Evaluating fuel ethanol feedstocks from energy policy perspectives: A comparative energy assessment of corn and corn stover

Abstract Concerns surrounding the continued, un-checked use of petroleum-based fuels in the transportation sector, the search for more sustainable, renewable alternatives, and the constraints of the existing supply infrastructure in the United States have placed a spotlight on biomass-derived fuels. The central question of the ethanol debate has changed from “Should we make ethanol?” to “ From what should we make ethanol?” emphasizing the importance of understanding the differences between specific biomass supply systems for fuel ethanol. When presented with numerous options, the priorities of an individual decision maker will define which feedstock alternative is the most appropriate choice for development from their perspective. This paper demonstrates how energy data can be successfully used to quantify assessment metrics beyond a standard net energy value calculation, thus quantifying the relative “value” of ethanol supply systems. This value is defined based on decision-maker priorities that were adopted from national energy policy priorities: increased national energy security and increased conservation of energy resources. Nine energy assessment metrics that quantify detailed system energy data are calculated and a straightforward comparative assessment is performed between corn and corn stover feedstocks produced under the same farm scenario. Corn stover is shown to be more compatible with the national energy policy priorities and it is recommended that additional research be performed on utilizing this feedstock from the corn farm.

[1]  Michael Q. Wang GREET 1.5 - transportation fuel-cycle model - Vol. 1 : methodology, development, use, and results. , 1999 .

[2]  Andrew D. Jones,et al.  Supporting Online Material for: Ethanol Can Contribute To Energy and Environmental Goals , 2006 .

[3]  Benjamin F. Hobbs,et al.  Energy Decisions and the Environment: A Guide to the Use of Multicriteria Methods , 2000 .

[4]  D. Pimentel,et al.  Ethanol Production Using Corn, Switchgrass, and Wood; Biodiesel Production Using Soybean and Sunflower , 2005 .

[5]  K. Paustian,et al.  Energy and Environmental Aspects of Using Corn Stover for Fuel Ethanol , 2003 .

[6]  Gregg Marland,et al.  CO2 emissions from the production and combustion of fuel ethanol from corn , 1991 .

[7]  Kelly N. Ibsen,et al.  Lignocellulosic Biomass to Ethanol Process Design and Economics Utilizing Co-Current Dilute Acid Prehydrolysis and Enzymatic Hydrolysis for Corn Stover , 2002 .

[8]  Michael Wang,et al.  Development and use of GREET 1.6 fuel-cycle model for transportation fuels and vehicle technologies. , 2001 .

[9]  J. R. Hettenhaus,et al.  Innovative Methods for Corn Stover Collecting, Handling, Storing and Transporting , 2004 .

[10]  Carol Werner,et al.  Committee on Energy and Natural Resources , 2008 .

[11]  Dennis R. Keeney,et al.  Biomass as an energy source for the midwestern U.S. , 1992 .

[12]  D. L. Morris How Much Energy Does It Take to Make a Gallon of Ethanol , 1995 .

[13]  M. Curran,et al.  A review of assessments conducted on bio-ethanol as a transportation fuel from a net energy, greenhouse gas, and environmental life cycle perspective , 2007 .

[14]  Michael Q. Wang,et al.  The Energy Balance of Corn Ethanol: An Update , 2002 .

[15]  M. Graboski Fossil Energy Use in the Manufacture of Corn Ethanol , 2002 .

[17]  James A. Duffield,et al.  Estimating the net energy balance of corn ethanol. Agricultural economic report , 1995 .

[18]  A. Aden,et al.  Process Design Report for Stover Feedstock: Lignocellulosic Biomass to Ethanol Process Design and Economics Utilizing Co-Current Dilute Acid Prehydrolysis and Enzymatic Hydrolysis for Corn Stover , 2002 .

[19]  Seungdo Kim,et al.  Allocation procedure in ethanol production system from corn grain i. system expansion , 2002 .

[20]  Michael Wang,et al.  Contribution Feedstock and Fuel Transportation to Total Fuel-Cycle Energy Use and Emissions , 2000 .

[21]  Robert D. Perlack,et al.  Feedstock cost analysis of corn stover residues for further processing , 2003 .

[22]  C. L. Saricks,et al.  Fuel-Cycle Fossil Energy Use and Greenhouse Gas Emissions of Fuel Ethanol Produced from U.S. Midwest Corn , 1997 .

[23]  David Pimentel,et al.  Ethanol Fuels: Energy Balance, Economics, and Environmental Impacts Are Negative , 2003 .

[24]  David Pimentel,et al.  Ethanol fuels: Energy security, economics, and the environment , 1991 .

[25]  Michael Wang,et al.  Effects of Fuel Ethanol Use on Fuel-Cycle Energy and Greenhouse Gas Emissions , 1999 .

[26]  Urmila M. Diwekar,et al.  New stochastic simulation capability applied to greenhouse gases, regulated emissions, and energy use in transportation (Greet) model , 2006 .

[27]  M. Q. Wang,et al.  GREET 1.0 -- Transportation fuel cycles model: Methodology and use , 1996 .

[28]  Roel Hammerschlag,et al.  Ethanol's energy return on investment: a survey of the literature 1990-present. , 2006, Environmental science & technology.