Net energy balance of small-scale on-farm biodiesel production from canola and soybean

Abstract One necessary criterion for a biofuel to be a sustainable alternative to the petroleum fuels it displaces is a positive net energy balance. This study estimated the net energy ratio (NER), net energy balance (NEB), and net energy yield (NEY) of small-scale on-farm production of canola [ Brassica napus (L.)] and soybean [ Glycine max (L.)] biodiesel in the upper Midwest. Direct and embodied energy inputs based on well-defined system boundaries and contemporary data were used to estimate the energy requirement of crop production, oil extraction, and biofuel processing. The NER of canola biodiesel was 1.78 compared with 2.05 for soybean biodiesel. Canola biodiesel had a NEB of 0.66 MJ MJ −1 of biofuel compared with 0.81 MJ MJ −1 for soybean biodiesel. The NEY of soybean biodiesel was 10,951 MJ ha −1 , less than canola biodiesel which had a NEY of 11,353 MJ ha −1 . Use of soybean as a biodiesel feedstock was more energetically efficient than canola primarily due to reduced nitrogen fertilizer requirement. In terms of energetic productivity, canola was a more productive biodiesel feedstock than soybean due to its higher oil content. A best-case scenario based on optimal feedstock yields, reduced fertilizer input, and advanced biofuel processing equipment suggested that potential gains in energetic efficiency was greater for canola than soybean. According to our results, small-scale on-farm biodiesel production using canola and soybean can be an energetically efficient way to produce energy for on-farm use.

[1]  Richard Bennett,et al.  The use of life-cycle assessment to evaluate the environmental impacts of growing genetically modified, nitrogen use-efficient canola. , 2008, Plant biotechnology journal.

[2]  L. G. Schumacher,et al.  Biodiesel emissions data from Series 60 DDC engines. , 2001 .

[3]  Sven Bernesson,et al.  A limited LCA comparing large- and small-scale production of rape methyl ester (RME) under Swedish conditions , 2004 .

[4]  R. Gilliom,et al.  Major herbicides in ground water: results from the National Water-Quality Assessment. , 2001, Journal of environmental quality.

[5]  John Sheehan,et al.  Life Cycle Inventory of Biodiesel and Petroleum Diesel for Use in an Urban Bus , 1998 .

[6]  Elwin G. Smith,et al.  Energy balances of biodiesel production from soybean and canola in Canada , 2007 .

[7]  R. Naylor,et al.  ENERGY AND RESOURCE CONSTRAINTS ON INTENSIVE AGRICULTURAL PRODUCTION , 1996 .

[8]  D. Pimentel Handbook of Energy Utilization In Agriculture , 1980 .

[9]  J. H. Van Gerpen,et al.  The Energy Balance of Soybean Oil Biodiesel Production: A Review of Past Studies , 2008 .

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

[11]  William F. Lazarus,et al.  Economics of small-scale on-farm use of canola and soybean for biodiesel and straight vegetable oil biofuels , 2011 .

[12]  S. Polasky,et al.  Environmental, economic, and energetic costs and benefits of biodiesel and ethanol biofuels. , 2006, Proceedings of the National Academy of Sciences of the United States of America.

[13]  S. Maithel Energy Efficiency and Renewable Energy , 2008 .

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

[15]  Miguel A. Altieri,et al.  Biodiversity And Pest Management In Agroecosystems , 1994 .

[16]  D. Tilman,et al.  Carbon-Negative Biofuels from Low-Input High-Diversity Grassland Biomass , 2006, Science.

[17]  Raymond P. Poincelot,et al.  Developing and Extending Sustainable Agriculture: A New Social Contract , 2006 .

[18]  Bo Pedersen Weidema,et al.  Avoiding Co‐Product Allocation in Life‐Cycle Assessment , 2000 .

[19]  Y. Gan,et al.  Nitrogen Use Efficiency and Nitrogen Uptake of juncea Canola under Diverse Environments , 2008 .

[20]  Ayse Hilal Demirbas,et al.  Importance of rural bioenergy for developing countries. , 2007 .

[21]  D. Pimentel,et al.  Food Production and the Energy Crisis , 1973, Science.

[22]  A. McAloon,et al.  A process model to estimate biodiesel production costs. , 2006, Bioresource technology.

[23]  Theocharis Tsoutsos,et al.  An evaluation of a small-scale biodiesel production technology: Case study of Mango’o village, Center province, Cameroon , 2009 .

[24]  J. Duxbury,et al.  The significance of agricultural sources of greenhouse gases , 1994, Fertilizer research.

[25]  K. Freemark,et al.  Impacts of agricultural herbicide use on terrestrial wildlife in temperate landscapes: A review with special reference to North America , 1995 .

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

[27]  Richard C. Fluck,et al.  Energy in farm production , 1992 .

[28]  Burton L. Johnson,et al.  Seeding Rate, Seeding Depth, and Cultivar Influence on Spring Canola Performance in the Northern Great Plains , 2008 .

[29]  Steven R. Beissinger,et al.  Modeling Extinction in Periodic Environments: Everglades Water Levels and Snail Kite Population Viability , 1995 .

[30]  Hong Huo,et al.  Life-cycle assessment of energy use and greenhouse gas emissions of soybean-derived biodiesel and renewable fuels. , 2009, Environmental science & technology.

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

[32]  S. J. Marley,et al.  Fuel properties and emissions of soybean oil esters as diesel fuel , 1996 .

[33]  W. Parton,et al.  Agricultural intensification and ecosystem properties. , 1997, Science.

[34]  Martin H. Bender,et al.  Economic feasibility review for community-scale farmer cooperatives for biodiesel , 1999 .

[35]  R. Relyea THE IMPACT OF INSECTICIDES AND HERBICIDES ON THE BIODIVERSITY AND PRODUCTIVITY OF AQUATIC COMMUNITIES , 2006 .

[36]  Richard K. Koelsch,et al.  BESS: B iofuel E nergy S ystems S imulator: Life Cycle Energy & Emissions Analysis Model for Corn-Ethanol Biofuel Production Systems -- User’s Guide for the BESS model , 2009 .

[37]  Laura M Bexfield Decadal-scale changes of pesticides in ground water of the United States, 1993-2003. , 2008, Journal of environmental quality.