Sentences with phrase «total coal production»

Coal mining productivity: Coal mining productivity is calculated by dividing total coal production by the total direct labor hours worked by all mine employees.

[deleted sentence] Indonesia's coal exports account for between 70 and 80 percent of total coal production, while the remainder is sold on the domestic market.

Rare in the U.S., it comprises only 0.2 % of total coal production.

says more than 1,000 existing mines will also be closed over the coming year, reducing total coal production by 70 million tons.

China's total coal production capacity including under mines construction is estimated at more than 5 billion tons while its coal output for next year will probably reach 3.7 billion tons, leaving more than 20 percent of its capacity idle, according to David Fang, a director with China Coal Transport and Distribution Association in Beijing.

Same Energy Watch Group report, citing a 2006 study conducted by BP Energy: â $ œThe growing share of lower quality coal is the reason why total coal production in terms of energy content peaked in 1998 at 598.4 Mtoe and has since declined to 576.2 Mtoe in 2005 in spite of the continuous rise in produced volumes (BP 2006).

Total coal production in the United States is varied over time, oscillating over the decades, up and down, except anthracite, which peaked around 1920.

U.S. coal production during fourth — quarter 2017 totaled 193.8 million short tons, which was 1.2 % lower than the previous quarter and 2.9 % lower than fourth — quarter 2016.

Production in the Western Region, which represented about 55.7 % of total U.S. coal production in fourth — quarter 2017, totaled about 108 million short tons (5.9 % lower than fourth — quarProduction in the Western Region, which represented about 55.7 % of total U.S. coal production in fourth — quarter 2017, totaled about 108 million short tons (5.9 % lower than fourth — quarproduction in fourth — quarter 2017, totaled about 108 million short tons (5.9 % lower than fourth — quarter 2016).

U.S. coal production «as of October 29, 2016, totaled approximately 607 MMst, 20 % lower than the comparable year - to - date coal production in 2015,» according to the Energy Information Administration (EIA).

Although favourable in many parts of North America, electric vehicles in China, where 77 % of the total electricity production is coal - derived and many plants do not have advanced air pollution controls, raise concerns regarding increased air...

More recently, manufacturing output has continued to grow strongly, but shortages of coal have restrained output in energy - intensive sectors so that growth in total industrial production slowed to 5 per cent over the year to February.

Electricity production (including from coal) is the leading cause of green house gases right now, and the best estimate I can find about cement production puts it at about 5 % of the total man - made causes.

Such robust growth would place India on par with the United States in terms of total production, assuming international markets for U.S. coal remain strong.

Also, if fugitive methane emissions exceed 3 percent of total gas production, natural gas's climate advantage over coal disappears over a 20 - year time horizon.

Federal coal leasing accounts for about 40 percent of total U.S. coal production.

Average mine price: The ratio of the total value of the coal produced at the mine to the total production tonnage.

Chinese coal production of 3.66 billion tonnes at the end of 2012 already accounts for nearly half the global total, according to official data.

U.S. coal production during fourth — quarter 2017 totaled 193.8 million short tons, which was 1.2 % lower than the previous quarter and 2.9 % lower than fourth — quarter 2016.

Thus, the NETL analysis concluded that there was little difference in the total amount of life cycle climate pollution between «U.S. LNG exports for power production in European and Asian markets... when compared to regional coal extraction and consumption for power production.»

It was found that the resultant Hubbert curves were generally in good agreement with total fossil fuel, coal and natural gas production predictions.

In 2010, China accounted for about 75 % of total Asian coal production, followed by India (13 %) and Indonesia (8 %).

In the 50 years between 1950 & nd 2000 he expected world coal production to be 2.5 Q, oil to be 6.5 Q, others to be 0.7 Q giving a total of 9.7 Q.

The relationships between atmospheric CO2ppmv increase, the del C13 signatures of current atmospheric (and oceanic (dissolved) «CO2 ″), the del C13 signatures of oil, coal, and wood, and the estimates of anthropogenic CO2 production since 1850, all indicate that the ~ 110ppmv atmospheric CO2 increase since then has a «non-natural», i.e. anthropogenic source, even though the biosphere is absorbing approximately 55 % of the total anthropogenic CO2 production.

Modeling has also shown that it's relatively inexpensive to increase the reliability of the total wind output to a level equivalent to a coal - fired power station by adding a few low - cost peak - load gas turbines that are opearated infrequently, to fill in the gaps when the wind farm production is low (Diesendorf 2010).

Australian fossil fuel production has a particularly high exposure to coal reserves, which make up 51GtCO2 of this total.

When potential supply is compared to the Energy Information Administration's (EIA) Annual Energy Outlook (AEO) 2016 Reference Case for PRB coal production, which does not constrain warming to 2 °C, total business as usual (BAU) supply is provided by existing leases until 2031, with production from new leases only being required thereafter.

After decades of increases, U.S. CO2 emissions from energy use (which account for 97 % of total U.S. emissions) declined by around 9 % between 2008 and 2012, largely due to a shift from coal to less CO2 - intensive natural gas for electricity production.

Coal is one of the major sources of energy production in the U.S. (providing 33 percent of the total, comparable to natural gas).

Although natural - gas generation fell between 2016 and 2017 from 35 percent to 32 percent of total national electricity production, it remained the primary fuel for power generation for the second year in a row, surpassing coal (around 30 percent) in 2016.

The sum of coal production, net imports and coal taken from inventories — so - called «apparent consumption» — should, in principle, be equal to total coal consumption.

Coal production in the Appalachian state is expected to total no more than 90 million short tons this year — a more - than -40-percent drop from 2008 levels of around 160 million tons of cCoal production in the Appalachian state is expected to total no more than 90 million short tons this year — a more - than -40-percent drop from 2008 levels of around 160 million tons of coalcoal.

Germany is the world's largest producer of brown coal, and 2013 was the biggest year for lignite - fired energy production in the country since 1990, with 162 billion kilowatt - hours produced, or about 26 percent of Germany's total electricity.

For comparison here is the same equation for a coal - fired power plant: Coal power project installed cost: $ 2,500 / kW (High end number — Some coal fired plants are built for $ 1,500 / kW) Typical life of a coal fired plant: 30 years Hours per year: 8,760 Average availability of coal - fired power plant: 88 % Total electricity production during plant life: 231,000 kWh / kW installed Value of electricity produced: $ 16,188 / kW installed Lifetime Cost of fuel = 231,000 x $ 0.006 = $ 1,388 / kW installed Net Value of total electricity produced during plant life: $ 14,800 / kW instalcoal - fired power plant: Coal power project installed cost: $ 2,500 / kW (High end number — Some coal fired plants are built for $ 1,500 / kW) Typical life of a coal fired plant: 30 years Hours per year: 8,760 Average availability of coal - fired power plant: 88 % Total electricity production during plant life: 231,000 kWh / kW installed Value of electricity produced: $ 16,188 / kW installed Lifetime Cost of fuel = 231,000 x $ 0.006 = $ 1,388 / kW installed Net Value of total electricity produced during plant life: $ 14,800 / kW instalCoal power project installed cost: $ 2,500 / kW (High end number — Some coal fired plants are built for $ 1,500 / kW) Typical life of a coal fired plant: 30 years Hours per year: 8,760 Average availability of coal - fired power plant: 88 % Total electricity production during plant life: 231,000 kWh / kW installed Value of electricity produced: $ 16,188 / kW installed Lifetime Cost of fuel = 231,000 x $ 0.006 = $ 1,388 / kW installed Net Value of total electricity produced during plant life: $ 14,800 / kW instalcoal fired plants are built for $ 1,500 / kW) Typical life of a coal fired plant: 30 years Hours per year: 8,760 Average availability of coal - fired power plant: 88 % Total electricity production during plant life: 231,000 kWh / kW installed Value of electricity produced: $ 16,188 / kW installed Lifetime Cost of fuel = 231,000 x $ 0.006 = $ 1,388 / kW installed Net Value of total electricity produced during plant life: $ 14,800 / kW instalcoal fired plant: 30 years Hours per year: 8,760 Average availability of coal - fired power plant: 88 % Total electricity production during plant life: 231,000 kWh / kW installed Value of electricity produced: $ 16,188 / kW installed Lifetime Cost of fuel = 231,000 x $ 0.006 = $ 1,388 / kW installed Net Value of total electricity produced during plant life: $ 14,800 / kW instalcoal - fired power plant: 88 % Total electricity production during plant life: 231,000 kWh / kW installed Value of electricity produced: $ 16,188 / kW installed Lifetime Cost of fuel = 231,000 x $ 0.006 = $ 1,388 / kW installed Net Value of total electricity produced during plant life: $ 14,800 / kW instaTotal electricity production during plant life: 231,000 kWh / kW installed Value of electricity produced: $ 16,188 / kW installed Lifetime Cost of fuel = 231,000 x $ 0.006 = $ 1,388 / kW installed Net Value of total electricity produced during plant life: $ 14,800 / kW instatotal electricity produced during plant life: $ 14,800 / kW installed.

By 2000, coal's share of total energy production had plummeted to 22.8 per cent.

In 2006, output from the Gillette region totaled over 431 million short tons of coal, or over 37 % of U.S. total yearly production.

Cutting methane leakage rates from natural gas systems to less than 1 percent of total production would ensure that the climate impacts of natural gas are lower than coal or diesel fuel over any time horizon.

In the U.K., coal - firing shrunk to a minuscule 3.6 percent of total electricity production in the third quarter of 2016

Major Assumptions Calculating Carbon Emissions: Emissions Factors Coal: 0.795 tons C02 / MWh LNG: Total: 0.474 tons / MWh Combustion: 0.362 tons / MWh Transportation: 0.106 tons / MWh (This includes both liquification and regasification of LNG) Japan's current total carbon emissions: 1,222 million metric tons Japan's total nuclear production in 2009 was calculated by summing yearly generation from each of Japan's reactors in Total: 0.474 tons / MWh Combustion: 0.362 tons / MWh Transportation: 0.106 tons / MWh (This includes both liquification and regasification of LNG) Japan's current total carbon emissions: 1,222 million metric tons Japan's total nuclear production in 2009 was calculated by summing yearly generation from each of Japan's reactors in total carbon emissions: 1,222 million metric tons Japan's total nuclear production in 2009 was calculated by summing yearly generation from each of Japan's reactors in total nuclear production in 2009 was calculated by summing yearly generation from each of Japan's reactors in 2009.