Battery Technology for Electric Vehicles

References

Anderson, D. L., and Patiño-Echeverri, S. (2009). An Evaluation of Current and Future Costs for Lithium-ion Batteries for Use in Electrified Vehicle Powertrains. Unpublished master’s project. Durham, NC: Duke University.

Argonne National Laboratory (ANL). (2012, December). GREET life-cycle model. Retrieved from <http://greet.es.anl.gov/> (accessed 30 September 2014).

Arrow, K. J. (1962). Economic welfare and the allocation of resources for invention. In R. R. Nelson (Ed.) The Rate and Direction of Inventive Activity: Economic and Social Factors, Princeton, NJ: Princeton University Press, pp. 609–626.

Axsen, J., Burke, A., and Kurani, K. (2008). Batteries for Plug-in Hybrid Electric Vehicles (PHEVs): Goals and the State of Technology circa 2008. Davis, CA: University of California at Davis Institute of Transportation Studies.

Beresteanu, A., and Shanjun, L. (2011). Gasoline prices, government support, and the demand for hybrid vehicles in the U.S. International Economic Review, 52: 161–182.

Blackenship, D., Sandia National Laboratory (2009). Personal communication with Michael Gallaher and Alex Rogozhin, RTI International.

Bush, V. (1945). Science – The Endless Frontier, Washington, DC: National Science Foundation.

Dockery, D. W., Cunningham, J., Damokosh, A. I., Neas, L. M., Spengler, J. D., Koutrakis, P., et al. (1996). Health effects of acid aerosols on North American children: Respiratory symptoms. Environmental Health Perspectives, 104: 500–505.

Dooley, J. J. (2008). U.S. federal investments in energy R&D: 1961–2008. Pacific Northwest National Laboratory, U.S. Department of Energy.

Fehner, T., and Holl, J. M. (1994). Department of Energy 1977–1994: A summary history. Washington, DC: U.S. Department of Energy, History Division.

Gallaher, M. P., Link, A. N., and O’Connor, A. C. (2012). Public Investments in Energy Technology, London: Edward Elgar.

Gallaher, M. P., Rogozhin, A., and Petrusa, J. (2010). Retrospective benefit–cost evaluation of U.S. DOE geothermal technologies R&D program investments: Impacts of a cluster of energy technologies. Washington, DC: U.S. Department of Energy.

Griliches, Z. (1958). Research costs and social returns: Hybrid corn and related innovations. Journal of Political Economy, 66: 419–431.

Howell, D. (2011). Electric drive vehicle battery research activities at the U.S. Department of Energy. Paper presented at the 5th International Forum on Li-ion Battery Technology and Industrial Development, Beijing, China.

Hufschmidt, M. M. (2000). Benefit–cost analysis: 1922–1985. Journal of Contemporary Water Research and Education, 116: 42–49.

Huo, H., Wu, Y., and Wang, M. (2009). Total versus urban: Well-to-wheels assessment of criteria pollutant emissions from various vehicle/fuel systems. Atmospheric Environment, 43: 1796–1804.

Jaffe, A. B. (1998). The Importance of spillovers in the policy mission of the Advanced Technology Program. The Journal of Technology Transfer, 23: 11–19.

Jaffe, A. B., Newell, R. G., and Stavins, R. N. (2005). A tale of two market failures: Technology and environmental policy. Ecological Economics, 54: 164–174.

Krewski, D., Jerrett, M., Burnett, R. T., Ma, R., Hughes, E., Shi, Y., et al. (2009). Extended follow-up and spatial analysis of the American Cancer Society study linking particulate air pollution and mortality. Research Report of the Health Effects Institute, 140: 5–114; discussion 115–136.

Laden, F., Schwartz, J., Speizer, F. E., and Dockery, D. W. (2006). Reduction in fine particulate air pollution and mortality: Extended follow-up of the Harvard Six Cities Study. American Journal of Respiratory and Critical Care Medicine, 173: 667–672.

Link, A. N. (1999). Public/private partnerships in the United States. Industry and Innovation, 6: 191–217.

Link, A. N. (2006). Public/Private Partnerships: Innovation Strategies and Policy Alternatives, New York: Springer.

Link, A. N. (2010). Retrospective benefit–cost evaluation of U.S. DOE vehicle combustion engine R&D investments: Impacts of a cluster of energy technologies. Washington, DC: U.S. Department of Energy.

Link, A. N., and Link, J. R. (2009). Government as Entrepreneur, New York: Oxford University Press.

Link, A. N., and Scott, J. T. (1998). Public Accountability: Evaluating Technology-Based Institutions, Norwell, MA: Kluwer Academic Publishers.

Link, A. N., and Scott, J. T. (2010). Public Goods, Public Gains: Calculating the Social Benefits of Public R&D. New York: Oxford University Press.

Link, A. N., and Scott, J. T. (2012). The theory and practice of public-sector R&D economic impact analysis: Planning Report 11-1. Gaithersburg, MD: National Institute of Standards and Technology.

Lowe, M., Tokuoka, S., Trigg, T., and Gereffi, G. (2010). Lithium-ion Batteries for Electric Vehicles: The U.S. Value Chain. Duke University, Center on Globalization, Governance and Competitiveness, Durham, NC. Retrieved from <http://unstats.un.org/unsd/trade/s_geneva2011/refdocs/RDs/Lithium-Ion%20Batteries%20%28Gereffi%20-%20May%202010%29.pdf> (accessed 30 September 2014).

Mansfield, E., Rapoport, J., Romeo, A., Wagner, S., and Beardsley, G. (1977). Social and private rates of return from industrial innovations. Quarterly Journal of Economics, 91: 221–240.

Mar, T. F., Larson, T. V., Stier, R. A., Claiborn, C., and Koenig, J. Q. (2004). An analysis of the association between respiratory symptoms in subjects with asthma and daily air pollution in Spokane, Washington. Inhalation Toxicology, 16: 809–815.

Martin, S., and Scott, J. T. (2000). The nature of innovation market failure and the design of public support for private innovation. Research Policy, 29: 437–447.

Moolgavkar, S. H. (2000). Air pollution and hospital admissions for chronic obstructive pulmonary disease in three metropolitan areas in the United States. Inhalation Toxicology, 12(Supplement 4): 75–90.

Moolgavkar, S. H. (2003). Air pollution and daily deaths and hospital admissions in Los Angeles and Cook Counties. In Revised Analyses of Time-Series Studies of Air Pollution and Health, Boston, MA: Health Effects Institute, pp. 183–198.

National Institute of Standards and Technology (NIST). (1997). Economic assessment of the NIST thermocouple calibration program: Planning Report 97-1. Gaithersburg, MD: National Institute of Standards and Technology.

National Institute of Standards and Technology (NIST). (1999). Economic assessment of the NIST alternative refrigerants research program: Planning Report 98-1. Gaithersburg, MD: National Institute of Standards and Technology.

National Institute of Standards and Technology (NIST). (2000). The economic impact of NIST’s cholesterol standards program: Planning Report 00-4. Gaithersburg, MD: National Institute of Standards and Technology.

National Research Council (NRC). (1998). Effectiveness of the United States Advanced Battery Consortium as a Government-Industry Partnership. Washington, DC: National Academy Press.

National Research Council (NRC). (2001). Energy Research at DOE: Was It Worth It? Energy Efficiency and Fossil Energy Research 1978 to 2000. Washington, DC: National Academy Press.

Nixon, R. M. (1974). Address on the state of the union delivered before a joint session of the Congress, January 30, 1974. Retrieved from <www.presidency.ucsb.edu/ws/index.php?pid=4327> (accessed 30 September 2014).

Novák, P., Goers, D., and Spahr, M. E. (2010). Carbon materials in Lithium-ion batteries. In F. Béguin and E. Frackowiak (Eds.) Carbons for Electrochemical Energy Storage and Conversion Systems, London: CRC Press, pp. 263–328.

Oakes, M. J. (2006). A brief history of batteries and stored energy, Neta World Summer: 1–6.

O’Connor, A. C., Loomis, R. J., and Braun, F. M. (2010). Retrospective benefit–cost evaluation of DOE investment in photovoltaic energy systems. Washington, DC: U.S. Department of Energy.

O’Connor, A. C., Gallaher, M. P., Loomis, R. J., and Casey, S. E. (2013). Estimating avoided environmental emissions and environmental health benefits. In A. N. Link and N. S. Vonortas (Eds.) Handbook on the Theory and Practice of Program Evaluation, Cheltenham: Edward Elgar, pp. 247–290.

Office of Management and Budget (OMB). (1992). Circular No. A–94: Guidelines and discount rates for benefit–cost analysis of federal programs. Washington, DC: U.S. Government Printing Office.

Office of Management and Budget (OMB). (2003). Circular No. A–4: Regulatory analysis, Washington, DC: U.S. Government Printing Office.

Office of Technology Assessment (OTA). (1995). Advanced automotive technology: Visions of a super-efficient family car. OTA-ETI-638, Washington, DC: U.S. Government Printing Office.

Office of Technology Policy. (1996). Effective Partnering: A Report to Congress on Federal Technology Partnerships, Washington, DC: U.S. Department of Commerce.

Ostro, B. D. (1987). Air pollution and morbidity revisited: A specification test. Journal of Environmental Economics and Management, 14: 87–98.

Ostro, B. D., Lipsett, M., Mann, J., Braxton-Owens, H., and White, M. (2001). Air pollution and exacerbation of asthma in African-American children in Los Angeles. Epidemiology, 12: 200–208.

Ostro, B. D., and Rothschild, S. (1989). Air pollution and acute respiratory morbidity: An observational study of multiple pollutants. Environmental Research, 50: 238–247.

Peters, A., Dockery, D. W., Muller, J. E., and Mittleman, M. A. (2001). Increased particulate air pollution and the triggering of myocardial infarction. Circulation, 103: 2810–2815.

Pope, C. A., Burnett, R. T., Thun, M. J., Calle, E. E., Krewski, D., Ito, K., and Thurston, G. D. (2002). Lung cancer, cardiopulmonary mortality, and long-term exposure to fine particulate air pollution. Journal of the American Medical Association, 287: 1132–1141.

RTI International. (2013). Benefit–cost evaluation of U.S. DOE investment in energy storage technologies for hybrid and electric cars and trucks. Final report to the Office of Energy Efficiency and Renewable Energy, U.S. Department of Energy.

Ruegg, R. R., and Jordan, G. (2011). Guide for conducting benefit–cost evaluation of realized impacts of public R&D programs, Washington, DC: U.S. Department of Energy.

Ruegg, R. R., and Thomas, P. (in press). Knowledge benefits from DOE-funded research in energy storage R&D for hybrid and electric vehicles. Washington, DC: U.S. Department of Energy.

Schwartz, J., and Neas, L. M. (2000). Fine particles are more strongly associated than coarse particles with acute respiratory health effects in schoolchildren. Epidemiology, 11: 6–10.

Sheppard, L. (2003). Ambient air pollution and nonelderly asthma hospital admissions in Seattle, Washington, 1987–1994. In Revised Analyses of Time-Series Studies of Air Pollution and Health, Boston, MA: Health Effects Institute, pp. 227–230.

Sheppard, L., Levy, D., Norris, G., Larson, T. V., and Koenig, J. Q. (1999). Effects of ambient air pollution on nonelderly asthma hospital admissions in Seattle, Washington, 1987–1994. Epidemiology, 10: 23–30.

Sissine, F. (1996). The Partnership for a New Generation of Vehicles (PNGV). CRS Report 96-191. Retrieved from <http://ftp.ncseonline.org/nle/crs/abstract.cfm?NLEid=801> (accessed 30 September 2014).

Sperling, D. (2001). Public-private technology R&D partnerships: Lessons from U.S. partnership for a new generation of vehicles. Transport Policy, 8: 247–256.

Tassey, G. (2003). Methods for Assessing the Economic Impacts of Government R&D: NIST Planning Report 03-1. Gaithersburg, MD: National Institute of Standards and Technology.

Trinkle, D. S. (2009). A Vehicle for Change: PNGV, an Experiment in Government-Industry Cooperation. The Pardee RAND Graduate School.

U.S. Census Bureau. (annual). Statistical Abstract of the United States. Retrieved from <www.census.gov/prod/2011pubs/12statab/pop.pdf> (accessed 30 September 2014).

U.S. Department of Commerce, Bureau of Economic Analysis, downloaded from the St. Louis Federal Reserve, 3–4. Retreived from <http://research.stlouisfed.org/fred2/series/GDPCTPI/downloaddata?cid=21> (accessed 30 September 2014).

U.S. Department of Energy (DOE). (2012). Transportation energy data book, edition 31. Washington, DC: U.S. Department of Energy.

U.S. Department of Energy (DOE). (2013). Ethanol blends. Retrieved from <www.afdc.energy.gov/fuels/ethanol_blends.html> (accessed 30 September 2014).

U.S. Energy Information Administration (EIA). (2012a). AEO2013: Figure 11—U.S. liquid fuels supply, 1970-2040 (million barrels per day). Retrieved from <www.eia.gov/forecasts/aeo/er/excel/overview.fig11.data.xls> (accessed 30 September 2014).

U.S. Energy Information Administration (EIA). (2012b). Frequently asked questions: How many gallons of gasoline does one barrel of oil make? Retrieved from <www.eia.gov/tools/faqs/faq.cfm?id=24andt=10> (accessed 30 September 2014).

U.S. Energy Information Administration (EIA) (2013). Annual Energy Outlook 2013, Washington, DC, U.S. Department of Energy.

U.S. Environmental Protection Agency (U.S. EPA). (2000). Control of air pollution from new motor vehicles: Tier 2 motor vehicle emissions standards and gasoline sulfur control requirements. Federal Register, 65: 6698–6870.

U.S. Environmental Protection Agency (U.S. EPA). (2012a). Greenhouse gas emissions. Retrieved from <www.epa.gov/climatechange/ghgemissions/gases.html> (accessed 30 September 2014).

U.S. Environmental Protection Agency (U.S. EPA). (2012b). Greenhouse gas equivalencies calculator. Retrieved from <www.epa.gov/cleanenergy/energy-resources/calculator.html> (accessed 30 September 2014).

U.S. Environmental Protection Agency (U.S. EPA). (2012c). The social cost of carbon. Retrieved from <www.epa.gov/climatechange/EPAactivities/economics/scc.html> (accessed 30 September 2014).

U.S. Environmental Protection Agency (U.S. EPA). (2012d). User’s manual for the Co-Benefits Risk Assessment (COBRA) screening model. Retrieved from <www.epa.gov/statelocalclimate/documents/pdf/COBRA_manual.pdf> (accessed 30 September 2014).

U.S. Environmental Protection Agency (U.S. EPA). (2012e). What are the six common air pollutants? Retrieved from <www.epa.gov/air/urbanair/> (accessed 30 September 2014).

U.S. Environmental Protection Agency (U.S. EPA). (2013). MOVES (motor vehicle emission simulator). Retrieved from <www.epa.gov/otaq/models/moves/index.htm> (accessed 30 September 2014).

Woodruff, T. J., Grillo, J., and Schoendorf, K. C. (1997). The relationship between selected causes of postneonatal infant mortality and particulate air pollution in the United States. Environmental Health Perspectives, 105(6): 608–612.

Woods & Poole Economics Inc. (2011). 2012 complete U.S. demographic database files. Washington, DC: Woods & Poole Economics Inc.

Wu, Y., Wang, M. Q., Sharer, P. B., and Rousseau, A. (2006). Well-to-wheels results of energy use, greenhouse gas emissions and criteria air pollutant emissions of selected vehicle/fuel systems. 2006-01-0377. New York: SAE International. Retrieved from <www.autonomie.net/docs/6%20-%20Papers/WTW/wtw_selected_vehicle_fuels_systems.pdf> (accessed 30 September 2014).