Wind Power Energy Storage for emphasis emphasistype='italic'In Situ/emphasis Shale Oil Recovery With Minimal COformula formulatype='inline'tex$_{2}$/tex/formula Emissions

Jack E. Bridges

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Wind Power Energy Storage for emphasis emphasistype='italic'In Situ/emphasis Shale Oil Recovery With Minimal COformula formulatype='inline'tex$_{2}$/tex/formula Emissions

机译：Wind Power Energy Storage for emphasis emphasistype="italic"In Situ/emphasis Shale Oil Recovery With Minimal COformula formulatype="inline"tex$_{2}$/tex/formula Emissions

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The trillion barrel oil shale and oil sand deposits in North America offer the potential to make the less energy dependent on unreliable foreign sources. However, if these unconventional deposits were produced using existing combustion processes, substantial CO2 emissions would be injected into air. To avoid this green house gas problem and yet produce liquid fuels, a wind powered electrothermal energy storage system is described. It stores the unpredictable intermittent wind electrical energy as thermal energy over long periods in thick fossil hydrocarbon deposits. Because thermal diffusion time is very slow in such deposits, thermal energy is effectively trapped in a defined section of the hydrocarbon deposit. This allows time for the thermal energy to convert hydrocarbons into gaseous and liquid fuels. The process is highly energy-efficient and makes available considerably more energy than was expended during the heating. In addition, the method can increase the reliability of the grid and provide a load-leveling function. The wind-powered electrothermal conversion method produces substantially less CO2 than traditional shale oil extraction processes or renewable energy processes that employ a combustion step to produce the fuel

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《IEEE Transactions on Energy Conversion》 |2007年第1期|103-109|共7页
作者
Jack E. Bridges;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种英语
中图分类电能学;能源与动力工程;
关键词
air pollution control; combustion; power generation reliability; power grids; thermal energy storage; wind power plants; carbondioxide emissions; combustion process; fossil hydrocarbon deposits; greenhouse gas problems; grid reliability; in situ shale oil recovery;

Wind Power Energy Storage for emphasis emphasistype='italic'In Situ/emphasis Shale Oil Recovery With Minimal COformula formulatype='inline'tex$_{2}$/tex/formula Emissions

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