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Historical carbon budget of the brazilian ethanol program

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  • Pacca, Sergio
  • Moreira, José R.

Abstract

This work models the carbon neutralization capacity of Brazil's ethanol program since 1975. In addition to biofuel, we also assessed the mitigation potential of other energy products, such as, bioelectricity, and CO2 emissions captured during fermentation of sugar cane's juice. Finally, we projected the neutralization capacity of sugar cane's bio-energy system over the next 32 years. The balance between several carbon stocks and flows was considered in the model, including the effects of land-use change. Our results show that the neutralization of the carbon released due to land-use change was attained only in 1992, and the maximum mitigation potential of the sugar cane sector was 128 tonnes of CO2 per ha in 2006. An ideal reconstitution of the deployment of the sugar cane sector, including the full exploitation of bio-electricity's potential, plus the capture of CO2 released during fermentation, shows that the neutralization of land-use change emissions would have been achieved in 1988, and its mitigation potential would have been 390 tCO2/ha. Finally, forecasts of the sector up to 2039 shows that the mitigation potential in 2039 corresponds to 836 tCO2/ha, which corresponds to 5.51Â kg of CO2 per liter of ethanol produced, or 55% above the negative emission level.

Suggested Citation

  • Pacca, Sergio & Moreira, José R., 2009. "Historical carbon budget of the brazilian ethanol program," Energy Policy, Elsevier, vol. 37(11), pages 4863-4873, November.
    • Handle: RePEc:eee:enepol:v:37:y:2009:i:11:p:4863-4873
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    References listed on IDEAS

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    1. Searchinger, Timothy & Heimlich, Ralph & Houghton, R. A. & Dong, Fengxia & Elobeid, Amani & Fabiosa, Jacinto F. & Tokgoz, Simla & Hayes, Dermot J. & Yu, Hun-Hsiang, 2008. "Use of U.S. Croplands for Biofuels Increases Greenhouse Gases Through Emissions from Land-Use Change," Staff General Research Papers Archive 12881, Iowa State University, Department of Economics.
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    Cited by:

    1. de Freitas, Luciano Charlita & Kaneko, Shinji, 2011. "Decomposition of CO2 emissions change from energy consumption in Brazil: Challenges and policy implications," Energy Policy, Elsevier, vol. 39(3), pages 1495-1504, March.
    2. Horta Nogueira, Luiz Augusto & Moreira, Jose Roberto & Schuchardt, Ulf & Goldemberg, Jose, 2013. "The rationality of biofuels," Energy Policy, Elsevier, vol. 61(C), pages 595-598.
    3. Crago, Christine L. & Khanna, Madhu & Barton, Jason & Giuliani, Eduardo & Amaral, Weber, 2010. "Competitiveness of Brazilian sugarcane ethanol compared to US corn ethanol," Energy Policy, Elsevier, vol. 38(11), pages 7404-7415, November.
    4. Arnaldo Walter & Marcelo Valadares Galdos & Fabio Vale Scarpare & Manoel Regis Lima Verde Leal & Joaquim Eugênio Abel Seabra & Marcelo Pereira da Cunha & Michelle Cristina Araujo Picoli & Camila Ortol, 2014. "Brazilian sugarcane ethanol: developments so far and challenges for the future," Wiley Interdisciplinary Reviews: Energy and Environment, Wiley Blackwell, vol. 3(1), pages 70-92, January.
    5. Rathmann, Régis & Szklo, Alexandre & Schaeffer, Roberto, 2012. "Targets and results of the Brazilian Biodiesel Incentive Program – Has it reached the Promised Land?," Applied Energy, Elsevier, vol. 97(C), pages 91-100.
    6. Moreira, Jose R. & Pacca, Sergio A. & Parente, Virginia, 2014. "The future of oil and bioethanol in Brazil," Energy Policy, Elsevier, vol. 65(C), pages 7-15.

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