Energy Valuation Methods for Biofuels in South Florida: Introduction to Life Cycle Assessment and Emergy Approaches
Vol. 2013 No. 3, Historical Fact Sheets
Vol. 2013 No. 3

Energy Valuation Methods for Biofuels in South Florida: Introduction to Life Cycle Assessment and Emergy Approaches: SL377/SS579, 3/2013

Historical Fact Sheets
https://doi.org/10.32473/edis-ss579-2013
Published 2013-03-31
J. Van Treese, II
Edward A. Hanlon
University of Florida
N. Y. Amponsah
J. L. Izursa
J. C. Capece
Energy Valuation Methods for Biofuels in South Florida.
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PDF-2013

How to Cite

Treese, II, J. Van, Edward A. Hanlon, N. Y. Amponsah, J. L. Izursa, and J. C. Capece. 2013. “Energy Valuation Methods for Biofuels in South Florida: Introduction to Life Cycle Assessment and Emergy Approaches: SL377/SS579, 3/2013”. EDIS 2013 (3). Gainesville, FL. https://doi.org/10.32473/edis-ss579-2013.
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Abstract

This 5-page fact sheet gives an overview of two methods for evaluating energy transformations in biofuels production. The Life Cycle Assessment approach involves measurements affecting greenhouse gases, which can be linked to the energy considerations used in the Emergy Assessment. Although these two methods have their basis in energy or greenhouse gas emission evaluations, their approaches can lead to a reliable judgment regarding a biofuel process. We can use them to evaluate the economic environmental component of a biofuel process, and decide which biofuel processes favor sustainability. The intended audiences of this publication are growers, researchers, students, and any other readers interested in agriculture and ecology. Written by J. Van Treese II, E. A. Hanlon, N. Y. Amponsah, J. L. Izursa, and J. C. Capece, and published by the UF Department of Soil and Water Science, March 2013.

http://edis.ifas.ufl.edu/ss579

https://doi.org/10.32473/edis-ss579-2013
view on EDIS
PDF-2013

References

Amponsah, N.Y., J.C. Capece, and E.A. Hanlon. 2012. "Comparative Analysis of Sugarcane Ethanol in Florida and Brazil." Poster presentation at the Seventh Biennial Emergy Research Conference, Gainesville, FL, January 11-15, 2012.

Bastianoni, S., and N. Marchetinni. 1996. "Ethanol Production from Biomass: Analysis of Process Efficiency and Sustainability." Biomass and Bioenergy 11(5): 411-418. https://doi.org/10.1016/S0961-9534(96)00037-2

Baucum, L.E., and R.W. Rice. 2009. An Overview of Florida Sugarcane. SS-AGR-232. Gainesville: University of Florida Institute of Food and Agricultural Sciences. http://edis.ifas.ufl.edu/sc032.

Brown, L.R. 2012a. Earth Policy Release Data Highlight (compiled from USDA data). Earth Policy Institute. http://www.earth-policy.org/.

Brown, L.R. 2012b. Full Planet, Empty Plates: The New Geopolitics of Food Scarcity. New York, N.Y.: W.W. Norton & Company.

International Organization for Standardization (ISO). 2006. Environmental Management - Life Cycle Assessment - Principles and Framework. pg. 2. Definition 3.2. ISO 14040:2006. Switzerland: ISO. http://www.iso.org/iso/catalogue_detail?csnumber=37456.

Izursa, J. L. (2013). "Life Cycle Assessment of BiofuelSugarcane Ethanol Produced in Mineral Soils of Florida." Technical Report: Hendry County Sustainable Biofuels Center. pp. 53. http://www.imok.ufl.edu/docs/pdf/soils/biofuels/Report%20LCA%20sugarcane%20mineral%20soil%2020130113.pdf .

Odum, H. T. 1995. "Self-Organization and Maximum Empower." In Maximum Power: The Ideas and Applications of Odum, H.T., edited by C.A.S. Hall. Boulder: University Press of Colorado.

Rajvanshi, N. 2010. "Evaluation of Assessment Methods for Bioethanol Production." Ph.D. Dissertation, Department of Mechanical Engineering. Gainesville: University of Florida.

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