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Intensification of biodiesel production via ultrasonic-assisted process: A critical review on fundamentals and recent development

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  • Badday, Ali Sabri
  • Abdullah, Ahmad Zuhairi
  • Lee, Keat Teong
  • Khayoon, Muataz Sh.

Abstract

Biodiesel is a good alternative fuel to petroleum diesel. It is produced through transesterification reaction between vegetable oil or animal fats and alcohol. The process faces various problems related to the immiscible nature of the reactants causing poor mass transfer rate. This drawback is responsible for long reaction time and low reaction rate leading to an energy intensive process. Process intensification through the use of active catalyst, pressure reactor, high temperature, high stirring rate or even non-conventional approaches such as supercritical method and Biox process often subjects to drawbacks with respect to energy consumption, product quality and reactants cost. This paper highlights recent development in the production of biodiesel under ultrasonic irradiation conditions. It handles the drawback of poor immiscibility between reactants as ultrasonic energy can emulsify the reactants to reduce the catalyst requirement, reaction time and reaction temperature. Ultrasonic energy also neglects the limitations in the use certain feed stocks. Fundamental aspects of the ultrasonic-assisted process using homogeneous and heterogeneous catalysts are reviewed. Recent achievement and future development in this technology in a batch and continuous process are also highlighted.

Suggested Citation

  • Badday, Ali Sabri & Abdullah, Ahmad Zuhairi & Lee, Keat Teong & Khayoon, Muataz Sh., 2012. "Intensification of biodiesel production via ultrasonic-assisted process: A critical review on fundamentals and recent development," Renewable and Sustainable Energy Reviews, Elsevier, vol. 16(7), pages 4574-4587.
    • Handle: RePEc:eee:rensus:v:16:y:2012:i:7:p:4574-4587
    DOI: 10.1016/j.rser.2012.04.057
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    2. Wongwuttanasatian, Tanakorn & Jookjantra, Kittichai, 2020. "Effect of dual-frequency pulsed ultrasonic excitation and catalyst size for biodiesel production," Renewable Energy, Elsevier, vol. 152(C), pages 1220-1226.
    3. Brasil, Alex N. & Oliveira, Leandro S. & Franca, Adriana S., 2015. "Circulation flow reactor with ultrasound irradiation for the transesterification of vegetable oils," Renewable Energy, Elsevier, vol. 83(C), pages 1059-1065.
    4. A Shalmashi & F Khodadadi, 2019. "Ultrasound-assisted synthesis of biodiesel from peanut oil by using response surface methodology," Energy & Environment, , vol. 30(2), pages 272-291, March.
    5. Badday, Ali Sabri & Abdullah, Ahmad Zuhairi & Lee, Keat-Teong, 2014. "Transesterification of crude Jatropha oil by activated carbon-supported heteropolyacid catalyst in an ultrasound-assisted reactor system," Renewable Energy, Elsevier, vol. 62(C), pages 10-17.
    6. Asgharzadehahmadi, Seyedali & Abdul Raman, Abdul Aziz & Parthasarathy, Rajarathinam & Sajjadi, Baharak, 2016. "Sonochemical reactors: Review on features, advantages and limitations," Renewable and Sustainable Energy Reviews, Elsevier, vol. 63(C), pages 302-314.
    7. Singh, Bhaskar & Guldhe, Abhishek & Rawat, Ismail & Bux, Faizal, 2014. "Towards a sustainable approach for development of biodiesel from plant and microalgae," Renewable and Sustainable Energy Reviews, Elsevier, vol. 29(C), pages 216-245.
    8. Gómez-Castro, F.I. & Gutiérrez-Antonio, C. & Romero-Izquierdo, A.G. & May-Vázquez, M.M. & Hernández, S., 2023. "Intensified technologies for the production of triglyceride-based biofuels: Current status and future trends," Renewable and Sustainable Energy Reviews, Elsevier, vol. 184(C).
    9. Naraki, Mohamad mehdi & Parvasi, Payam & Jokar, Seyyed Mohammad & Iulianelli, Adolfo, 2023. "Experimental and theoretical feasibility study of methanol application for Echium oil-based biodiesel production," Renewable Energy, Elsevier, vol. 202(C), pages 1241-1247.
    10. Badday, Ali Sabri & Abdullah, Ahmad Zuhairi & Lee, Keat-Teong, 2013. "Ultrasound-assisted transesterification of crude Jatropha oil using cesium doped heteropolyacid catalyst: Interactions between process variables," Energy, Elsevier, vol. 60(C), pages 283-291.

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