Fevereiro 2015 vol. 1 num. 2 - XX Congresso Brasileiro de Engenharia Química

Artigo - Open Access.

Idioma principal

Increasing efficiency in ethanol distillation on small scale

MAYER, F. D. ; SCHETTERT, G. F. ; SALBEGO, P. R. S. ; BALDO, V. ; MAZUTTI, M. A. ; HOFFMANN, R. ;

Artigo:

This work examines experimentally the performance of a distillation column using a solution of ethanol and water as a feed. The limits for the concentration and flow rate of the feed solution in the column were established to be 5-9% by volume and 1848-4385 g·h

Artigo:

Palavras-chave:

DOI: 10.5151/chemeng-cobeq2014-0090-27092-179609

Referências bibliográficas
  • [1] ANFAVEA, 2013. Brazilian Automotive Industry Yearbook - 2013. Brazilian Automotive Industry Association, São Paulo. ANP, 201 Resolução ANP n_ 07, Fevereiro, 09, 201 Agência Nacional de Petróleo, Gás Natural e Biocombustíveis. Available at http://www.anp.gov.br/NXT/gateway.dll?f=templatesAndamp;fn=default.htmAndamp;vid=anp:10.1048/enu. Azadi, H., De Jong, S., Derudder, B., De Maeyer, P., Witlox, F., 2012. Bitter sweet: How sustainable is bio-ethanol production in Brazil? Renew. Sustain. Energy Rev. 16, 3599–3603.
  • [2] Buyx, A.M., Tait, J., 2011. Biofuels : ethics and policy-making. Biofuels, Bioprod. Biorefining 5, 631–639.
  • [3] Du, X., Carriquiry, M. a., 201 Flex-fuel vehicle adoption and dynamics of ethanol prices: lessons from Brazil. Energy Policy 59, 507–512.
  • [4] Energy Research Office, 2011. Brazilian Energy Balance. Rio de Janeiro. Harvey, M., Pilgrim, S., 2011. The new competition for land: Food, energy, and climate change. Food Policy 36, S40–S51.
  • [5] Área temática: Engenharia das Separações e Termodinâmica 7Hira, A., 2010. Sugar rush: Prospects for a global ethanol market. Energy Policy 39, 6925–693
  • [6] Janssen, R., Rutz, D.D., 2011. Sustainability of biofuels in Latin America: Risks and opportunities. Energy Policy 39, 5717–5725.
  • [7] Kister, H.Z., 1992. Distillation Design. McGraw-Hill, New York. Mayer, F.D., Hoffmann, R.S., Hoffmann, R., 2013. An Innovative Project Involving an Appropriate Hybrid Distillation System for Small-Scale Ethanol Fuel Production. Chem. Eng. Commun. 200, 563–574.
  • [8] Nuñez, H.M., Önal, H., Khanna, M., 2013. Land use and economic effects of alternative biofuel policies in Brazil and the United States. Agric. Econ. 44, 487–499.
  • [9] Oliveira, J.A.P. De, 2002. The policymaking process for creating competitive assets for the use of biomass energy: the Brazilian alcohol programme. Renew. Sustain. Energy Rev. 6, 129–140.
  • [10] Ortiz, L., Schlesinger, S., Noronha, S., 2006. Agronegócios e biocombustíveis: uma mistura explosiva. Rio de Janeiro. Rajcaniova, M., Drabik, D., Ciaian, P., 2013. How policies affect international biofuel price linkages. Energy Policy 59, 857–865.
  • [11] Ribeiro, B.E., 2013. Beyond commonplace biofuels: Social aspects of ethanol. Energy Policy 57, 355–362.
  • [12] Rico, J. a P., Mercedes, S.S.P., Sauer, I.L., 2010. Genesis and consolidation of the Brazilian bioethanol: A review of policies and incentive mechanisms. Renew. Sustain. Energy Rev. 14, 1874–1887.
  • [13] Rosillo-Calle, F., Cortez, L.A.B., 1998. Towards PROALCOOL II - Review of the Brazilian bioethanol programme. Biomass and Bioenergy 14, 115–124.
  • [14] Runge, C.F., Senauer, B., 2007. How Biofuels Could Starve the Poor [WWW Document]. Foreign Aff. URL http://www.foreignaffairs.com/articles/62609/c-ford-runge-and-benjamin-senauer/how-biofuels-could-starve-the-poor Sorda, G., Banse, M., Kemfert, C., 2010. An overview of biofuel policies across the world. Energy Policy 38, 6977–6988.
  • [15] Veiga-filho, A.A., Ramos, P., 2006. The Brazilian national alcohol program and evidence of concentration in sugar cane production and processing. Informações Econômicas 36, 48–61.
  • [16] Walter, A., Dolzan, P., Quilodrán, O., De Oliveira, J.G., Da Silva, C., Piacente, F., Segerstedt, A., 2011. Sustainability assessment of bio-ethanol production in Brazil considering land use change, GHG emissions and socio-economic aspects. Energy Policy 39, 5703–57
Como citar:

MAYER, F. D.; SCHETTERT, G. F.; SALBEGO, P. R. S.; BALDO, V.; MAZUTTI, M. A.; HOFFMANN, R.; "Increasing efficiency in ethanol distillation on small scale", p. 14486-14493 . In: Anais do XX Congresso Brasileiro de Engenharia Química - COBEQ 2014 [= Blucher Chemical Engineering Proceedings, v.1, n.2]. São Paulo: Blucher, 2015.
ISSN 2359-1757, DOI 10.5151/chemeng-cobeq2014-0090-27092-179609

últimos 30 dias | último ano | desde a publicação


downloads


visualizações


indexações