced fossil energy projects…that can cost-effectively meet financial and policy goals, including the avoidance, reduction, or sequestration of anthropogenic emissions of greenhouse gases….

[T]he Administration is establishing a new goal: The federal government will consume 20 percent of its electricity from renewable sources by 2020 — more than double the current goal of 7.5 percent.”

—“The President’s Climate Action Plan: Executive Office of the President,” whitehouse.gov, June 25, 2013

—“Presidential Memorandum - Power Sector Carbon Pollution Standards,” whitehouse.gov, June 25, 2013

Sep. 20, 2013 - EPA Issues New Proposed Rule to Cut Greenhouse Gas Emissions from New Power Plants

“The Environmental Protection Agency’s second stab at a proposal to set the first-ever limits on greenhouse gas emissions from new power plants would make it impossible for companies to build the kind of coal-fired plants that have been the country’s biggest source of electricity for decades.

Under the proposal, released Friday, any new plant that runs on coal would only be permitted to emit about half as much carbon dioxide as an average coal plant puts into the air today….

The EPA proposal aims to help The White House to cut greenhouse gas emissions by attacking the largest single source in the United States: Power plants pump out 40 percent of the nation’s greenhouse gases.

The EPA’s new proposal sets a limit for future power plants of 1,000 pounds of carbon dioxide per megawatt-hour for large electricity generators that are powered by natural gas. And it sets a slightly higher limit of 1,100 pounds of CO2 per megawatt-hour for small natural gas generators and for coal-fired generators….The revised proposal comes after loud complaints from industry about the first version of the proposed rule, which was released 18 months ago.”

—“EPA Wants to Limit Greenhouse Gases from New Coal Power Plants,” npr.org, Sep. 20, 2013

—“Standards of Performance for Greenhouse Gas Emissions from New Stationary Sources: Electric Utility Generating Units,” epa.gov, Sep. 20, 2013

Editors’ Note: The original Mar. 27, 2012, proposed rule to limit greenhouse gases from power plants was withdrawn by the EPA and replaced with this current Sep. 20, 2013, proposal. There will be a 60-day comment period on this proposal. After that, the EPA has one year to finalize the rule.

Feb. 13, 2014 - Ivanpah, the World’s Largest Concentrated Solar Power Generation Plant, Goes Online

“As the largest concentrating solar power (CSP) plant in the world, Ivanpah harnesses the abundant sunlight of the Southwest United States to provide power on a massive scale. The facility has the capacity to generate 392 megawatts (MW) of clean electricity - enough to power 94,400 average American homes. Most of the power generated by the system will be sold under long-term power purchase agreements to Pacific Gas & Electric and Southern California Edison Company….

Ivanpah significantly expands the use of CSP technologies within the United States. Its innovative power-tower technology utilizes a field of mirrors called heliostats to track the sun and focus sunlight onto boilers that sit atop 459-foot tall towers. When the sunlight hits the boiler, it heats the water inside to create superheated steam used to spin an electricity-generating turbine.”

—“Celebrating the Completion of the World’s Largest Concentrating Solar Power Plant,” energy.gov, Feb. 13, 2014

Editors’ Note: In Apr. 2014 the U.S. Fish and Wildlife Service released a report on bird deaths at the new Ivanpah concentrated solar power plant and two other plants. They found that Ivanpah “may act as a ‘mega-trap,’ attracting insects, which in turn attract insect-eating birds, which are incapacitated by solar flux injury.” While researching the report, staff observed birds entering the area of concentrated light (the solar flux) and igniting. During the study period, July 2012 to Dec. 2013, the remains of 141 birds were studied. At that time, Ivanpah was not yet fully operational and was running at 33% capacity.

May 9, 2014 - President Obama Announces Solar Power Commitments and Executive Actions

“Today, President Obama announced more than 300 private and public sector commitments to create jobs and cut carbon pollution by advancing solar deployment and energy efficiency. The commitments represent more than 850 megawatts of solar deployed – enough to power nearly 130,000 homes.”

“President Barack Obama announced steps on Friday to increase the use of solar panels, boost energy efficiency in federal buildings and train more people to work in the renewable energy field….

Wal-Mart Stores Inc, Apple Inc, Yahoo Inc, Google Inc and Ikea were among the companies that have made such commitments….

Obama said an additional $2 billion would be devoted to energy efficiency upgrades to federal government buildings over the next three years.

Several financial institutions, including Citigroup Inc and Goldman Sachs Group Inc, were announcing new plans for ‘large scale investment and innovative programs’ to develop solar and renewable energy installations….

Obama’s executive actions would [also] support efforts at community colleges so that 50,000 workers would join the solar industry by 2020.”

—“With Corporate Help, Obama Announces Actions on Renewable Energy,” reuters.com, May 9, 2014

—“FACT SHEET: President Obama Announces Commitments and Executive Actions to Advance Solar Deployment and Energy Efficiency,” whitehouse.gov, May 9, 2014

June 2, 2014 - EPA Proposes First Rules to Reduce Carbon Emissions from Existing Power Plants

“The Environmental Protection Agency on Monday [June 2] proposed a rule designed to cut carbon dioxide emissions from existing coal plants by as much as 30 percent by 2030, compared with 2005 levels….

Existing power plants are the largest source of the nation’s carbon dioxide emissions, accounting for 38 percent. (The transportation sector comes in second, at 32 percent.) Much of this pollution stems from aging, coal-fired power plants….

Renewable-energy producers from the solar and wind sector stand to benefit from the regulation because it would provide utilities with a greater incentive to invest in carbon-free electricity sources.

By contrast, the coal industry and its allies — including lawmakers from West Virginia, North Dakota and other states — oppose the proposal. So do many business groups, such as the U.S. Chamber of Commerce and the National Association of Manufacturers, which have argued that the rule would boost electricity prices and raise the cost of doing business.”

According to the EPA, by 2030 the rules will:

“Cut carbon emission from the power sector by 30 percent nationwide below 2005 levels, which is equal to the emissions from powering more than half the homes in the United States for one year;

Cut particle pollution, nitrogen oxides, and sulfur dioxide by more than 25 percent as a co-benefit;

Avoid up to 6,600 premature deaths, up to 150,000 asthma attacks in children, and up to 490,000 missed work or school days—providing up to $93 billion in climate and public health benefits; and

Shrink electricity bills roughly 8 percent by increasing energy efficiency and reducing demand in the electricity system.”

—“EPA Proposes First Guidelines to Cut Carbon Pollution from Existing Power Plants,” epa.gov, June 2, 2014

The Washington Post, “Everything You Need to Know about the EPA’s Proposed Rule on Coal Plants,” washingtonpost.com, June 1, 2014

Editors’ Note: On Sep. 20, 2013, the EPA proposed separate carbon pollution standards for all future power plants.

Sep. 22, 2014 - Rockefellers and over 800 Global Investors Announce Fossil-Fuel Divestment

“The heirs to the fabled Rockefeller oil fortune withdrew their funds from fossil fuel investments on Monday, lending a symbolic boost to a $50bn divestment campaign ahead of a United Nations summit on climate change….

With Monday’s announcement, more than 800 global investors – including foundations such as the Rockefeller Brothers, religious groups, healthcare organisations, cities and universities – have pledged to withdraw a total of $50bn from fossil fuel investments over the next five years.

In addition to the Rockefellers, the World Council of Churches, which represents some 590 million people in 150 countries – also pulled its investments from fossil fuels on Monday….

About 30 cities have also chosen to divest, including Santa Monica and Seattle.”

According to a Bloomberg report, “Fossil fuels are an enormous asset class. The current value of the 1,469 listed oil and gas firms is $4.65trn; 275 coal firms are worth $233bn. ExxonMobil, the largest oil and gas firm, has a market cap of $425bn.”

The Guardian, “Heirs to Rockefeller Oil Fortune Divest from Fossil Fuels over Climate Change,” guardian.com, Sep. 22, 2014

—“Fossil Fuel Divestment: A $5 Trillion Challenge,” about.bnef.com, Aug. 26, 2014

Aug. 3, 2015 - President Obama Announces Clean Power Plan, Imposing the First Nationwide Limits on Carbon Dioxide Emissions from Power Plants

“President Barack Obama on Monday will mandate steep cuts to power-plant carbon emissions, as he unveils his administration’s signature initiative to combat climate change and sets in motion sweeping changes to the country’s electricity industry….

The administration’s plan will force the utility industry to shift toward cleaner-burning energy sources for decades to come as the EPA sets the first-ever limits on greenhouse gases from power plants, requiring a 32% cut in emissions by 2030 from 2005 levels….

The final version of the climate policy gives states more time to comply with the regulations, but that has done little to assuage critics who assert that the emissions limits will cost jobs and not actually solve climate change….

The regulations also seek to prevent the electricity industry from becoming more dependent on natural gas. Coal, which accounts for just under 40% of total U.S. electricity, emits the most carbon dioxide compared with other fuels….

[T]he final regulation plan will help encourage nuclear power generation, which doesn’t emit any carbon and accounts for about 20% of the U.S.’s electricity.”

—Colleen McCain Nelson and Amy Harder, “EPA Emissions Rule to Mandate Limits Beyond Proposed Targets,” wsj.com, Aug. 2, 2015

Mar. 28, 2017 - President Donald Trump Signs Executive Order to Begin Reversal of President Obama’s Clean Power Plan

“[President Donald Trump] signed an executive order that starts unraveling a raft of rules and directives to combat climate change. That was followed Wednesday by a bid to place on hold a 26-state suit challenging the centerpiece of President Barack Obama’s environmental agenda — the Clean Power Plan — so the new administration can dismantle it ahead of a ruling on its legality….The U.S. Environmental Protection Agency will need at least a year to remove the Clean Power Plan from the federal regulatory landscape, while justifying the reversal, allowing for public comment and still meeting its Clean Air Act obligations.”

—Andrew M. Harris and Jennifer A. Dlouhy, “Trump Administration Seeks Halt to Clean Power Plan Review,” bloomberg.com, Mar. 28, 2017

Editors’ Note: On Oct. 10, 2017, the administrator of the EPA, Scott Pruitt, issued a notice of proposed rulemaking to begin the process of formally repealing the Clean Power Plan.

July 31, 2017 - Two Nuclear Power Reactors in South Carolina Abandoned before Construction Completed

“[T]wo South Carolina utilities said on Monday that they would abandon two unfinished nuclear reactors in the state, putting an end to a project that was once expected to showcase advanced nuclear technology but has since been plagued by delays and cost overruns. The two reactors, which have cost the utilities roughly $9 billion, remain less than 40 percent built. The cancellation means there are just two new nuclear units being built in the country — both in Georgia.”

—Brad Plumer, “U.S. Nuclear Comeback Stalls as Two Reactors Are Abandoned,” nytimes.com, July 31, 2017

Dec. 22, 2017 - Tax Bill Opens Arctic National Wildlife Refuge for Oil Drilling

“Congress’ passage of the Republican tax bill will be a chapter in Alaska’s history books. The law opens a part of the Arctic National Wildlife Refuge to oil development, ending an epic, nearly four-decade battle. For years, environmental groups, the oil industry, Alaska Native communities and the state’s political leaders have debated the potential consequences of oil development in ANWR….USGS [United States Geological Service] estimates there’s potentially somewhere between 4.3 and 11.8 billion barrels of oil in the Arctic Refuge’s 1002 area….For comparison, Alaska’s second biggest oil field, Kuparuk, has produced about 2.5 billion barrels of oil.”

—“Arctic National Wildlife Refuge Battle Ends, But Drilling Not a Given,” npr.org, Dec. 21, 2017

Editors’ Note: President Trump signed the Tax Cuts and Jobs Act into law on Dec. 22, 2017.

May 9, 2018 - Solar Power to Be Required on All New California Homes by 2020

“California took a giant step on Wednesday, becoming the first state to require all new homes to have solar power.…Under the new requirements, builders must take one of two steps: make individual homes available with solar panels, or build a shared solar-power system serving a group of homes. In the case of rooftop panels, they can either be owned outright and rolled into the home price, or made available for lease on a monthly basis. The requirement is expected to add $8,000 to $12,000 to the cost of a home.”

—Ivan Penn, “California Will Require Solar Power for New Homes,” nytimes.com, May 9, 2018

Mar. 22, 2019 - New Mexico Commits to 100% Renewable Energy for Electricity by 2050

“On Friday, March 22, New Mexico governor Michelle Lujan Grisham signed a new law that will position the state to obtain 100% of its electrical needs from renewable sources not later than 2050. The phase-in calls for 50% by 2030, 80% by 2040, and 100% for utility companies by 2045, with electric coops given until 2050 to comply….Taken as a whole, the new law is one of the strongest renewable energy commitments in the United States, rivaling those already enacted by California and Hawaii.”

—“New Mexico Governor Approves 100% Renewable Legislation,” cleantechnica.com, Mar. 24, 2019

Sep. 20, 2019 - Three Mile Island to Close, Site of Worst Commercial Nuclear Accident in U.S.

“Three Mile Island nuclear power plant in Pennsylvania stopped producing electricity at noon on Friday [Sep. 20, 2019], part of Exelon Corp.’s plan to close and decommission the plant over the next 60 years. The closure comes 40 years after the partial meltdown of the plant’s reactor No. 2 — the nation’s worst commercial nuclear accident — left the plant with only one working reactor. Tens of thousands evacuated amid uncertainty about the accident. Some radiation was released, but officials said it was within acceptable levels. Yet many who live in the area are convinced that their health problems in later years were related to the accident.”

—Brett Sholtis, “Three Mile Island Nuclear Power Plant Shuts Down,” npr.org, Sep. 20, 2019

Apr. 15, 2020 - Oil and Electricity Demands Drop during COVID-19 Pandemic

According to the International Energy Agency (IEA), “Global oil and gas markets are facing an unprecedented situation: demand is collapsing because of the impact of the coronavirus while supply, already overabundant, is significantly increasing.” The IEA expects Apr. 2020 oil demand to be at lows not seen since 1995.

Meanwhile, even though reliable electricity has become all the more important as people are confined at home, whether working, online shopping, or binging TV shows, overall electricity use has dropped around 15% as factories and other businesses close for stay-at-home orders. IEA executive director Fatih Birol stated, “Governments can use the current situation to step up their climate ambitions and launch sustainable stimulus packages focused on clean energy technologies. The coronavirus crisis is already doing significant damage around the world. Rather than compounding the tragedy by allowing it to hinder clean energy transitions, we need to seize the opportunity to help accelerate them.”

—Fatih Birol, “The Coronavirus Crisis Reminds Us That Electricity Is More Indispensable Than Ever,” iea.org, Mar. 22, 2020

—International Energy Agency, “COVID-19,” iea.org (accessed Apr. 15, 2020)

—International Energy Agency, “Oil Market Report - April 2020,” iea.org, Apr. 2020

Apr. 2020 - Big Banks Refuse Funds for Some Fossil-Fuel Projects

Citi announced a new policy in which the bank will not fund new or expanded thermal coal mines, new or expanded coal-fired plants, “oil and gas exploration, development, and production in the Arctic Circle,” or projects that will have a negative impact on UNESCO World Heritage sites.

Morgan Stanley announced a similar new policy, while Goldman Sachs, JPMorgan Chase, and Wells Fargo already had similar policies in place.

In a letter to banks in Feb. 2020, Democratic senators wrote, “The scale of your banks’ assets individually, let alone together, give you the ability to drive change in protecting the Arctic National Wildlife Refuge and in shifting towards a U.S. financial sector that effectively analyzes and plans for climate risks.”

President Trump stated, “I don’t like that. I like the idea of looking into that….They’re [the banks] are afraid of the radical left. You shouldn’t be afraid of the radical left. You cannot be discriminating against these great energy companies.”

—Citi, “Environmental and Social Policy Framework,” citigroup.com, Apr. 2020

—Rachel Frazin, “Democratic Senators Ask Banks to Prohibit Funding Arctic Drilling,” thehill.com, Feb. 3, 2020

—Rachel Frazin, “Trump Criticizes Banks Withholding Funds from Certain Fossil Fuel Projects,” thehill.com, Apr. 24, 2020

—Morgan Stanley, “Environmental and Social Policy Statement,” morganstanley.com, Apr. 2020

Sep. 23, 2020 - California to Ban New Gas-Powered Cars by 2035

California Governor Gavin Newsom issued an executive order on Sep. 23, 2020, directing “California’s regulators to develop a plan that would require automakers to sell steadily more zero-emissions passenger vehicles in the state, such as battery-powered or hydrogen-powered cars and pickup trucks, until they make up 100 percent of new auto sales in just 15 years.”

—Brad Plumer and Jill Cowan, “California Plans to Ban Sales of New Gas-Powered Cars in 15 Years,” nytimes.com, Sep. 23, 2020

Dec. 9, 2020 - New York Says Employee Pension Fund Will Divest from Oil and Gas Companies if Not Aligned with Paris Agreement

New York State Comptroller Thomas DiNapoli announced the New York State Common Retirement Fund aims to be net zero by 2040. To do so, the fund will require that fossil-fuel companies have a business plan aligned with the Paris Climate Agreement within four years. If fossil-fuel companies fail to accomplish that goal, the $226 billion fund will begin divesting from those companies.

DiNapoli’s press release noted that the fund has already set minimum goals for coal thermonuclear companies and had divested from 22 coal companies. Next, the fund will set goals and evaluate oil sand companies, followed by shale oil and gas, integrated oil and gas, and other aspects of the oil and gas business such as transportation and storage.

The New York State Common Retirement Fund is the third-largest public pension fund in the country and represents one million state and local government employees, retirees, and their beneficiaries.

—Office of the New York State Comptroller, “New York State Pension Fund Sets 2040 Net Zero Carbon Emissions Target,” osc.state.ny.us, Dec. 9, 2020

Feb. 8, 2021 - Global Oil Prices Recovered from COVID-19 Pandemic

Global oil prices are back up to over $60 a barrel, the highest level since Jan. 2020. Oil prices have been rising for months in anticipation of COVID-19 vaccination programs.

—Julia Horowitz, “Global Oil Prices Have Fully Recovered from the Pandemic,” cnn.com, Feb. 8, 2021

Mar. 29, 2021 - Biden Administration Announces Offshore Wind Initiative

“As part of the new initiative which spans multiple government agencies, the Departments of the Interior, Energy and Commerce committed to a shared goal of generating 30 gigawatts of offshore wind in the US by 2030. This target will lead to employing more than 44,000 workers in offshore wind by 2030 and nearly 33,000 additional jobs in communities supported by offshore wind activity, according to a government fact sheet….This initiative also comes less than a week after the Biden administration announced its goal of reducing solar electricity costs by 60% over the next decade. The Energy Department’s goal will be supported by a nearly $128 million investment to ‘lower costs, improve performance, and speed the deployment of solar energy technologies.’ Altogether, Biden’s energy and climate vision aims to have the country powered entirely by a clean grid by 2035.”

—Liz Stark, “White House Announces Offshore Wind Energy Initiative Creating Jobs and Addressing Climate Crisis,” cnn.com, Mar. 29, 2021

Apr. 2021 - Indian Point Nuclear Plant to Close

“The nuclear plant, in Buchanan, New York, just 25 miles from New York City, is set to shut down the last reactor on Apr. 30, 2021. Four years ago, when Governor Cuomo announced the plant would close, the plant supplied about 25% of New York City’s power. The state is shifting to other renewable energies, as promised by Cuomo, but fossil fuel energy will have to make up the difference in the meantime.”

—Patrick McGeehan, “Indian Point Is Shutting Down. That Means More Fossil Fuel.,” nytimes.com, Apr. 12, 2021

Apr. 22, 2021 - Biden Administration Pledges to Cut Greenhouse Gas Emissions by 50% to 52% by 2030

At a virtual climate summit attended by 40 other world leaders on Earth Day 2021, President Joe Biden committed the U.S. to cutting greenhouse gases by 50% to 52% by 2030, a nonbinding stipulation of the Paris Agreement.

Biden stated, “That’s where we’re headed as a nation, and that’s what we can do if we take action to build an economy that’s not only more prosperous but healthier, fairer and cleaner for the entire planet….These steps will set America’s economy to net-zero emissions by no later than 2050.”

The percentage is a major increase over President Obama’s 2015 pledge to cut greenhouse gases by 26% to 28% by 2025.

—Kate Sullivan and Kevin Liptak, “Biden Announces US Will Aim to Cut Carbon Emissions by as Much as 52% by 2030 at Virtual Climate Summit,” cnn.com, Apr. 22, 2021

May 11, 2021 - U.S. Approves First Major American Offshore Wind Project

Vineyard Wind 1, a $2.8 billion project, will have 62 wind turbines. Each turbine will stand 837 feet above the water and be spaced about a mile from the next turbine. Cables will be buried in the ocean floor to connect the turbines to the New England onshore grid.

Billions of dollars in savings and a reduction of 1.68 million metric tons of carbon dioxide are expected as the turbines power 400,000 Massachusetts homes per year.

Fishers are worried the turbines will disrupt sea life and their livelihoods.

—Miriam Wasser, “Biden Administration Approves 1st Major Offshore Wind Energy Project,” npr.org, May 11, 2021

May 18, 2021 - International Energy Agency Calls for No New Fossil-Fuel Projects

The International Energy Agency (IEA) detailed the steps necessary to achieve global net-zero carbon emissions by 2050 in the report “Net Zero by 2050: a Roadmap for the Global Energy Sector.”

The IEA’s report “sets out more than 400 milestones to guide the global journey to net zero by 2050. These include, from today, no investment in new fossil fuel supply projects, and no further final investment decisions for new unabated coal plants. By 2035, there are no sales of new internal combustion engine passenger cars, and by 2040, the global electricity sector has already reached net-zero emissions.”

Fatih Birol, IEA executive director, stated, “Our Roadmap shows the priority actions that are needed today to ensure the opportunity of net-zero emissions by 2050 – narrow but still achievable – is not lost. The scale and speed of the efforts demanded by this critical and formidable goal – our best chance of tackling climate change and limiting global warming to 1.5 °C – make this perhaps the greatest challenge humankind has ever faced.”

—International Energy Agency, “Pathway to Critical and Formidable Goal of Net-Zero Emissions by 2050 Is Narrow but Brings Huge Benefits, According to IEA Special Report,” iea.org, May 18, 2021

Sep. 21, 2021 - China Announces End to Building Coal-Burning Power Plants Abroad

President Xi Jinping announced in a recorded speech at the United Nations General Assembly, “China will step up support for other developing countries in developing green and low carbon energy and will not build new coal-fired power projects abroad.”

Domestically, China is the biggest producer of greenhouse gas emissions, largest producer of coal, and biggest financier of coal-powered plants.

—Somini Sengupta and Rick Gladstone, “China Pledges to Stop Building Coal-Burning Power Plants Abroad,” nytimes.com, Sep. 21, 2021

Nov. 9, 2021 - Major Automakers and Countries Pledge to Phase Out Gas-Powered Cars

Eleven automakers, 33 countries, 40 regional governments, 27 fleet owners and operators or shared mobility platforms, and 32 other signatories have pledged to “work towards all sales of new cars and vans being zero emission globally by 2040, and by no later than 2035 in leading markets.”

The automakers include Ford, General Motors, Jaguar Land Rover, Mercedes-Benz, and Volvo. Countries include Azerbaijan, Canada, India, and the United Kingdom. Regional governments include Buenos Aires, Argentina; California (and several cities therein); Lagos, Nigeria; Northern Ireland; and Scotland.

—Brad Plumer and Hiroko Tabuchi, “6 Automakers and 30 Countries Say They’ll Phase out Gasoline Car Sales,” nytimes.com, Nov. 10, 2021

Nov. 9, 2021 - Rolls-Royce Announces Plans to Build Nuclear Power Plants in Britain

The jet engine manufacturer (which separated from the company’s carmaking operations in the 1970s) announced plans to build 16 small nuclear power plants to help reduce greenhouse gas emissions. The plants would be about a tenth of the size of a traditional nuclear power plant and produce about a seventh of the energy, while the cost would be about $2.7 billion, compared to $22.5 billion for a large plant.

Rolls-Royce has a history in nuclear power, having designed the reactors on board Britain’s submarines starting in the 1950s.

—Stanley Reed, “Rolls-Royce Plans to Build Small Nuclear Power Plants in Britain,” nytimes.com, Nov. 9, 2021

Dec. 15, 2021 - New York City to Ban New Natural Gas Connections

Beginning in 2023 new small buildings will not be allowed to connect to the city’s natural gas lines and will have to use an electric power source instead. New buildings over seven stories will have until 2027 to comply.

Over 70% of New York City’s carbon emissions are connected to buildings. One estimate suggests the new natural gas hookup ban could save 2.1 million tons of carbon dioxide by 2040.

—Molly Taft, “New York City Passes Landmark Bill to Ban New Gas Hookups,” gizmodo.com, Dec. 15, 2021

Dec. 15, 2021 - Biden Administration Orders Government Fleets and Buildings to Use Alternative Energies by 2050

President Biden signed a series of executive orders directing the federal government to buy electric vehicles only by 2035, power the 300,000 federal buildings with wind, solar, or nuclear powers, and to use sustainable building materials by 2050. As of 2021, the federal government is 40% powered by alternative energies and uses about 1.5% of the country’s energy.

—Lisa Friedman, “Biden Orders Federal Vehicles and Buildings to Use Renewable Energy by 2050,” nytimes.com, Dec. 13, 2021

Jan. 27, 2022 - Over 80 Million Acres of Oil and Gas Leases Canceled in Gulf of Mexico

In Nov. 2021 the Biden administration held the largest oil and gas lease sale in United States history. A federal judge invalidated the sale for leases in the Gulf of Mexico on Jan. 27, 2022.

The judge stated the Biden administration had not fully taken into account climate change when selling the leases. The Interior Department will now have to complete environmental reviews to determine the levels of greenhouse gases that would occur from the development and production of the leases, and then the Biden (or a future) administration will have to decide whether to sell the leases again.

The Biden administration placed a moratorium on all new leases shortly after the president took office in 2021. However, the moratorium was struck down when challenged by 13 Republican governors. The federal judge in that case ruled that the sales already scheduled for Gulf of Mexico leases must go forward (which are the leases now invalidated).

—Lisa Friedman, “Court Revokes Oil and Gas Leases, Citing Climate Change,” nytimes.com, Jan. 27, 2022

—Nathan Rott, “A Federal Judge Canceled Major Oil and Gas Leases over Climate Change,” npr.org, Jan. 28, 2022

Apr. 7, 2022 - Stanford University Engineers Create Solar Panels That Generate Electricity at Night

Stanford University engineers have developed a solar panel with a thermoelectric generator that pulls electricity from the temperature difference between the solar cell and the air, allowing the panel to generate electricity at night.

Published in Applied Physics Letters, the study stated, “Our approach can provide nighttime standby lighting and power in off-grid and mini-grid applications, where [solar] cell installations are gaining popularity.”

—Rina Torchinsky, “Solar Panels That Can Generate Electricity at Night Have Been Developed at Stanford,” npr.org, Apr. 7, 2022

Apr. 2022 - American Lung Association Says Switch to Zero-Emission Transportation and Noncombustion Electricity Could Save 110,000 Lives

According to a 2022 American Lung Association report, “The shift to zero-emission transportation and non-combustion electricity generation could yield major health benefits throughout the nation in the coming decades. Cumulatively, the national benefits of transitioning away from combustion in the transportation sector toward 100 percent zero-emission sales and a non-combustion electricity generation sector could generate over $1.2 trillion in health benefits across the United States between 2020 and 2050. These benefits include approximately 110,000 lives saved, over 2.7 million asthma attacks avoided (among those aged 6-18 years), 13.4 million lost works [sic] days and a wider range of other negative health impacts avoided due to cleaner air. In addition to these health benefits, this analysis found that over $1.7 trillion in global climate benefits could be achieved with a reduction of over 24 billion metric tons of GHGs by mid-century.”

—American Lung Association, “Zeroing in on Healthy Air: A National Assessment of Health and Climate Benefits of Zero-Emission Transportation and Electricity,” lung.org, Apr. 2022

May 19, 2022 - Biden Administration to Fund $3.5 Billion in Carbon Dioxide Removal via Direct Air Capture

Part of the 2021 infrastructure bill, the carbon capture plan is part of $6.5 billion promised in the law for carbon management. The initiative will build four carbon capture hubs around the country, which are expected to pull a minimum of one million metric tons of carbon dioxide from the air yearly. 

—Lauren Leffer, “Biden Admin Announces $3.5 Billion in Carbon Dioxide Removal Funding,” gizmodo.com, May 20, 2022

Aug. 25, 2022 - California Bans Sale of New Gas-Powered Cars by 2035

Following Governor Newsom’s Sep. 23, 2020, executive order to ban the sale of new gas-powered cars, California air regulators voted on Aug. 25, 2022, to do the same. The new regulation, approved by the California Air Resources Board, is expected to have a nationwide impact on state regulations and the car industry as a whole. According to NPR journalist Nathan Rott, 13 states generally follow California’s lead in emissions regulations, including Washington state, whose governor, Jay Inslee, announced a similar goal on Aug. 24, 2022.

The American state’s ban comes amid news that the island of Hainan in southern China has also initiated a ban of gas-powered cars with a goal of no new sales by 2030.

—Nathan Rott, “California Will Ban Sales of New Gasoline-Powered Cars by 2035,” npr.org, Aug. 25, 2022

—Jessie Yeung and Shawn Deng, “Chinese Island Plans to Ban Sales of Fossil Fuel-Powered Vehicles by 2030,” cnn.com, Aug. 25, 2022

Sep. 20, 2022 - World’s Largest Wealth Fund to Decarbonize Holdings

Norway’s wealth fund, worth $1.2 trillion, announced on Sep. 20, 2022, that it will push the 9,300 companies it invests in to cut greenhouse gas emissions to zero by 2050.

—Victoria Klesty, “Norway’s Wealth Fund Tells Firms to Set Net Zero Emission Goals,” reuters.com, Sep. 20, 2022

Mar. 28, 2023 - European Union Countries Agree to Phase Out New Gas-Powered Cars by 2035

The European Union finalized an agreement on Mar. 28, 2023, to phase out new gas-powered cars by 2035. All new cars will have to be zero emissions, with the exception of sales of e-fueled (fuels made from captured CO2 emissions) cars at Germany’s request. Of the 27 member countries, only Poland disagreed. Bulgaria, Italy, and Romania abstained from voting.

—European Commission, “Fit for 55: EU Reaches New Milestone to Make All New Cars and Vans Zero-Emission from 2035,” climate.ec.europa.eu, Mar. 28, 2023

—Joe Hernandez, “All New Cars in the EU Will Be Zero-Emission by 2035. Here’s Where the U.S. Stands,” npr.org, Mar. 30, 2023

Mar. 31, 2023 - California to Require 50% of All Heavy Vehicles Sold in State Be Electric by 2035

The world’s fifth-largest economy, California, will now require that half of all heavy vehicles (garbage trucks, tractor trailers, cement mixers, etc.) sold in the state be all electric by 2035, the same year all new passenger vehicles sold in the state are required to be electric. California was granted approval by the Biden administration on Mar. 31, 2023, to enact the plan, which required federal approval because it exceeds federal requirements.

—Coral Davenport, “California to Require Half of All Heavy Trucks Sold by 2035 to Be Electric,” nytimes.com, Mar. 31, 2023

Aug. 14, 2023 - Montana Judge Rules in Favor of Youth: State Violated Their Constitutional Right to Clean Environment

District Court Judge Kathy Seeley ruled that Montana’s policy for evaluating fossil-fuel permit requests is unconstitutional because it does not allow state agencies to evaluate greenhouse gas emissions.

Julia Olson, attorney with Our Children’s Trust that brought the lawsuit on behalf of Montana youth, states, “As fires rage in the West, fueled by fossil fuel pollution, today’s ruling in Montana is a game-changer that marks a turning point in this generation’s efforts to save the planet from the devastating effects of human-caused climate chaos.”

Emily Flower, spokesperson for Montana’s Attorney General Austin Knudsen, disagrees: “Montanans can’t be blamed for changing the climate. Their same legal theory has been thrown out of federal court and courts in more than a dozen states. It should have been here as well, but they found an ideological judge who bent over backward to allow the case to move forward and earn herself a spot in their next documentary.” The office vowed to appeal the decision.

The case is the first of its kind in the United States.

—AP, “Judge Sides with Young Activists in First-of-Its-Kind Climate Change Trial in Montana,” npr.org, Aug. 14, 2023

Dec. 13, 2023 - Nearly 200 Countries Agree to Transition Away from Fossil Fuels

Convened by the United Nations in Dubai, United Arab Emirates, the nations came to a nonbinding agreement after two weeks of debate. The New York Times reporters Brad Plumer and Max Bearak summarize, “The new deal calls on countries to accelerate a global shift away from fossil fuels this decade in a ‘just, orderly and equitable manner,’ and to quit adding carbon dioxide to the atmosphere entirely by midcentury. It also calls on nations to triple the amount of renewable energy, like wind and solar power, installed around the world by 2030 and to slash emissions of methane, a greenhouse gas that is more potent than carbon dioxide in the short term.” The agreement is the first time the nations have explicitly agreed to a transition away from fossil-fuel use.

—Brad Plumer and Max Bearak, “In a First, Nations at Climate Summit Agree to Move Away from Fossil Fuels,” nytimes.com, Dec. 13, 2023