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Continuous catalyst-free methanolysis and ethanolysis of soybean oil under supercritical alcohol/water mixtures

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  • Vieitez, Ignacio
  • da Silva, Camila
  • Alckmin, Isabella
  • Borges, Gustavo R.
  • Corazza, Fernanda C.
  • Oliveira, J. Vladimir
  • Grompone, Maria A.
  • Jachmanián, Iván

Abstract

This work investigates and compares the reaction performance of soybean oil transesterification under supercritical methanol and ethanol, in a continuous catalyst-free process, as a cleaner alternative to conventional chemically catalyzed process. Reactions were performed in a tubular reactor, at 20 MPa, with oil to alcohol ratio of 1:40, varying the temperature in the range from 250 °C to 350 °C, and at two levels of water concentrations, 0 and 10 wt%. Although both processes proceeded with a relatively high reaction rate, conversion achieved by methanolysis was higher than that obtained by ethanolysis. Water positively affected both process: higher ester content and triacylglycerols depletion occurred when 10 wt% water was used compared with anhydrous conditions. Temperature increase favored the conversion of soybean oil to the corresponding methyl or ethyl esters, although temperatures above 300 °C increased the fatty acid degradation degree, a phenomenon responsible for the low ester contents obtained at the highest temperatures and lowest flow rates studied.

Suggested Citation

  • Vieitez, Ignacio & da Silva, Camila & Alckmin, Isabella & Borges, Gustavo R. & Corazza, Fernanda C. & Oliveira, J. Vladimir & Grompone, Maria A. & Jachmanián, Iván, 2010. "Continuous catalyst-free methanolysis and ethanolysis of soybean oil under supercritical alcohol/water mixtures," Renewable Energy, Elsevier, vol. 35(9), pages 1976-1981.
    • Handle: RePEc:eee:renene:v:35:y:2010:i:9:p:1976-1981
    DOI: 10.1016/j.renene.2010.01.027
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    References listed on IDEAS

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    1. Srivastava, Anjana & Prasad, Ram, 2000. "Triglycerides-based diesel fuels," Renewable and Sustainable Energy Reviews, Elsevier, vol. 4(2), pages 111-133, June.
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    1. Muppaneni, Tapaswy & Reddy, Harvind K. & Patil, Prafulla D. & Dailey, Peter & Aday, Curtis & Deng, Shuguang, 2012. "Ethanolysis of camelina oil under supercritical condition with hexane as a co-solvent," Applied Energy, Elsevier, vol. 94(C), pages 84-88.
    2. Li, Qiang & Xu, Jingyang & Du, Wei & Li, Yang & Liu, Dehua, 2013. "Ethanol as the acyl acceptor for biodiesel production," Renewable and Sustainable Energy Reviews, Elsevier, vol. 25(C), pages 742-748.
    3. Porcel, Meline Gurtat & de Mello, Bruna Tais Ferreira & Alves, Helton José & Schneider, Ricardo & da Silva, Camila & Borba, Carlos Eduardo, 2023. "Synthesis and characterization of KF/waste glass catalyst for use in the transesterification process under pressurized conditions," Renewable Energy, Elsevier, vol. 203(C), pages 56-67.
    4. D'Amato Villardi, Hugo Gomes & Leal, Monique Ferreira & Pellegrini Pessoa, Fernando Luiz & Salgado, Andréa Medeiros, 2019. "Synthesis of methyl esters through residual feedstock using acid and free catalyst – Proposal of new reactor," Renewable Energy, Elsevier, vol. 131(C), pages 1146-1155.
    5. Hájek, Martin & Vávra, Aleš & Skopal, František & Straková, Anna & Douda, Miroslav, 2020. "The description of catalyst behaviour during transesterification of rapeseed oil – Formation of micellar emulsion," Renewable Energy, Elsevier, vol. 159(C), pages 938-943.

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