Sentences with phrase «quadrillion btu»

The US Energy Information Administration's (EIA's) International Energy Outlook 2013 (IEO2013) projects that world energy consumption will grow by 56 % between 2010 and 2040, from 524 quadrillion British thermal units (Btu) to 820 quadrillion Btu.

According to EIA's analysis, U.S. coal consumption would be 15.2 quadrillion Btu in 2040 without the CPP, relative to the IEO2017 Reference case projection of 10.6 quadrillion Btu.

By 2040, energy use in non-OECD Asia exceeds that of the entire OECD by 41 quadrillion Btu in the IEO2017 Reference case (Figure 1).

In the International Energy Outlook 2017 (IEO2017) Reference case, total world energy consumption rises from 575 quadrillion British thermal units (Btu) in 2015 to 736 quadrillion Btu in 2040, an increase of 28 %.

According to the US Department of Energy (Energy Information Administration), the world consumption of energy in all of its forms (barrels of petroleum, cubic meters of natural gas, watts of hydro power, etc.) is projected to reach 678 quadrillion Btu (or 7.15 exajoules) by 2030 - a 44 % increase over 2008 levels (levels for 1980 were 283 quadrillion Btu and we stand at around 500 quadrillion Btu today).

The United States uses about 100 Quadrillion Btu of energy each year, or roughly about 2 * (10 ^ 13) kWh.

According to the US Department of Energy (Energy Information Administration), the world consumption of energy in all of its forms (barrels of petroleum, cubic meters of natural gas, watts of hydro power, etc.) is projected to reach 678 quadrillion Btu (or 715 exajoules) by 2030 — a 44 % increase over 2008 levels (levels for 1980 were 283 quadrillion Btu and we stand at around 500 quadrillion Btu today in 2009).

ENVIRONMENTAL OVERVIEW Secretary of Environment & Natural Resources: Victor Lichtinger Total Energy Consumption (2000E): 6.18 quadrillion Btu * (1.6 % of world total energy consumption) Energy - Related Carbon Emissions (2000E): 103.2 million metric tons of carbon (1.6 % of world total carbon emissions) Per Capita Energy Consumption (2000E): 62.5 million Btu (vs U.S. value of 351.0 million Btu) Per Capita Carbon Emissions (2000E): 1.0 metric tons of carbon (vs U.S. value of 5.6 metric tons of carbon) Energy Intensity (2000E): 16,509 Btu / $ 1995 (vs U.S. value of 10,918 Btu / $ 1995) ** Carbon Intensity (2000E): 0.28 metric tons of carbon / thousand $ 1995 (vs U.S. value of 0.18 metric tons / thousand $ 1995) ** Sectoral Share of Energy Consumption (1998E): Industrial (54.7 %), Transportation (24.8 %), Residential (15.9 %), Commercial (4.6 %) Sectoral Share of Carbon Emissions (1998E): Industrial (50.9 %), Transportation (31.1 %), Residential (13.2 %), Commercial (4.8 %) Fuel Share of Energy Consumption (2000E): Oil (63.2 %), Natural Gas (23.7 %), Coal (4.0 %) Fuel Share of Carbon Emissions (2000E): Oil (73.5 %), Natural Gas (20.4 %), Coal (6.2 %) Renewable Energy Consumption (1998E): 713.7 trillion Btu * (1 % decrease from 1997) Number of People per Motor Vehicle (1998): 6.9 (vs U.S. value of 1.3) Status in Climate Change Negotiations: Non-Annex I country under the United Nations Framework Convention on Climate Change (ratified March 11th, 1993).

ENVIRONMENTAL OVERVIEW Total Energy Consumption (2000E): 2.7 quadrillion Btu * (0.7 % of world total energy consumption) Energy - Related Carbon Emissions (2000E): 36.4 million metric tons of carbon (0.6 % of world carbon emissions) Per Capita Energy Consumption (2000E): 73.2 million Btu (vs. U.S. value of 351.0 million Btu) Per Capita Carbon Emissions (2000E): 1.0 metric tons of carbon (vs U.S. value of 5.6 metric tons of carbon) Energy Intensity (2000E): 9,226 Btu / $ 1995 (vs U.S. value of 10,918 Btu / $ 1995) ** Carbon Intensity (2000E): 0.12 metric tons of carbon / thousand $ 1995 (vs U.S. value of 0.17 metric tons / thousand $ 1995) ** Sectoral Share of Energy Consumption (1998E): Industrial (48.6 %), Transportation (23.7 %), Residential (18.8 %), Commercial (8.8 %) Sectoral Share of Carbon Emissions (1998E): Industrial (44.8 %), Transportation (32.7 %), Residential (16.2 %), Commercial (6.2 %) Fuel Share of Energy Consumption (2000E): Natural Gas (45.2 %), Oil (36.3 %), Coal (1.5 %) Fuel Share of Carbon Emissions (2000E): Oil (48.1 %), Natural Gas (49.3 %), Coal (2.5 %) Renewable Energy Consumption (1998E): 393 trillion Btu * (0.5 % decrease from 1997) Number of People per Motor Vehicle (1998): 5.6 (vs U.S. value of 1.3) Status in Climate Change Negotiations: Non-Annex I country under the United Nations Framework Convention on Climate Change (signed June 12, 1992 and ratified on March 11, 1994).

This chart from EIA data shows the change in annual U.S. energy consumption by fuel source over the past decade, as measured in quadrillion Btu:

ENVIRONMENTAL OVERVIEW Minister for the Environment & Heritage: David Kemp Minister for Forestry & Conservation: Ian McDonald Total Energy Consumption (2000E): 4.89 quadrillion Btu * (1.2 % of world total energy consumption) Energy - Related Carbon Emissions (2000E): 96.87 million metric tons of carbon (1.5 % of world carbon emissions) Per Capita Energy Consumption (2000E): 255 million Btu (vs U.S. value of 351 million Btu) Per Capita Carbon Emissions (2000E): 5.1 metric tons of carbon (vs U.S. value of 5.6 metric tons of carbon) Energy Intensity (2000E): 10,804 Btu / U.S. $ 1995 (vs U.S. value of 10,918 Btu / $ 1995) ** Carbon Intensity (2000E): 0.21 metric tons of carbon / thousand U.S. $ 1995 (vs U.S. value of 0.17 metric tons / thousand $ 1995) ** Sectoral Share of Energy Consumption (1999E): Transportation (42 %) Industrial (37 %), Residential (13.5 %), Commercial (7.5 %) Sectoral Share of Carbon Emissions (1998E): Industrial (46.4 %), Transportation (26.5 %), Residential (15.2 %), Commercial (11.9 %) Fuel Share of Energy Consumption (2000E): Coal (44.2 %), Oil (34.8 %), Natural Gas (16.6 %) Fuel Share of Carbon Emissions (1999E): Coal (55.4 %), Oil (32.6 %), Natural Gas (12.0 %) Renewable Energy Consumption (1998E): 396 trillion Btu * (0.9 % increase from 1997) Number of People per Motor Vehicle (1998): 1.7 (vs U.S. value of 1.3) Status in Climate Change Negotiations: Annex I country under the United Nations Framework Convention on Climate Change (ratified December 30th, 1992).

In 2005, the U.S. Energy Information Administration (EIA) projected that U.S. buildings would be consuming approximately 57 quadrillion Btu (Quads) of energy by the year 2030 — a 17 - Quad increase from 2005 consumption.

Meanwhile, use of natural gas is expected to jump from just under 28 quadrillion Btu per year to more than 41 quadrillion Btu.

From there, it drops from more than 16 quadrillion Btu per year to under 12 quadrillion Btu by 2050.

The residential sector is estimated to use about 21 quadrillion Btu of primary energy every year, primarily from burning fossil fuels on site or from fossil fuel - generated electricity (EIA 2009).

The US uses 27 quadrillion BTU's of energy on transportation.

iow — total world energy consumption rises from 575 quadrillion British thermal units (Btu) in 2015 to 736 quadrillion Btu in 2040, an increase of 28 %.

The US Energy Information Administration's (EIA's) International Energy Outlook 2013 (IEO2013) projects that world energy consumption will grow by 56 % between 2010 and 2040, from 524 quadrillion British thermal units (Btu) to 820 quadrillion Btu.

According to the U.S. Energy Information Administration, manufacturing accounts for one - fifth of the annual energy consumption in the United States — approximately 21 quintillion joules (20 quadrillion BTU) or equivalent to 3.6 billion barrels of crude oil.

It sees coal as remaining dominant in the electricity generation sector: global consumption will rise by 1.3 percent a year — from 147 quadrillion British thermal units of energy in 2010 to 180 quadrillion Btu in 2020 to 220 quadrillion Btu in 2040.

The breakdown of energy sources in the United States (measured in quadrillion Btu), according to the Energy Information Administration.

The country wasted 1 percent less energy in 2015 going from 59.4 quadrillion BTU in 2014 down to 59.1 quads in 2015.

Overall, Americans used 0.8 quadrillion BTU, or quads, less in 2015 than in 2014.

Between 2015 and 2040, the EIA is estimating that global energy demand will rise 28 % — from 575 quadrillion British thermal unit (Btu) to 736 quadrillion Btu!

From its high in 2007 of 34.7 quadrillion British thermal units (Btu), the difference between exports and imports has fallen steadily to 7.32 Btu, slightly above the 7.25 Btu in 1982.

On the left we see the larger exports and imports measured in quadrillion British thermal units (Btu).

Multiply pounds of carbon dioxide per million Btu by 0.123706 to get million metric tons (MMT) of carbon per quadrillion (1015) Btu.