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Microwave treatment of wet algal paste for enhanced solvent extraction of lipids for biodiesel production

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  • Ali, Mehmood
  • Watson, Ian A.

Abstract

The role of microwave treatment as a precursor to lipid extraction from Nannochloropsis oculata using solvent extraction was investigated. Two microwave power settings were used, corresponding to wall plug powers of 635 and 1021 W. To limit the maximum temperature rise of the wet algal samples, exposure times were capped to 15 s intervals and followed by 15 min of cooling. Samples were treated in total from 1 to 5 min of microwave treatment (i.e. 1 min was 4 × 15 s treatments). The lysed fraction increased with exposure time for both power levels and the extracted lipids closely followed the lysed fraction. The highest extracted lipid content, after 5 min, was 0.036 g/g dry algae weight (g/g) for 635 W (68.86% cell lysis), while with 1021 W the yield was 0.052 g/g (92.81%). The control sample, which did not receive any microwave treatment, was only 0.016 g/g dry algae weight. Significance was observed between treatment time, cell lysis and lipid yield, (p < 0.05). For the 5 min of treatment, the lipid produced per total number of Joules consumed was found for each microwave power setting; yielding values of 1.889 × 10−4 g/g/kJ (635 W) and 1.697 × 10−4 g/g/kJ (1021 W).

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  • Ali, Mehmood & Watson, Ian A., 2015. "Microwave treatment of wet algal paste for enhanced solvent extraction of lipids for biodiesel production," Renewable Energy, Elsevier, vol. 76(C), pages 470-477.
  • Handle: RePEc:eee:renene:v:76:y:2015:i:c:p:470-477
    DOI: 10.1016/j.renene.2014.11.024
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    References listed on IDEAS

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    1. McMillan, Jonathan R. & Watson, Ian A. & Ali, Mehmood & Jaafar, Weaam, 2013. "Evaluation and comparison of algal cell disruption methods: Microwave, waterbath, blender, ultrasonic and laser treatment," Applied Energy, Elsevier, vol. 103(C), pages 128-134.
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    Cited by:

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    2. Maria Hasnain & Neelma Munir & Zainul Abideen & Heather Macdonald & Maria Hamid & Zaheer Abbas & Ali El-Keblawy & Roberto Mancinelli & Emanuele Radicetti, 2023. "Prospects for Biodiesel Production from Emerging Algal Resource: Process Optimization and Characterization of Biodiesel Properties," Agriculture, MDPI, vol. 13(2), pages 1-29, February.
    3. Gu, X. & Martinez-Fernandez, J.S. & Pang, N. & Fu, X. & Chen, S., 2020. "Recent development of hydrothermal liquefaction for algal biorefinery," Renewable and Sustainable Energy Reviews, Elsevier, vol. 121(C).
    4. Zhang, Yi & Soldatov, Sergey & Papachristou, Ioannis & Nazarova, Natalja & Link, Guido & Frey, Wolfgang & Silve, Aude, 2022. "Pulsed microwave pretreatment of fresh microalgae for enhanced lipid extraction," Energy, Elsevier, vol. 248(C).
    5. Zhu, Liandong & Nugroho, Y.K. & Shakeel, S.R. & Li, Zhaohua & Martinkauppi, B. & Hiltunen, E., 2017. "Using microalgae to produce liquid transportation biodiesel: What is next?," Renewable and Sustainable Energy Reviews, Elsevier, vol. 78(C), pages 391-400.
    6. Afshin Ghorbani & Mohammad Reza Rahimpour & Younes Ghasemi & Sona Raeissi, 2018. "The Biodiesel of Microalgae as a Solution for Diesel Demand in Iran," Energies, MDPI, vol. 11(4), pages 1-17, April.
    7. Zhang, Hao & Lai, Yanhua & Yang, Xiao & Li, Chang & Dong, Yong, 2022. "Non-evaporative solvent extraction technology applied to water and heat recovery from low-temperature flue gas: Parametric analysis and feasibility evaluation," Energy, Elsevier, vol. 244(PB).
    8. Onumaegbu, C. & Alaswad, A. & Rodriguez, C. & Olabi, A., 2019. "Modelling and optimization of wet microalgae Scenedesmus quadricauda lipid extraction using microwave pre-treatment method and response surface methodology," Renewable Energy, Elsevier, vol. 132(C), pages 1323-1331.

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