DMCA
Review of solutions to global warming, air pollution and energy security. (2009)
| Venue: | Geochimica Et Cosmochimica Acta |
| Citations: | 63 - 4 self |
Citations
| 412 | Emissions of trace gases and aerosols from biomass burning. - Andreae, Merlet - 2001 |
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| 251 |
2001: Strong radiative heating due to the mixing state of black carbon in atmospheric aerosols
- Jacobson
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Citation Context ...security while considering impacts of the solutions on water supply, land use, wildlife, resource availability, reliability, thermal pollution, water pollution, nuclear proliferation, and undernutrition. To place electricity and liquid fuel options on an equal footing, twelve combinations of energy sources and vehicle type were considered. The overall rankings of the combinations (from highest to lowest) were (1) wind-powered battery-electric vehicles (BEVs), (2) wind-powered hydrogen fuel cell vehicles, (3) concentrated-solar-powered-BEVs, (4) geothermal-powered-BEVs, (5) tidal-powered-BEVs, (6) solar-photovoltaic-powered-BEVs, (7) wave-powered-BEVs, (8) hydroelectric-powered-BEVs, (9-tie) nuclear-powered-BEVs, (9-tie) coal-with-carbon-capture-powered-BEVs, (11) corn-E85 vehicles, and (12) cellulosic-E85 vehicles. The relative ranking of each electricity option for powering vehicles also applies to the electricity source providing general electricity. Because sufficient clean natural resources (e.g., wind, sunlight, hot water, ocean energy, etc.) exist to power the world for the foreseeable future, the results suggest that the diversion to less-efficient (nuclear, coal with carbon ca... |
| 235 | Use of U.S. croplands for biofuels increases greenhouse gases through emissions from land-use change,” - Searchinger, Heimlich, et al. - 2008 |
| 228 | Global and regional climate changes due to black carbon." - Ramanathan, Carmichael - 2008 |
| 212 | Carbon-negative biofuels from low-input high-diversity grassland biomass - Tilman, Hill, et al. - 2006 |
| 203 | Worldwide delivery of river sediments to the oceans./. - Milliman, Meade - 1983 |
| 149 |
Global distribution and climate forcing of carbonaceous aerosols,
- Chung, Seinfeld
- 2002
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Citation Context ... supply, land use, wildlife, resource availability, reliability, thermal pollution, water pollution, nuclear proliferation, and undernutrition. To place electricity and liquid fuel options on an equal footing, twelve combinations of energy sources and vehicle type were considered. The overall rankings of the combinations (from highest to lowest) were (1) wind-powered battery-electric vehicles (BEVs), (2) wind-powered hydrogen fuel cell vehicles, (3) concentrated-solar-powered-BEVs, (4) geothermal-powered-BEVs, (5) tidal-powered-BEVs, (6) solar-photovoltaic-powered-BEVs, (7) wave-powered-BEVs, (8) hydroelectric-powered-BEVs, (9-tie) nuclear-powered-BEVs, (9-tie) coal-with-carbon-capture-powered-BEVs, (11) corn-E85 vehicles, and (12) cellulosic-E85 vehicles. The relative ranking of each electricity option for powering vehicles also applies to the electricity source providing general electricity. Because sufficient clean natural resources (e.g., wind, sunlight, hot water, ocean energy, etc.) exist to power the world for the foreseeable future, the results suggest that the diversion to less-efficient (nuclear, coal with carbon capture) or non-efficient (corn- and cellulosic E85) options r... |
| 128 | Efficacy of climate forcings. - HANSEN, SATO, et al. - 2005 |
| 119 | Control of fossil-fuel particulate black carbon and organic matter, possibly the most effective method of slowing global warming."
- Jacobson
- 2002
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Citation Context ... the solutions on water supply, land use, wildlife, resource availability, reliability, thermal pollution, water pollution, nuclear proliferation, and undernutrition. To place electricity and liquid fuel options on an equal footing, twelve combinations of energy sources and vehicle type were considered. The overall rankings of the combinations (from highest to lowest) were (1) wind-powered battery-electric vehicles (BEVs), (2) wind-powered hydrogen fuel cell vehicles, (3) concentrated-solar-powered-BEVs, (4) geothermal-powered-BEVs, (5) tidal-powered-BEVs, (6) solar-photovoltaic-powered-BEVs, (7) wave-powered-BEVs, (8) hydroelectric-powered-BEVs, (9-tie) nuclear-powered-BEVs, (9-tie) coal-with-carbon-capture-powered-BEVs, (11) corn-E85 vehicles, and (12) cellulosic-E85 vehicles. The relative ranking of each electricity option for powering vehicles also applies to the electricity source providing general electricity. Because sufficient clean natural resources (e.g., wind, sunlight, hot water, ocean energy, etc.) exist to power the world for the foreseeable future, the results suggest that the diversion to less-efficient (nuclear, coal with carbon capture) or non-efficient (corn- and ce... |
| 115 |
Renewable and efficient electric power systems
- Masters
- 2004
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Citation Context ...proliferation, and undernutrition. To place electricity and liquid fuel options on an equal footing, twelve combinations of energy sources and vehicle type were considered. The overall rankings of the combinations (from highest to lowest) were (1) wind-powered battery-electric vehicles (BEVs), (2) wind-powered hydrogen fuel cell vehicles, (3) concentrated-solar-powered-BEVs, (4) geothermal-powered-BEVs, (5) tidal-powered-BEVs, (6) solar-photovoltaic-powered-BEVs, (7) wave-powered-BEVs, (8) hydroelectric-powered-BEVs, (9-tie) nuclear-powered-BEVs, (9-tie) coal-with-carbon-capture-powered-BEVs, (11) corn-E85 vehicles, and (12) cellulosic-E85 vehicles. The relative ranking of each electricity option for powering vehicles also applies to the electricity source providing general electricity. Because sufficient clean natural resources (e.g., wind, sunlight, hot water, ocean energy, etc.) exist to power the world for the foreseeable future, the results suggest that the diversion to less-efficient (nuclear, coal with carbon capture) or non-efficient (corn- and cellulosic E85) options represents an opportunity cost that will delay solutions to global warming and air pollution mortality. The sou... |
| 90 |
The climate response of fossil-fuel and biofuel soot, accounting for soot’s feedback to snow and sea ice albedo and emissivity,
- Jacobson
- 2004
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Citation Context ... global warming, air pollution mortality, and energy security while considering impacts of the solutions on water supply, land use, wildlife, resource availability, reliability, thermal pollution, water pollution, nuclear proliferation, and undernutrition. To place electricity and liquid fuel options on an equal footing, twelve combinations of energy sources and vehicle type were considered. The overall rankings of the combinations (from highest to lowest) were (1) wind-powered battery-electric vehicles (BEVs), (2) wind-powered hydrogen fuel cell vehicles, (3) concentrated-solar-powered-BEVs, (4) geothermal-powered-BEVs, (5) tidal-powered-BEVs, (6) solar-photovoltaic-powered-BEVs, (7) wave-powered-BEVs, (8) hydroelectric-powered-BEVs, (9-tie) nuclear-powered-BEVs, (9-tie) coal-with-carbon-capture-powered-BEVs, (11) corn-E85 vehicles, and (12) cellulosic-E85 vehicles. The relative ranking of each electricity option for powering vehicles also applies to the electricity source providing general electricity. Because sufficient clean natural resources (e.g., wind, sunlight, hot water, ocean energy, etc.) exist to power the world for the foreseeable future, the results suggest that the dive... |
| 62 | Net energy of cellulosic ethanol from switchgrass, - Schmer, Vogel, et al. - 2008 |
| 56 | Ethanol fuels: Energy balance, economics, and environmental impacts are negative. - Pimentel - 2003 |
| 53 | Evaluation of global wind power, - Archer, Jacobson - 2005 |
| 50 | Valuing the greenhouse gas emissions from nuclear power: a critical survey. - Sovacool - 2008 |
| 38 | Effects of ethanol (E85) versus gasoline vehicles on cancer and mortality in the United States. - Jacobson - 2007 |
| 37 | Annual Report on U.S. Wind Power Installation, Cost, and Performance Trends: - Wiser, R, et al. - 2007 |
| 33 | Supplying baseload power and reducing transmission requirements by interconnecting wind farms, - Archer, Jacobson - 2007 |
| 30 | Long term greenhouse gas emissions from the hydroelectric reservoir of Petit Saut (French Guiana) and potential impacts, Global Warming and Hydroelectric Reservoirs, - Delmas - 2005 |
| 30 | Photovoltaics energy payback times, greenhouse gas emissions and external costs: 2004–early 2005 status," - Fthenakis, Alsema - 2006 |
| 27 | Land clearing and the biofuel carbon debt, Science, - Fargione, Hill, et al. - 2008 |
| 27 | On the causal link between carbon dioxide and air pollution mortality. - Jacobson - 2008 |
| 26 | Energy Association (AWEA) - Wind - 2002 |
| 25 | Greenhouse-gas emissions from solar electric- and nuclear power: a lifecycle study. - Fthenakis, Kim - 2007 |
| 25 | A reactor-level analysis of busbar costs for US nuclear plants - Koomey, Hultman - 2007 |
| 25 | Reliability Council - American - 2005 |
| 21 | The energy balance of corn ethanol revisited: 2003 - Shapouri, Duffield, et al. - 2003 |
| 21 | Effects of air pollution on forests. A critical review, - McLaughlin - 1985 |
| 18 | Cleaning the air and improving health with hydrogen fuel cell vehicles, Science, - Jacobson, Colella, et al. - 2005 |
| 18 | Life-cycle assessment of electricity generation systems and applications for climate change policy analysis, Fusion Technology Institute, - Meier - 2002 |
| 16 | Switching to a U.S. Hydrogen Fuel Cell Vehicle Fleet: The Resultant Change in Energy Use, - Colella, Jacobson, et al. - 2005 |
| 16 | California offshore wind energy potential. - Dvorak, Archer, et al. - 2010 |
| 15 | Large CO2 reductions via offshore wind powermatched to inherent storage in energy enduses. - Kempton, Archer, et al. - 2007 |
| 15 | Net Energy Analysis for Sustainable Energy Production from Silicon Based Solar Cells. - Pearce, Lau - 2002 |
| 15 | The short-term cooling and long-term global warming due to biomass burning, - Jacobson - 2004 |
| 15 | The nuclear energy option, - Cohen - 1990 |
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| 13 | Fuel from the sky: Solar Power's Potential for Western Energy Supply, - Leitner - 2002 |
| 13 | Life cycle environmental and economic assessment of willow biomass electricity: A comparison with other renewable and non-renewable sources, - Spitzley, Keoleian - 2005 |
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| 12 |
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(Show Context)
Citation Context ...der context This paper reviews and ranks major proposed energy-related solutions to global warming, air pollution mortality, and energy security while considering impacts of the solutions on water supply, land use, wildlife, resource availability, reliability, thermal pollution, water pollution, nuclear proliferation, and undernutrition. To place electricity and liquid fuel options on an equal footing, twelve combinations of energy sources and vehicle type were considered. The overall rankings of the combinations (from highest to lowest) were (1) wind-powered battery-electric vehicles (BEVs), (2) wind-powered hydrogen fuel cell vehicles, (3) concentrated-solar-powered-BEVs, (4) geothermal-powered-BEVs, (5) tidal-powered-BEVs, (6) solar-photovoltaic-powered-BEVs, (7) wave-powered-BEVs, (8) hydroelectric-powered-BEVs, (9-tie) nuclear-powered-BEVs, (9-tie) coal-with-carbon-capture-powered-BEVs, (11) corn-E85 vehicles, and (12) cellulosic-E85 vehicles. The relative ranking of each electricity option for powering vehicles also applies to the electricity source providing general electricity. Because sufficient clean natural resources (e.g., wind, sunlight, hot water, ocean energy, etc.) exi... |
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| 11 |
Critical review – Health effects of fine particulate air pollution: Lines that connect,
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(Show Context)
Citation Context ... proposed energy-related solutions to global warming, air pollution mortality, and energy security while considering impacts of the solutions on water supply, land use, wildlife, resource availability, reliability, thermal pollution, water pollution, nuclear proliferation, and undernutrition. To place electricity and liquid fuel options on an equal footing, twelve combinations of energy sources and vehicle type were considered. The overall rankings of the combinations (from highest to lowest) were (1) wind-powered battery-electric vehicles (BEVs), (2) wind-powered hydrogen fuel cell vehicles, (3) concentrated-solar-powered-BEVs, (4) geothermal-powered-BEVs, (5) tidal-powered-BEVs, (6) solar-photovoltaic-powered-BEVs, (7) wave-powered-BEVs, (8) hydroelectric-powered-BEVs, (9-tie) nuclear-powered-BEVs, (9-tie) coal-with-carbon-capture-powered-BEVs, (11) corn-E85 vehicles, and (12) cellulosic-E85 vehicles. The relative ranking of each electricity option for powering vehicles also applies to the electricity source providing general electricity. Because sufficient clean natural resources (e.g., wind, sunlight, hot water, ocean energy, etc.) exist to power the world for the foreseeable futu... |
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| 2 | Cellulose ethanol is ready to go, - Hladik - 2006 |
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