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Biodiesel production from raw castor oil

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  • Dias, J.M.
  • Araújo, J.M.
  • Costa, J.F.
  • Alvim-Ferraz, M.C.M.
  • Almeida, M.F.

Abstract

A preliminary assessment of castor plant adaptability at Northern Portugal was performed, together with the evaluation of the extracted raw oil, without any refinement, for biodiesel production. Castor was seeded, plants grew and seeds were manually harvested after 2 years. Mechanical and chemical oil extraction procedures were evaluated. Biodiesel was produced by homogenous alkaline transesterification and experimental planning was conducted to evaluate the influence of temperature and reaction time in product yield and quality; 20 experiments were performed. A 54.1% (w/w) oil yield was obtained by Soxhlet extraction with methanol after grinding the seeds. Product yield ranged from 43.3 to 74.1% (w/w), biodiesel quality varied and the conditions that lead to the best product were established. Results indicate that, to achieve higher product yields and quality using raw oil, longer reaction times are required compared to what is generally reported for refined oil. Statistically significant predictive models were obtained to estimate product yield and quality as function of the studied reaction variables. The best temperature and reaction time to produce biodiesel from raw castor oil were 65 °C and 8 h, where models predict a product yield of 73.62% (w/w) and a purity of 83.41% (w/w).

Suggested Citation

  • Dias, J.M. & Araújo, J.M. & Costa, J.F. & Alvim-Ferraz, M.C.M. & Almeida, M.F., 2013. "Biodiesel production from raw castor oil," Energy, Elsevier, vol. 53(C), pages 58-66.
    • Handle: RePEc:eee:energy:v:53:y:2013:i:c:p:58-66
    DOI: 10.1016/j.energy.2013.02.018
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    7. Bhatia, Shashi Kant & Bhatia, Ravi Kant & Yang, Yung-Hun, 2017. "An overview of microdiesel — A sustainable future source of renewable energy," Renewable and Sustainable Energy Reviews, Elsevier, vol. 79(C), pages 1078-1090.
    8. Ma, Yingqun & Wang, Qunhui & Zheng, Lu & Gao, Zhen & Wang, Qiang & Ma, Yuhui, 2016. "Mixed methanol/ethanol on transesterification of waste cooking oil using Mg/Al hydrotalcite catalyst," Energy, Elsevier, vol. 107(C), pages 523-531.
    9. Carlos S. Osorio-González & Natali Gómez-Falcon & Fabiola Sandoval-Salas & Rahul Saini & Satinder K. Brar & Antonio Avalos Ramírez, 2020. "Production of Biodiesel from Castor Oil: A Review," Energies, MDPI, vol. 13(10), pages 1-22, May.
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    11. Prakash, T. & Geo, V. Edwin & Martin, Leenus Jesu & Nagalingam, B., 2018. "Effect of ternary blends of bio-ethanol, diesel and castor oil on performance, emission and combustion in a CI engine," Renewable Energy, Elsevier, vol. 122(C), pages 301-309.
    12. Ma, Yingqun & Wang, Qunhui & Gao, Zhen & Sun, Xiaohong & Wang, Nan & Niu, Ruxuan & Ma, Hongzhi, 2016. "Transesterification of waste cooking oil using FeCl3-modified resin catalyst and the research of catalytic mechanism," Renewable Energy, Elsevier, vol. 86(C), pages 643-650.
    13. Cao, Leichang & Wang, Jieni & Liu, Kuojin & Han, Sheng, 2014. "Ethyl acetoacetate: A potential bio-based diluent for improving the cold flow properties of biodiesel from waste cooking oil," Applied Energy, Elsevier, vol. 114(C), pages 18-21.
    14. Saad Ahmad & Ali Turab Jafry & Muteeb ul Haq & Naseem Abbas & Huma Ajab & Arif Hussain & Uzair Sajjad, 2023. "Performance and Emission Characteristics of Second-Generation Biodiesel with Oxygenated Additives," Energies, MDPI, vol. 16(13), pages 1-33, July.
    15. Monteiro, Marcos Roberto & Kugelmeier, Cristie Luis & Pinheiro, Rafael Sanaiotte & Batalha, Mario Otávio & da Silva César, Aldara, 2018. "Glycerol from biodiesel production: Technological paths for sustainability," Renewable and Sustainable Energy Reviews, Elsevier, vol. 88(C), pages 109-122.
    16. Menshhein, Guilherme & Costa, Vanderlei & Chiarello, Luana M. & Scharf, Dilamara R. & Simionato, Edesio L. & Botton, Vanderleia & Meier, Henry F. & Wiggers, Vinicyus R. & Ender, Laércio, 2019. "Concentration of renewable products of crude bio-oil from thermal cracking of the methyl esters in castor oil," Renewable Energy, Elsevier, vol. 142(C), pages 561-568.
    17. Virgínio e Silva, Joab Oliveira & Almeida, Manuel Fonseca & da Conceição Alvim-Ferraz, Maria & Dias, Joana Maia, 2018. "Integrated production of biodiesel and bioethanol from sweet potato," Renewable Energy, Elsevier, vol. 124(C), pages 114-120.
    18. Arunkumar, M. & Kannan, M. & Murali, G., 2019. "Experimental studies on engine performance and emission characteristics using castor biodiesel as fuel in CI engine," Renewable Energy, Elsevier, vol. 131(C), pages 737-744.
    19. Kodgire, Pravin & Sharma, Anvita & Kachhwaha, Surendra Singh, 2023. "Optimization and kinetics of biodiesel production of Ricinus communis oil and used cottonseed cooking oil employing synchronised ‘ultrasound + microwave’ and heterogeneous CaO catalyst," Renewable Energy, Elsevier, vol. 212(C), pages 320-332.
    20. Zhu, Qing-li & Gu, Heng & Ke, Zengguang, 2018. "Congeneration biodiesel, ricinine and nontoxic meal from castor seed," Renewable Energy, Elsevier, vol. 120(C), pages 51-59.
    21. Serrano, Marta & Oliveros, Rubén & Sánchez, Marcos & Moraschini, Andrea & Martínez, Mercedes & Aracil, José, 2014. "Influence of blending vegetable oil methyl esters on biodiesel fuel properties: Oxidative stability and cold flow properties," Energy, Elsevier, vol. 65(C), pages 109-115.
    22. Verónica Ávila Vázquez & Miguel Mauricio Aguilera Flores & Luis Felipe Hernández Casas & Nahum Andrés Medellín Castillo & Alejandro Rocha Uribe & Hans Christian Correa Aguado, 2023. "Biodiesel Production Catalyzed by Lipase Extract Powder of Leonotis nepetifolia (Christmas Candlestick) Seed," Energies, MDPI, vol. 16(6), pages 1-13, March.

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