Comparative Life Cycle Assessment of four alternatives for using by-products of cane sugar production

FAOSTAT Suarez Saenz T. Cane, beet and juncture of the sugar market. In: Provincial conference of ATAC, Villa Clara, Cuba; 2006. Mesa Villegas ICIDCA, 1986 Almazán del Olmo Asocaña Brandi Guevara Tamayo Grogg Longoria, 2006, With science towards the knowledge, Hypatia, 13 Dewulf, 2000, Illustrations towards quantifying the sustainability of technology, Green Chem, 2, 108, 10.1039/b000015i Dewulf, 2002, Assessment of the sustainability of technology by means of a thermodynamically based life cycle analysis, Environ Sci Pollut Res, 4, 267, 10.1007/BF02987502 von Blottnitz, 2007, A review of assessments conducted on bio-ethanol as a transportation fuel from a net energy, greenhouse gas, and environmental life cycle perspective, J Clean Prod, 15, 607, 10.1016/j.jclepro.2006.03.002 Kadam, 2002, Environmental benefits on a life cycle basis of using bagasse-derived ethanol as a gasoline oxygenate in India, Proc S Afr Sug Technol, 75, 358 Kaltschmitt, 1997, Life cycle analysis of biofuels under different environmental aspects, Biomass Bioenergy, 12, 121, 10.1016/S0961-9534(96)00071-2 Puppan, 2002, Environmental evaluation of biofuels, Period Polytech Ser Soc Man Sci, 10, 95 Reinhardt G, Uihlein A. Bioethanol and ETBE versus other biofuels for transportation in Europe: an ecological comparison. In: The 114th international symposium on alcohol fuels (ISAF XIV), Phuket, Thailand; 2002. Hu, 2004, Economics, environment, and energy life cycle assessment of automobiles fueled by bio-ethanol blends in China, Renew Energy, 29, 2183, 10.1016/j.renene.2004.03.014 Sheehan, 2004, Energy and environmental aspects of using corn stover for fuel ethanol, J Indust Ecol, 7, 117, 10.1162/108819803323059433 Tan, 2003, A life cycle assessment of conventional and alternative fuels for road vehicles NC ISO 14040. Environmental management. Life cycle assessment. Principles and framework, Havana; 2005. NC ISO 14041. Environmental management. Life cycle assessment. Goal and scope definition and inventory analysis, Havana; 2000. NC ISO 14042. Environmental management. Life cycle assessment. Assessment of life cycle impact, Havana; 2001. NC ISO 14043. Environmental management. Life cycle assessment. Life cycle interpretation, Havana; 2001. Goedkoop, 2001, The eco-indicator'99. A damage oriented method for Life Cycle Impact Assessment Goedkoop, 2001, The eco-indicator'99. A damage oriented method for Life Cycle Impact Assessment Goedkoop Jungbluth, 2006, Life cycle inventory analysis applied to renewable resources, 57 Curran, 2007, Co-product and input allocation. Approaches for creating life cycle inventory data. A literature review, Int J LCA, 12, 65 Kim, 2002, Allocation procedures in Et OH production from corn grain, Int J LCA, 7, 237, 10.1007/BF02978879 Ekvall, 2001, Allocation in ISO 14041 – a critical review, J Clean Prod, 9, 197, 10.1016/S0959-6526(00)00052-4 Acosta, 2005, Environmental analysis of the energy use of hemp-analysis of the comparative life cycle: diesel oil vs. hemp-diesel, Int J Agri Resour Govern Ecol, 4, 133 Wittgren HB, Elmquist H, Eriksson IS. Slaughter offal to feed or to fuel, a comparison of systems in terms of energy balances, land use and emissions. In: DIAS report. Proceedings of 4th international conference of LCA in the agri-food sector Bygholm, Denmark; 2004: p. 34–44. Muñoz, 2004, LCA application to integrated waste management planning in Gipuzkoa (Spain), Int J Life Cycle Assess, 9, 272, 10.1007/BF02978603 Rivela, 2006, Life cycle assessment of wood wastes: a case study of ephemeral architecture, Sci Total Environ, 357, 1, 10.1016/j.scitotenv.2005.04.017 Cederberg, 2000, Life cycle assessment of milk production – a comparison of conventional and organic farming, J Clean Prod, 8, 49, 10.1016/S0959-6526(99)00311-X Ramjeawon, 2004, Life cycle assessment of cane-sugar on the Island of Mauritius, Int J Life Cycle Assess, 9, 254, 10.1007/BF02978601 Bennett, 2003 Renouf Pre Consultants Randa group Ponce de León, 2000 FAO, 2003, Fertilizer use by crop in Cuba Cala CDM-Executive Board. Baseline methodology for the production of sugar cane based anhydrous1 bio-ethanol for transportation using LCA, Clean development mechanism, Proposed new methodology: baseline (CDM-NMB), Version 02-in effect as of: July 2005. Sánchez E. Evaluación de Ecoindicadores en la industria azucarera. Trabajo de diploma. Fac. Química Farmacia, Univ. Central de Las Villas, Cuba; 2005. University of Massachusetts U.S. Environmental Protection Agency. Methodology for estimating greenhouse gas emissions, Washington, DC; 1995: p. D9-1–5.¶ U.S. Environmental Protection Agency. Documentation for AP-42, Sugarcane processing. Final report; 1997.¶ Consultants Ecoinvent Centre. The Life Cycle Inventory Data Version 1.01; 2003. Contreras AM. Metodología para el análisis de ciclo de vida combinado con el análisis exergético en la industria azucarera cubana. Tesis en opción del grado de doctor en Ciencias Técnicas, Santa Clara, Cuba; 2007.