Natural Resources, Renewable Energy Sources, GHG-emission and Demographic Profiles in United States: A Broad Analysis for Developing Sustainable Low-Carbon Energy Sector

Bobban Subhadra

Abstract


Renewable energy production is a priority policy agenda in US. The natural and renewable energy resource availability, energy use trends and demographic profiles are all critical components for correctly gearing the proper and sustainable development of this sector. Co-assessment of the natural and renewable energy resources in US is a must for renewable energy industry growth without dramatic environmental detrimental effects. For analyzing the natural and renewable energy resources and its developmental potential, this concept paper divides US into seven different regions (R-1: Northeast; R-2: Southeast; R-3: Midwest; R-4: Southcentral; R-5: Northwest; R-6: Southwest; R-7: Alaska & Hawaii). Based on parameters such as land availability, water resource availability, demographic patterns, and renewable energy sources, natural resource index (NRI), renewable energy index (REI) and development potential index (DPI) were defined and calculated for these various regions. Our analysis showed that R-6 had high NRI (6) and REI (14). Therefore it had the highest DPI (20). There were also marked differences in various regions with respect to energy use and GHG-emissions. The R-3, R-4 and R-5 regions had high-energy use and GHG-emissions. In light of these broader trends, the implications and the need for regional prioritization, resource coupling, investment allocation, and future policy directions for optimal and sustainable renewable energy production were discussed.

Keywords


Bioenergy; Renewable energy; Low-carbon energy; US Energy Policy

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References


Allenby, B. (2006). The ontologies of industrial ecology. Progress in Industrial Ecology, 2, 28-40.
Allcott, H., & Mullainathan, S. (2010). Behavior and energy policy. Science, 327, 1204-1205.
Anadon, L. D., Bunn, M., Jones, C., & Narayanamurti, V. (2010). U.S. Public Energy Innovation Institutions and Mechanisms: Status & Deficiencies. Policy Memo, Science, Technology, and Public Policy Program, Belfer Center for Science and International Affairs, Harvard Kennedy School, January 14, 2010.
Arent, D. J., Wise, A., & Gelman, R. (2011). The status and prospects of renewable energy for combating global warming. Energy Economics, 33, 584-593.
AWEA. (2008). 20% Wind Energy by 2030 American Wind Energy Association.
AWEA. (2011). U.S. Wind Industry First Quarter 2011 Market Report American Wind Energy Association.
Bang, G. (2010). Energy security and climate change concerns: Triggers for energy policy change in the United States? Energy Policy, 38, 1645-1653.
Bazilian, M., Rogner, H., Howells, M., Hermann, S., Arent, D., Gielen, D., Steduto, P., Mueller, A., Komor, P., Tol, R. S. J., & Yumkella, K. K. (2011). Considering the energy, water and food nexus: Towards an integrated modeling approach. Energy Policy, 39, 7896-7906.
Berkoff, J. (2003). China: The South-North water transfer Project- Is it justified? Water Policy, 5, 1-18.
Bhardwaj, A. K., Zenone, T., Jasrotia, P., Robertson, G. P., Chen, J., & Hamilton, S. K. (2011). Water and energy footprints of bioenergy production on marginal lands. Global GCB Bioenergy, 3, 208-222.
Carley, S. (2011). Decarbonization of the U.S. electricity sector: Are state energy policy portfolios the solution? Energy Economics, 33, 1004-1023.
Carley, S., Lawrence, S., Brown, A., Nourafshan, A., & Benami, E. (2011). Energy-based economic development. Renewable and Sustainable Energy Reviews, 15, 282-295.
Daim, T., Yates, D., Peng, Y., & Jimenez, B. (2009). Technology assessment for clean energy technologies: the case of the Pacific Northwest. Technology in Society, 31, 232-243.
Delmas, M. A., & Montes-Sanch, M. J. (2011). U.S. state policies for renewable energy: Context and effectiveness. Energy Policy, 39, 2273-2288.
Delshad, A. B., Raymond, L., Sawicki, V., & Wegener, D.T. (2010). Public attitudes toward political and technological options for biofuels. Energy Policy, 38, 3414-3425.
Diffen, B. H. (2009). Competitive renewable energy zones: How the texas wind industry is cracking the chicken and egg problem. Rocky Mountain Mineral Law Foundation Journal, 46, 47-98.
EIA, (2009). Electricity. U.S. Energy Information Administration. November 19, 2009. Retrieved from http://tonto.eia.doe.gov/ask/electricity_faqs.asp#electric_rates2. Accessed on 2010-03-28.
EIA, (2012). Annual Energy Outlook. AEO2012 Early Release Overview. Retrieved from http://www.eia.gov/forecasts/aeo/er/pdf/0383er%282012%29.pdf Accessed on 2012-03-19.
Ehrenfeld, J. (2004). Can industrial ecology be the science of sustainability? Journal of Industrial Ecology, 8, 1-3.
Gerbens-Leenes, W., Hoekstra, A. Y., van der Meer, T. H. (2009). The water footprint of bioenergy. Proceedings of National Academies of Science USA, 106, 10219-10223.
Godfray, H. C., Beddington, J. R., Crute, I. R., Haddad, L., Lawrence, D., Muir, J.F., Pretty, J., Robinson, S., Thomas, S. M., & Toulmin, C. (2010). Food security: the challenge of feeding 9 billion people. Science, 327, 812–818.
Greenberg, M. R. (2010). Energy parks for former nuclear weapons sites? Public preferences at six regional locations and the United States as a whole. Energy Policy, 38, 5098-5107
GWEC (2010). Global Wind 2009 Report. Global Wind Energy Council, Brussels, Belgium (2010).
Harris, G. (2002). Energy, Water, and Food Scenarios. Best Partners.
Hoekstral, A. Y., & Mekonnen, M. (2012). The water footprint of humanity. Proceedings of National Academies of Sciences USA, 109, 3232-3237.
IFPRI. (2009). Climate change: impact on agriculture and costs of adaptation. Food Policy Report. International Food Policy Research Institute, Washington DC.
Jacobson, M. Z. (2009). Review of solutions to global warming, air pollution, and energy security. Energy and Environmental Science, 2, 148-173.
Jacobson, M. Z., & Delucchi, M. A., (2011a). Providing all global energy with wind, water, and solar power, Part I: Technologies, energy resources, quantities and areas of infrastructure, and materials. Energy Policy, 39, 1154-1169.
Jacobson, M. Z., & Delucchi, M. A. (2011b). Providing all global energy with wind, water, and solar power, Part II: Reliability, system and transmission costs, and policies. Energy Policy, 39, 1170-1190.
Jensen, J. R., Halvorsen, K. E., & Shonnard, D. R. (2011). Ethanol from lignocelllulosics, U.S federal energy and agricultural policy, and the diffusion of innovation. Biomass and Bioenergy, 35, 1440-1453.
Laird, F. N., & Stefes, C. (2009). The diverging paths of German and United States policies for renewable energy: Sources of difference. Energy Policy, 37, 2619-2629.
Lund, H. (2007). Renewable energy strategies for sustainable development. Energy, 32, 912-919.
Maes, T., Eetvelde, G. V., Ras, E. D., Block, C., Pisman, A., Verhofstede, B., Vandendriessche, F., & Vandevelde, L. (2011). Energy management on industrial parks in Flanders. Renewable and Sustainable Energy Reviews, 15, 1988-2005.
Marshall, E., Weinberg, M., Wunder, S., & Kaphengst, T. (2011). Environmental dimensions of bioenergy development. Eurochoices, 10, 43-49.
McDonald, R. I., Fargione, J., Kiesecker, J., Miller, W. M., & Powell, J. (2009). Energy sprawl or energy efficiency: climate policy impacts on natural habitat for the United States of America. PLoS ONE 4, e6802. Doi:10.1371/journal.pone.0006802.
Miah, M. S., Ahmed, N. U., & Chowdhury, M. (2012). Optimum policy for integration of renewable energy sources into the power generation system. Energy Economics, 34, 558-567.
Milbrandt, A. (2005). Geographic Perspective on the Current Biomass Resource Availability in the United States. Technical Report NREL/TP-560-39181.
Morrow, R.W., Gallagher, K. S., Collantes, G., & Lee, H. (2010). Analysis of policies to reduce oil consumption and greenhouse-gas emission from the US transportation sector. Energy Policy, 38, 1305-1320.
National Energy Policy Report, (2001). Report of the National Energy Policy Development Group. U.S Government Printing Office.
NREL. (2011). National Renewable Energy Lab. DOE, Wind Powering America US Installed Wind Power.
Opperman, J. J., Galloway, G. E., Fargione, J., Mount, J. F., Richter, B. D., & Secchi, S. (2009). Sustainable floodplains through large-scale reconnection to rivers. Science, 326, 1487-1488.
Pate, R., Klise, G., & Wu, B. (2011). Resource demand implications for US algae biofuels production scale up. Applied Energy, 38, 3377-3388.
PCAST. (2010, November). Report to the President on “Accelerating the Pace of Change in Energy Technologies Through an Integrated Federal Energy Policy”. Executive Office of the President, President’s Council of Advisors on Science and Technology (PCAST).
PCAST. (2011, July). Report to the President on “Sustaining environmental capital: protecting society and the economy”. Executive Office of the President, President’s Council of Advisors on Science and Technology (PCAST).
Peterson T. D., & Rose, A. Z. (2006). Reducing conflicts between climate policy and energy policy in the US: The important role of the states. Energy Policy, 34, 619-631.
Pinter, N. (2005). One step forward, two steps back on US floodplains. Science, 308, 207-208.
Prasad, M., & Munch, S. (2012). State-level renewable electricity policies and reductions in carbon emissions. Energy Policy, 45, 237-242.
Ramseur, J.L. (2007). State Greenhouse Gas Emissions: Comparison and Analysis. CRS report for Congress .
Resch, G., Held, A., Faber, T., Panzer, C., Toro, F., & Haas, R. (2008). Potentials and prospects for renewable energy at global scale. Energy Policy, 36, 4048–4056.
Richard, T. L. (2010). Challenges in scaling up biofuel infrastructure. Science, 329, 793-795.
Sachs, J., Remans, R., Smukler, S., Winowiecki, L., Andelman, S.J., Cassman, K.G.,Castle, D., et al. (2010). Monitoring the world’s agriculture. Nature, 466, 558-560.
Scott, C. A., Pierce, S. A., Pasqualetti, M. J., Jones, A. L., Montz, B. E., & Hoover, J. H. (2011). Policy and institutional dimensions of the water-energy nexus. Energy Policy, 39, 6622-6630.
Searchinger, T., Heimlich, R., Houghton, R. A., Dong, F., Elobeid, A., Fabiosa, J., Tokgoz, S., et al. (2008). Use of US croplands for biofuels increases greenhouse gases through emissions from land-use change. Science, 319, 1238-1240.
Sherwood, L. (2011). US Solar Market Trends 2010, June 2011. Inter State Renewable Energy Council.
Skoglund, A., Leijon, M., Rehn, A., Lindahl, M., & Waters, R. (2010). On the physics of power, energy and economics of renewable electric energy sources-part II. Renewable Energy, 35, 1735-1740.
Sommerville, C., Young, H., Taylor, C., Davis, S. C., & Long, S. P. (2010). Feedstocks for lignocellulosic biofuel. Science, 329, 790-792.
Subhadra, B., & Edwards, M. (2010). An integrated renewable energy park approach for algal biofuel production in United States. Energy Policy, 38, 4897-4902.
Subhadra, B., 2010a. Sustainability of algal biofuel production using integrated renewable energy park and algal biorefinery approach. Energy Policy 38, 5892-5901.
Subhadra, B. (2010b). Overuse Could Leave Southwest High and Dry. Science, 329, 1282-1283.
Subhadra, B. (2010c). Water: Biofuel saps supplies. Nature, 468, 173.
Subhadra, B. (2010d). Comment on “Environmental Life Cycle Comparison of Algae to Other Bioenergy Feedstocks”. Environmental Science and Technology, 44, 3641-3642.
Subhadra, B. (2011a). Macro-level integrated renewable energy production schemes for sustainable development. Energy Policy, 39, 2193-2196.
Subhadra, B. (2011b). Water management policies for the algal biofuel sector in the Southwestern United States. Applied Energy, 88, 3492-3498.
Subhadra, B. (2011c). Food for thought on climate policy. Science, 332, 173.
Subhadra, B., & Edwards, B. (2011). Coproduct market analysis and water footprint of simulated commercial algal biorefineries. Applied Energy, 88, 3515-3523.
Subhadra, B., & Grinson-George. (2011). Algal biorefinery-based industry: an approach to address fuel and food insecurity for a carbon-smart world. Journal of the Science of Food and Agriculture, 91, 2-13.
Subhadra, B. (2013). Environmental benefits of integrated algal biorefineries for large-scale biomass conversion. In Biomass Conversion, New and Future Developments in Catalysis (Editor, Suib., S). Elsevier Publications (in press)
Taylor, G. (2008). Biofuels and the biorefinery concept. Energy Policy, 36, 4406-4409.
Timilsina, G. R., Kurdgelashvili, L., & Narbel, P. A. (2011). A Review of Solar Energy: Markets, Economics and Policies., The World Bank Development Research Group. Environment and Energy Team October 2011. Policy Research Working Paper 5845.
US Census Bureau. (2011). Retrieved from http://www.census.gov/compendia/statab/cats/population.html.
US DOE. (2009). Installed Wind Capacity by State, As of December 31, 2009. Retrieved from http://www.windpoweringamerica.gov/wind_installed_capacity.asp. (accessed 3.03.2011).
US DOE. (2012). Energy Efficiency and Renewable Energy, Biomass Program information.
US Energy Information Administration, State Energy Data 2009; Consumption.
Verbruggen, A., Fischedick, M., Moomaw, W., Weir, T., Nadaı¨, A., Nilsson, L.J., Nyboer, J., & Sathaye, J. (2010). Renewable energy costs, potentials, barriers: conceptual issues. Energy Policy, 38, 850-861.
Victor, D.G. (2004). Climate Change: Debating America’s Policy Options. Washington DC: Council on Foreign Relations Press.
Vörösmarty, C.J., Green, P., Salisbury, J., & Lammers, R.B. (2000). Global water resources: Vulnerability from climate change and population growth. Science, 289, 284-288.
Willems, P.A. (2009). The biofuels landscape through the lens of industrial chemistry. Science, 325, 707-708.
Wüstenhagen, R., Wolsink, M., & Bürer, M.J. (2007). Social acceptance of renewable energy innovation: An introduction to the concept. Energy Policy, 35, 2683-2691.
WWF. (2011). The Energy Report: 100% Renewable Energy. by 2050 / WWF, AMO, Ecofys.
Yarano, D. (2008). Minnesota Model Encourages Community Wind. Zackin Publications Inc.




DOI: http://dx.doi.org/10.3968/j.est.1923847920130502.3429

DOI (PDF): http://dx.doi.org/10.3968/g4214

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