Artículos de revistas
Energy Recovery From Sugarcane-trash In The Light Of 2nd Generation Biofuels. Part 1: Current Situation And Environmental Aspects
Registro en:
Waste And Biomass Valorization. , v. 2, n. 1, p. 1 - 16, 2011.
18772641
10.1007/s12649-010-9048-0
2-s2.0-79952344161
Autor
Pippo W.A.
Luengo C.A.
Alberteris L.A.M.
Garzone P.
Cornacchia G.
Institución
Resumen
The importance of Sugarcane-Trash energy use, also called Sugarcane Agricultural Residues (SCAR) or Barbojo was analyzed in the light of 2nd generation Biofuels. The current challenges and opportunities of SCAR energy use were treated. An analysis focused on current Brazilian situation and experiences around the world, was carried out. The most probable routes for 2nd generation Bioethanol production suitability: Biomass to Liquid and Bio-enzymatic were compared in Brazil. The Brazilian Sugarcane Agro-Industry particularities and its influence on SCAR energy use were analyzed. The most probable use of SCAR, in a short and mid term, is as boiler feedstock. The key environmental aspects related to SCAR use were analyzed. The SCAR decomposition process and its influence into the CO2 emission reduction were explained. The weed control effect of SCAR left in the field was examined. © Springer Science+Business Media B.V. 2010. 2 1 1 16 Robles-Gil, S., Climate information for biomass energy applications. report on solar energy (2001) Commission for Climatology World Meteorological Organization, , La Paz Mexico, Feb 21 Duke, J.A., (1983) Handbook of Energy Crops, , http://www.hort.purdue.edu/newcrop/duke_energy/Saccharum_officinarum. html#Cultivation, Purdue University, Center for New Crops and Plant Production. Unpublished, Accessed 10 April 2008 Alexander, A.G., (1985) The Energy Cane Alternative, , Sugar series no. 6. Elsevier, USA Alonso Pippo, W., Garzone, P., Cornacchia, G., Agro-industry sugarcane residues disposal: The trends of their conversion into energy carriers in Cuba (2007) Waste Management, 27 (7), pp. 869-885. , DOI 10.1016/j.wasman.2006.05.001, PII S0956053X06001498 Hugot, E., (1986) Handbook of Cane Sugar Engineering, , 3rd Edition. Elsevier Science, New York Alonso-Pippo, W., Luengo, C.A., Koehlinger, J., Garzone, P., Cornacchia, G., Sugarcane energy use: The cuban case (2008) Energy Policy, 36, pp. 2163-2181 Cruz, G.V., Sulroca, D.F., Chirino, M.L., Gómez, J.W., Electricity generation starting from sugarcane residues (1996) Econ. Res. J. (Havana, pp. 1-10 Egusquiza, F.J., Sugarcane-trash national balance (1994) Ministry of Sugar (Balance Nacional de paja de caña. Ministerio del azúcar), , Havana, Cub., 20 June Ripoli Cannavam, T.C., Are the SCAR really, an option for cogeneration? Technological workshop on sugarcane harvesting (Palhiço da cana opção para cogeração?) (2006) Workshop Tecnológico Sobre Colheita da Cana-de- açúcar, pp. 1-19. , (USP,ESALQ) UNICAMP, SP., 11 Nov Braunbeck, O., Bauen, A., Rosillo-Calle, F., Cortez, L., Prospects for green cane harvesting and cane residue use in Brazil (1999) Biomass and Bioenergy, 17 (6), pp. 495-506. , DOI 10.1016/S0961-9534(99)00063-X, PII S096195349900063X Braunberck Oscar, A., Marcelo, P., Jorge, M., Breaking paradigm on sugarcane harvesting Workshop on sugarcane harvesting methods (Quebra de paradigmas na colheita da cana-de- açúcar. Workshop Colheita de cana-de-açúcar e palha para produção de Etanol (2008) FAPESP, , Sao Paulo, Brazil. 2 Feb Fernandes, A.C., Oliveira, E.R., Sugarcane-trash measurements in Brazil (1977) Proceedings of the International Society of Sugarcane Technologist Congress, pp. 1963-1973. , Sao Paulo Morejón, M.Y., Gastelua, C.A., González, V.R., Milanés, A.F., Robaina, C.M., Economic-energetic evaluation during the harvest transportation of the sugarcane agricultural residuals in the sugar Enterprise "Hector Molina" (2008) Revista Ciencias Técnicas Agropecuarias, 17, p. 2. , Universidad Agraria de La Habana Zanzi, R., Sjostrom, K., Bjornbom, E., Rapid high-temperature pyrolysis of biomass in a free-fall reactor (1996) Fuel, 75 (5), pp. 545-550. , DOI 10.1016/0016-2361(95)00304-5 Jorapur, R., Rajvanshi, A.K., Sugarcane leaf-bagasse gasifiers for industrial heating applications (1997) Biomass and Bioenergy, 13 (3), pp. 141-146. , DOI 10.1016/S0961-9534(97)00014-7, PII S0961953497000147 Beeharry, R.P., Strategies for augmenting sugarcane biomass availability for power production in mauritius (2001) Biomass Bioenergy, 20, pp. 421-429 Walter, A., Ensinas, A.V., Combined production of second-generation biofuels from sugarcane residues (2009) Energy, , doi: 10.1016/j.energy.2009.07.032 Larson, E.D., Jin, H., Celik, F.E., (2005) Gasification-Based Fuels and Electricity Production from Biomass without and with Carbon Capture and Storage, p. 77. , Princeton, NJ, PEI, Princeton University Boerrigter, H., Economy of biomas-to-liquids (BTL)plants (2010) An Engineering Assessment, , http://www.ecn.nl/nl/nieuws/newsletter-en/archive-2006/ second-quarter-2006/recentecn-publications/, ECN-C-06-019., Accessed 6 Sept 2010 (2008), http://www.conab.gov.br/conabweb/geotecnologia/html_geosafras/ usinasacucaralcool.html, CONAB: Profile of productions units by states. Profile of sugar and ethanol sector in Brazil. Situation observed from November, 2007. Accessed 10 Jan 2010(2010), http://www.2.petrobras.com.br/ri/ing/InformacoesAcionistas/ ComposicaoCapitalSocial.asp, PETROBRAS: Shareholders information. Acceded 25 March 2010Alvares Da Costa, Z., (2010) At Full Speed. J. Ind., , http://www.hkl.com.br/fiesp/, (On-line). N 158, March. 24-28. FIESP. (Original in Portuguese). Accessed 04 March 2010 Jonathan, S., Bioenergy feedstock characteristic Oak ridge national laboratory, bioenergy feedstock development programs (2001) Oak Ridge (2000), http://www.google.com.br/search?hl=pt-BR&source=hp&q=Lei+11. 241%2F%2C+2000+SP&meta=&btnG=Pesquisa+Google, Sao Paulo State Law: 11.241/, 2000 on gradual decrease of sugarcane burn. (Original in Portuguese), Accessed 6 March 2010(2010), http://www.unica.com.br/dadosCotacao/estatistica/, UNICA: Data & quotations Statistics. Sugarcane factory production ranking milling season 2008/ 2009. Center-South region. (original in Portuguese) Accessed 12 April 2010Fioravanti, C., The Artisans of ethanol (original in Portuguese) (2009) J. São Paulo State Res. Found. Pesquisa FAPESP, (165), pp. 46-48 Cakir, T., Arga, K.Y., Altintas, M.M., Ulgen, K.O., Flux analysis of recombinant Saccharomyces cerevisiae YPB-G utilizing starch for optimal ethanol production (2004) Process Biochemistry, 39 (12), pp. 2097-2108. , DOI 10.1016/j.procbio.2003.10.010, PII S0032959203004084 Mete Altintas, M., Ulgen, K.O., Kirdar, B., Ilsen Onsan, Z., Oliver, S.G., Improvement of ethanol production from starch by recombinant yeast through manipulation of environmental factors (2002) Enzyme and Microbial Technology, 31 (5), pp. 640-647. , DOI 10.1016/S0141-0229(02)00167-9, PII S0141022902001679 Ulgen, K.O., Saygili, B., Onsan, Z.I., Kirdar, B., Bioconversion of starch into ethanol by a recombinant Saccharomyces cerevisiae strain YPG-AB (2002) Process Biochemistry, 37 (10), pp. 1157-1168. , DOI 10.1016/S0032-9592(01)00333-8, PII S0032959201003338 Himmel, M.E., Ding, S.-Y., Johnson, D.K., Adney, W.S., Nimlos, M.R., Brady, J.W., Foust, T.D., Biomass recalcitrance: Engineering plants and enzymes for biofuels production (2007) Science, 315, p. 804. , doi:10.1120/science.1137016 Ballesteros, M., Oliva, J.M., Negro, M.J., Manzanares, P., Ballesteros, I., Ethanol from lignocellulosic materials by a simultaneous saccharification and fermentation process (SFS) with Kluyveromyces marxianus CECT 10875 (2004) Process Biochemistry, 39 (12), pp. 1843-1848. , DOI 10.1016/j.procbio.2003.09.011, PII S0032959203003571 Farhat, M., Harvesting of cane sugar suppliers and service providers (2006) UNICAMP, 29. , Workshop on sugarcane. (Colheita de cana-de-acúcar pelos fornecedores e prestadores de serviço. de colheita da palha da cana para a produção de etanol.). November Hassuani, S.J., Leal, M.R.L.V., Carvalho Macedo, I., Biomass power generation: Sugarcane bagasse and trash (2005) Piracicaba: PNUDCTC, , http://www.sucre-ethique.org/IMG/pdf/CTC_energy-biomass_1_.pdf, Accessed 10 Dec 2009 Maurilio De, O.M., Harvesting of cane sugar in the current areas and under expansion: Evolution conservation and productivity. San Martino Sugar Factory. (Colheita da cana-de-acúcar nas áreas atuais e de expansão: Evolução preservação e produtividade. Usina São Martino.II Workshop Colheita de cana-de-acú- car) (2006) FEAGRI. UNICAMP EMBRAPA: Satellite monitoring (2010) Sugarcane Environmental Impact, , http://www.cana.cnpm.embrapa.br/, (original in Portuguese). Accessed 21 April 2010 (1996) IPCC: International Panel for Climate Change Guidelines, p. 15. , http://www.ipccnggip.iges.or.jp/public/gl/invs1.html, Revised. reference manual 3. Energy, Accessed 21 April 2010 (2010) Air Quality and Health. Particulate Matter, , https://www.who.int/mediacentre/factsheets/fs313/en/index.html, World Health Organization (WHO), Accessed 21 April 2010 Macedo, I.C., (2005) Sugarcane's Energy: Twelve Studies on Brazilian Sugarcane Agribusiness and its Sustainability, , 1st edn UNICA, Sao Paulo (2006), http://rael.berkeley.edu/sites/default/files/EBAMM, EBAMM: Release1.0. The ERG biofuels analisis meta-model, December, 26, Accessed 21 April 2010Robertson, F.A., Thorburn, P.J., Management of sugarcane harvest residues: Consequences for soil carbon and nitrogen (2007) Aust. J. Soil Res., 45, pp. 13-23 Campos Dinailson, C., (2003) Potentiality of Green Sugarcane Harvesting to Carbon Sequestration, , Doctoral These, University of Sao Paulo. Agriculture High School "Luiz de Queiros". August 22. (original in Portuguese) Prove, B.G., Doogan, A.J., Truong, P.N.V., Nature and magnitude of soil erosion in sugarcane land on the wet tropical coast of north-eastern Queensland (1995) Australian Journal of Experimental Agriculture, 35 (5), pp. 641-649 Novo, M.C.S.S., Victoria, R.F., Molchanski Landbeck, F., Lago, A.A., Effect of sugarcane harvest straw on sprouting and shoot growth of purple (Nutsedge (Cyperus Rotundus L.) Original in Portuguese) (2006) Bragantia. Campinas, 65 (1), pp. 97-107 Carlos Ariel Cardona, A., Oscar Julian Sanchez, T., María Isabel, M., Julián Andrés Quintero, S., Fuel ethanol production: Lignocellulosic material a new alternative (original in Spanish) (2001) Revista EIDENAR, Edición, 3, pp. 47-55 Fernández, R.J., Pérez, J.A., Pérez, S.O., Alonso Pippo, W., Characterization of industrial and agricultural residues of sugarcane for obtaining Bio-oil (original in Spanish) International conference of sugarcane derivates. La Habana (2004) Proceeding of Diversification 2004, 4, pp. 201-208. , Cuban Research Institute of Sugarcane Derivates. ICIDCA. Havana, June Seshagiri Rao, P., Genetic potential of germplasm for higher biomass production to generate energy (2007) West Indies Sugarcane Breeding Station, , Barbados Delgado, A.V., (2004) Sugarcane Biomass as Renewable Energy Supply, , Center of prioritized project. Ministry of Science and Technology of Cuba. (original in Spanish) May (2005) Ministry of Sugar: Cogeneration Potential of Cuban Sugarcane Agro-Industry Starting from Sugarcane Biomass, , Preliminary report. Havana, Cuba. November, 20 (original in Spanish) (2010) FAOSTAT: CROPS|©FAO Statistics Division|, Accessed 12 April 2010, , http://www.faostat.fao.org/site/567/DesktopDefault.aspx?PageID=567#ancor Sánchez, T.O., Cardona, A.C.A., Fuel ethanol production: A an alternative for ago-industry development (original in Spanish) (2007) Editor UNC, pp. 156-267. , Manizales, Caldas, Colombia, Chapter 11 Alonso-Pippo, W., Luengo, C.A., Fonseca, F.F., Garzone, P., Cornacchia, G., Energy recovery from sugarcane biomass resi- dues: Challenges and opportunities of bio-oil production in the light of 2nd generation biofuels (2009) J. Renew. Sustain. Energy, 1, pp. 1-15. , 063102 William, C.P., Antony, G.W., Arnaldo, A.C., Andrew, P.A., (2002) Impact of Sugarcane Burn on Particulate Matter Concentration in the Atmosphere of Central Region of SP State, , Report presented in 25 annual meeting of Brazilian chemical society. Poços de Calda M. G. May 20-23(Original in Portuguese)