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Energetic and economic evaluation of Chlamydomonas reinhardtii hydrothermal liquefaction and pyrolysis through thermochemical models

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  • Hognon, Céline
  • Delrue, Florian
  • Boissonnet, Guillaume

Abstract

Renewable diesel productions through HTL (hydrothermal liquefaction) and pyrolysis of Chlamydomonas reinhardtii were compared based on energetic and economic evaluation. The whole biofuel production pathway was simulated, from the microalgae cultivation step to the upgrading of the bio-oil. Alternative dewatering technologies were evaluated to decrease the energy consumption and the bio-diesel cost. Thermochemical models were developed for both HTL and pyrolysis of C. reinhardtii based on experimental results. The pathways using heat exchangers between the inlet and outlet of the HTL reactor were the only scenarios to be net energy producers. The other pathways consumed more energy than they produced. The costs of production of renewable diesel from HTL or pyrolysis were significantly higher than petroleum diesel (average of 70.4 €/GJ). The most expensive step was the microalgae cultivation (nutrients cost and raceway capital cost).

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  • Hognon, Céline & Delrue, Florian & Boissonnet, Guillaume, 2015. "Energetic and economic evaluation of Chlamydomonas reinhardtii hydrothermal liquefaction and pyrolysis through thermochemical models," Energy, Elsevier, vol. 93(P1), pages 31-40.
    • Handle: RePEc:eee:energy:v:93:y:2015:i:p1:p:31-40
    DOI: 10.1016/j.energy.2015.09.021
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    6. Couto, Eduardo Aguiar & Pinto, Filomena & Varela, Francisco & Reis, Alberto & Costa, Paula & Calijuri, Maria Lúcia, 2018. "Hydrothermal liquefaction of biomass produced from domestic sewage treatment in high-rate ponds," Renewable Energy, Elsevier, vol. 118(C), pages 644-653.
    7. Florian Delrue & Pablo David Álvarez-Díaz & Sophie Fon-Sing & Gatien Fleury & Jean-François Sassi, 2016. "The Environmental Biorefinery: Using Microalgae to Remediate Wastewater, a Win-Win Paradigm," Energies, MDPI, vol. 9(3), pages 1-19, February.
    8. Azizi, Kolsoom & Keshavarz Moraveji, Mostafa & Abedini Najafabadi, Hamed, 2018. "A review on bio-fuel production from microalgal biomass by using pyrolysis method," Renewable and Sustainable Energy Reviews, Elsevier, vol. 82(P3), pages 3046-3059.
    9. Baudry, Gino & Delrue, Florian & Legrand, Jack & Pruvost, Jérémy & Vallée, Thomas, 2017. "The challenge of measuring biofuel sustainability: A stakeholder-driven approach applied to the French case," Renewable and Sustainable Energy Reviews, Elsevier, vol. 69(C), pages 933-947.
    10. Yuan, Chuan & Wang, Shuang & Cao, Bin & Hu, Yamin & Abomohra, Abd El-Fatah & Wang, Qian & Qian, Lili & Liu, Lu & Liu, Xinlin & He, Zhixia & Sun, Chaoqun & Feng, Yongqiang & Zhang, Bo, 2019. "Optimization of hydrothermal co-liquefaction of seaweeds with lignocellulosic biomass: Merging 2nd and 3rd generation feedstocks for enhanced bio-oil production," Energy, Elsevier, vol. 173(C), pages 413-422.
    11. Magdeldin, Mohamed & Kohl, Thomas & Järvinen, Mika, 2017. "Techno-economic assessment of the by-products contribution from non-catalytic hydrothermal liquefaction of lignocellulose residues," Energy, Elsevier, vol. 137(C), pages 679-695.
    12. Saumya Verma & Raja Chowdhury & Sarat K. Das & Matthew J. Franchetti & Gang Liu, 2021. "Sunlight Intensity, Photosynthetically Active Radiation Modelling and Its Application in Algae-Based Wastewater Treatment and Its Cost Estimation," Sustainability, MDPI, vol. 13(21), pages 1-28, October.
    13. Soreanu, G. & Tomaszewicz, M. & Fernandez-Lopez, M. & Valverde, J.L. & Zuwała, J. & Sanchez-Silva, L., 2017. "CO2 gasification process performance for energetic valorization of microalgae," Energy, Elsevier, vol. 119(C), pages 37-43.
    14. Sun, Chi-He & Fu, Qian & Liao, Qiang & Xia, Ao & Huang, Yun & Zhu, Xun & Reungsang, Alissara & Chang, Hai-Xing, 2019. "Life-cycle assessment of biofuel production from microalgae via various bioenergy conversion systems," Energy, Elsevier, vol. 171(C), pages 1033-1045.

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