Hostname: page-component-78c5997874-j824f Total loading time: 0 Render date: 2024-11-10T16:07:06.896Z Has data issue: false hasContentIssue false
  • English
  • Français

Policies to Facilitate Conversion of Millions of Acres to the Production of Biofuel Feedstock

Published online by Cambridge University Press:  26 January 2015

Francis M. Epplin  and
Mohua Haque
Francis M. Epplin
Affiliation:
Department of Agricultural Economics, Oklahoma State University, Stillwater, Oklahoma
Mohua Haque
Affiliation:
Department of Agricultural Economics, Oklahoma State University, Stillwater, Oklahoma
Get access Rights & Permissions [Opens in a new window]

Abstract

First-generation grain ethanol biofuel has affected the historical excess capacity problem in U.S. agriculture. Second-generation cellulosic ethanol biofuel has had difficulty achieving cost-competitiveness. Third-generation drop-in biofuels are under development. If lignocellulosic biomass from perennial grasses becomes the feedstock of choice for second- and third-generation biorefineries, an integrated system could evolve in which a biorefinery directly manages feedstock production, harvest, storage, and delivery. Modeling was conducted to determine the potential economic benefits from an integrated system. Relatively low-cost public policies that could be implemented to facilitate economic efficiency are proposed.

Keywords

biomassbio-oilcellulosicdrop-in fuelsethanolland-lease contractlignocellulosicpyrolysisswitchgrassQ16Q18Q15Q42
Type
Invited Paper Sessions
Information
Journal of Agricultural and Applied Economics , Volume 43 , Issue 3 , August 2011 , pp. 385 - 398
Copyright
Copyright © Southern Agricultural Economics Association 2011

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Adler, P.R., Sanderson, M.A., Boateng, A.A., Weimer, P.J., and Jung, H.J.G.Biomass Yield and Biofuel Quality of Switchgrass Harvested in Fall or Spring.Agronomy Journal 98(2006):1518-25.CrossRefGoogle Scholar
AGCO Corporation. 2010. Internet site: www.agcocorp.com/ (Accessed February 2010).Google Scholar
American Society of Agricultural and Biological Engineers. ASABE standards, Agricultural Machinery Management, ASAE EP496.3 February 2006.Google Scholar
Brechbill, S.C., and Tyner, W.E.The Economics of Biomass Collection, Transportation, and Supply to Indiana Cellulosic and Electric Utility Facilities.” Working Paper 08-03, Purdue University, West Lafayette, IN, 2008.Google Scholar
Bush G.W. State of the Union Address by the President, United States Capitol, Washington D.C., January 31, 2006. Internet site: http://georgewbush-whitehouse.archives.gov/stateoftheunion/2006/ (Accessed February 2010).Google Scholar
Crossley, S., Faria, J., Shen, M., and Resasco, D.E.Solid Nanoparticles That Catalyze Biofuel Upgrade Reactions at the Water/Oil Interface.Science 327(2009):6872.CrossRefGoogle Scholar
Duffy, M.Estimated Costs for Production, Storage and Transportation of Switchgrass.” Iowa State University Extension, PM 2042, 2007.Google Scholar
Epplin, F.M.Cost to Produce and Deliver Switchgrass Biomass to an Ethanol-Conversion Facility in the Southern Plains of the United States.Biomass and Bioenergy 11(1996):459-67.CrossRefGoogle Scholar
Epplin, F.M., Clark, C.D., Roberts, R.K., and Hwang, S.Challenges to the Development of a Dedicated Energy Crop.American Journal of Agricultural Economics 89(2007):1296302.CrossRefGoogle Scholar
Epplin, F.M., Mapemba, L.D., and Tembo, G.Economic Modeling of a Lignocellulosic Biomass Biorefining Industry.” Agriculture as a Producer and Consumer of Energy. Outlaw, J., Collins, K. and Duffield, J., eds., Chapter 11. London: CAB International, 2005, pp. 205-17.CrossRefGoogle Scholar
Frontline. “HEAT: Two Instructive Lessons from the Past.” Public Broadcasting Service. October 21, 2008.Google Scholar
Fuentes, R.G., and Taliaferro, C.M.Biomass Yield Stability of Switchgrass Cultivars.” Trends in New Crops and New Uses. Janick, J. and Whipkey, A., eds. Alexandria, VA: ASHS Press, 2002, pp. 276-82.Google Scholar
Graham, R.L., Allison, L.J., and Becker, D.A.The Oak Ridge Crop County Level Database. Environmental Sciences Division, Bioenergy Feedstock Development Program, Oak Ridge National Laboratory, Oak Ridge, TN, 1996.Google Scholar
Hanson, G.D.Financial Analysis of a Proposed Large-Scale Ethanol Cogeneration Project.Southern Journal of Agricultural Economics 17,2(1985):6776.Google Scholar
Haque, M.Switchgrass Biomass to Ethanol Production Economics: Field to Fuel Approach.” Ph.D. dissertation, Dept. of Ag. Econ., Oklahoma State University, 2010.Google Scholar
Haque, M., Epplin, F.M., and Taliaferro, C.Nitrogen and Harvest Frequency Effect on Yield and Cost for Four Perennial Grasses.Agronomy Journal 101(2009):1463-69.CrossRefGoogle Scholar
Herndon, C.W.“Bill” Jr. The Ethanolization of Agriculture and the Roles of Agricultural Economists.” Journal of Agricultural and Applied Economics 40-2(2008):403-14.CrossRefGoogle Scholar
Hwang, S.Days Available for Harvesting Switch-grass and the Cost to Deliver Switchgrass to a Biorefinery.” PhD dissertation, Dept. of Ag. Econ., Oklahoma State University, 2007.Google Scholar
Hwang, S., Epplin, F.M., Lee, B.H., and Huhnke, R.L.A Probabilistic Estimate of the Frequency of Mowing and Baling Days Available in Oklahoma USA for the Harvest of Switch-grass for Use in Biorefineries.Biomass and Bioenergy 33(2009):1037-45.CrossRefGoogle Scholar
Kazi, F.K., Fortman, J.A., Anex, R.P., Hsu, D.D., Aden, A., Dutta, A., and Kothandaraman, G.Techno-economic Comparison of Process Technologies for Biochemical Ethanol Production from Corn Stover.” Fuel 89(2010):S20S28.CrossRefGoogle Scholar
Kenkel, P., and Holcomb, R.B.Conditions Necessary for Private Investment in the Ethanol Industry.Journal of Agricultural and Applied Economics 41,2(2009):455-64.CrossRefGoogle Scholar
Kering, M., Biermacher, J.T., Cook, B.J., and Guretzky, J.A.Switchgrass for Forage and Bioenergy: I. Effects of Nitrogen Rate and Harvest System.” UC Davis: The Proceedings of the International Plant Nutrition Colloquium XVI. 2009. Internet site: http://escholarship.org/uc/item/0h9720ss (Accessed January 2010).Google Scholar
Khanna, M., Dhungana, B., and Brown, J.C.Costs of Producing Miscanthus and Switch-grass for Bioenergy in Illinois.Biomass and Bioenergy 32(2008):482-93.CrossRefGoogle Scholar
Larson, J.A., English, B.C., and He, L.Economic Analysis of Farm-Level Supply of Biomass Feedstocks for Energy Production under Alternative Contract Scenarios and Risk.” Farm Foundation Transition to a Bio Economy Conference, Integration of Agricultural and Energy Systems Conference, Atlanta, GA, February 12-13, 2008.Google Scholar
Lazarus, W., and Smale, A. “Machinery Cost Estimates.” 2010. Internet site: www.apec.umn.edu/William_Lazarus.html (Accessed February 2010).Google Scholar
Lubowski, R.N., Vesterby, M., Bucholtz, S., Baez, A., and Roberts, M.J. “Major Uses of Land in the United States, 2002.” U.S. Department of Agriculture, Economic Research Service Electronic Report Economic Information Bulletin Number 14. 2006.Google Scholar
Lynd, L.R., Cushman, J.H., Nichols, R.J., and Wyman, C.E.Fuel Ethanol from Cellulosic Bio-mass.Science 251(1991):1318-23.CrossRefGoogle Scholar
Madakadze, I.C., Stewart, K.A., Peterson, P.R., Coulman, B.E., and Smith, D.L.Cutting Frequency and Nitrogen Fertilization Effects on Yield and Nitrogen Concentration of Switch-grass in a Short Season Area.Crop Science 39(1999):552-57.CrossRefGoogle Scholar
Mapemba, L.D., Epplin, F.M., Huhnke, R.L., and Taliaferro, C.M.Herbaceous Plant Biomass Harvest and Delivery Cost with Harvest Segmented by Month and Number of Harvest Machines Endogenously Determined.Bio-mass and Bioenergy 32(2008):1016-27.CrossRefGoogle Scholar
Mapemba, L.D., Epplin, F.M., Taliaferro, C.M., and Huhnke, R.L.Biorefinery Feedstock Production on Conservation Reserve Program Land.Review of Agricultural Economics 29,2(2007):227-46.CrossRefGoogle Scholar
McLaughlin, S., Bouton, J., Bransby, D., Conger, B., Ocumpaugh, W., Parrish, D., Taliaferro, C., Vogel, K., and Wullschleger, S.Developing Switchgrass as a Bioenergy Crop.” Perspectives on New Crops and New Uses. Janick, J., ed. Alexandria, VA: ASHS Press, 1999, pp. 282-99.Google Scholar
Mooney, D.F., Roberts, R.K., English, B.C., Tyler, D.D., and Larson, J.A.Switchgrass Production in Marginal Environments: A Comparative Economic Analysis across Four West Tennessee Landscapes.” Paper presented at American Agricultural Economics Association Annual Meeting, Orlando, FL, July 25-27, 2008.Google Scholar
Nixon, R.M. 1974 State of the Union Address by the President, United States Capitol, Washington, DC, January 30, 1974. Internet site: www.infoplease.com/t/hist/state-of-the-union/187.html (Accessed February 2010).Google Scholar
Osborn, C.T., Llacuna, F., and Linsenbigler, M. The Conservation Reserve Program: Enrollment Statistics for Signup Periods 1-12 and Fiscal Years 1986-93. U.S. Department of Agriculture, Natural Resources and Environment Division, Economic Research Service, Statistical Bulletin No. 925. November 1995. Internet site: www.ers.usda.gov/publications/sb925/sb925.PDF (Accessed February 2011).Google Scholar
Pacheco, M.Senate, U.S. Full Committee Hearing-Renewable Fuel Standards. National Renewable Energy Laboratory, National Bioenergy Center, 19 June 2006. Internet site: http://energy.senate.gov/public/index.cfm?FuseAction=Hearings.Testimony&Hearing_ID=93dd3004-fc19-42d6-86d8-ede80db687eb&Witness_ID=5a7b62dl-173b-4905-81a0-7f809ed27bl6 (Accessed April 2010).Google Scholar
Perlack, R., Wright, L., Turhollow, A., Graham, R., Stokes, B., and Erbach, D.CBiomass as a Feedstock for a Bioenergy and Bioproducts Industry: The Technical Feasibility of a Billion-Ton Annual Supply.” Washington, DC: U.S. Department of Energy and U.S. Department of Agriculture. Technical Report No. ORNL/TM-2005/66, 2005. Internet site: http://feedstockreview.ornl.gov/pdf/billion_ton_vision.pdf (Accessed November 2010).Google Scholar
Perrin, R., Vogel, K., Schmer, M., and Mitchell, R.Farm-Scale Production Cost of Switchgrass for Biomass.Bioenergy Research 1(2008):9197.CrossRefGoogle Scholar
Regalbuto, J.R.Cellulosic Biofuels—Got Gasoline?Science 325(2009):822-24.CrossRefGoogle ScholarPubMed
Reynolds, J.H., Walker, C.L., and Kirchner, M.J.Nitrogen Removal in Switchgrass Biomass Under Two Harvest Systems.Biomass and Bioenergy 19(2000):281-86.CrossRefGoogle Scholar
Sanderson, M.A., Read, J.C., and Reed, R.L.Harvest Management of Switchgrass for Biomass Feedstock and Forage Production.Agronomy Journal 91(1999):510.CrossRefGoogle Scholar
Schirmer, A., Rude, M.A., Li, X., Popova, E., and del Cardayre, S.B.Microbial Biosynthesis of Alkanes.Science 329(2010):559-62.CrossRefGoogle ScholarPubMed
Sherrard, E.C., and Kressman, F.W.Review of Processes in the United States Prior to World War II.Industrial & Engineering Chemistry 37(1945):58.CrossRefGoogle Scholar
Sokhansanj, S., Mani, S., Turhollow, A., Kumar, A., Bransby, D., Lynd, L., and Laser, M.Large-scale Production, Harvest and Logistics of Switchgrass (Panicum virgatum L.)—Current Technology and Envisioning a Mature Technology.” Society of Chemical Industry and John Wiley & Sons Ltd.” Biofuels, Bioprod Bioref 3(2009):124-41.CrossRefGoogle Scholar
Stinger Inc. 2010. Internet site: www.stingerltd.com/products/stacker/stinger_stacker.htm (Accessed February 2010).Google Scholar
Tembo, G., Epplin, F.M., and Huhnke, R.L.Integrative Investment Appraisal of a Lignocellulosic Biomass-to-Ethanol Industry.Journal of Agricultural and Resource Economics 28,3(2003):611–33.Google Scholar
Thomason, W.E., Raun, W.R., Johnson, G.V., Taliaferro, C.M., Freeman, K.W., Wynn, K.J., and Mullen, R.W.Switchgrass Response to Harvest Frequency and Time and Rate of Applied Nitrogen.Journal of Plant Nutrition 27(2004):1199-226.CrossRefGoogle Scholar
Thorsell, S., Epplin, F.M., Huhnke, R.L., and Taliaferro, C.M.Economics of a Coordinated Bio-refinery Feedstock Harvest System: Lignocel-lulosic Biomass Harvest Cost.Biomass and Bioenergy 27(2004):327-37.CrossRefGoogle Scholar
Tindal, C. Department of Navy's Biofuel Demand. Farm Foundation Renewable Energy and Bio-mass Field Day, Knoxville, TN, November 16, 2010. Internet site: www.farmfoundation.org/news/articlefiles/1731-Tindal%20TO%20POST_v01_2010-ll-15.pdf (Accessed February 2011).Google Scholar
Tweeten, L.G.Foundations of Farm Policy. Lincoln, NE: University of Nebraska Press, 1970.Google Scholar
Tyner, W.E.Our Energy Transition: The Next Twenty Years.American Journal of Agricultural Economics 62,5(1980):957-64.CrossRefGoogle Scholar
Tyner, W.E.Big Time Issues Facing the Ethanol Industry.” Ethanol Today, October 2009. Internet site: www.ethanoltoday.com/index.php?option=com_content&task= view&id=5&Itemid=6&fid=65 (Accessed December 2010).Google Scholar
U.S. Department of Agriculture. Census of Agriculture, Vol 1. Oklahoma State and County Data. Geographic Area Series, 2002.Google Scholar
U.S. Department of Agriculture, Farm Service Agency. Conservation Reserve Program-Monthly CRP Acreage Report. October 29, 2010. Internet site: http://content.fsa.usda.gov/crpstorpt/rmepegg/MEPEGGRl.HTM (Accessed December 2010).Google Scholar
U.S. Department of Agriculture, National Agricultural Statistics Service. Land Values and Cash Rents. 2009. Internet site: http://usda.mannlib.cornell.edu/usda/current/AgriLandVa/AgriLandVa-08-04-2009.pdf (Accessed November 2009).Google Scholar
U.S. Department of Agriculture, National Agricultural Statistics Service. Crop Production. 2010. Internet site: http://usda.mannlib.cornell.edu/usda/current/CropProd/CropProd-12-10-2010.pdf (Accessed December 2010.)Google Scholar
U.S. Department of Energy. Quick-Reference List of Conversion Factors. Oak Ridge National Laboratory Bioenergy Feedstock Development Program. 2009. Internet site: http://bioenergy.ornl.gov/papers/misc/energy_conv.html (Accessed April 2010).Google Scholar
U.S. Energy Information Administration. Annual U.S. Gulf Coast Conventional Gasoline Regular Spot Price FOB. 2010a. Internet site: http://tonto.eia.doe.gov/dnav/pet/hist/LeafHandler.ashx? n=pet&s=rwtc&f=a (Accessed April 2010).Google Scholar
U.S. Energy Information Administration. Annual Cushing, OK WTI Spot Price FOB. 2010b. Internet site: http://tonto.eia.doe.gov/dnav/pet/hist/LeafHandler.ashx?n=pet&s= rwtc&f=a (Accessed April 2010).Google Scholar
U.S. Environmental Protection Agency. Renewable Fuel Standard Program (RFS2) Regulatory Impact Analysis. 2010. Internet site: http://nepis.epa.gov/Adobe/PDF/P1006DXP.PDF (Accessed April 2010).Google Scholar
U.S. Federal Register. “Regulation of Fuels and Fuel Additives: July 20, 2011 Renewable Fuel Standards.Federal Register 75,138(2010):42238-68.Google Scholar
Vogel, K.P., Brejda, J.J., Walters, D.T., and Buxton, D.R.Switchgrass Biomass Production in the Midwest USA: Harvest and Nitrogen Management.Agronomy Journal 94(2002):413-20.CrossRefGoogle Scholar
Wetzstein, M.E.Should We Invest in Biofuels?Journal of Agricultural and Applied Economics 42,3(2010):395401.CrossRefGoogle Scholar
Wright, M.M., Daugaard, D.E., Satriob, J.A. and Brown, R.C.Techno-economic Comparison of Biomass-to-Biofuels Pathways.Fuel 89,1 (2010):S2S10.CrossRefGoogle Scholar