Knowledge Agora

Title	Microalgae bio-oil production by pyrolysis and hydrothermal liquefaction: Mechanism and characteristics
ID_Doc	24320
Authors	Agbulut, Ü; Sirohi, R; Lichtfouse, E; Chen, WH; Len, C; Show, PL; Le, AT; Nguyen, XP; Hoang, AT
Title	Microalgae bio-oil production by pyrolysis and hydrothermal liquefaction: Mechanism and characteristics
Year	2023
Published
Abstract	Microalgae have great potential in producing energy-dense and valuable products via thermochemical processes. Therefore, producing alternative bio-oil to fossil fuel from microalgae has rapidly gained popularity due to its environmentally friendly process and elevated productivity. This current work aims to review comprehensively the microalgae bio-oil production using pyrolysis and hydrothermal liquefaction. In addition, core mechanismsof pyrolysis and hydrothermal liquefaction process for microalgae were scrutinized, showing that the presence of lipids and proteins could contribute to forming a large amount of compounds containing O and N elements in bio-oil. However, applying proper catalysts and advanced technologies for the two aforementioned approaches could improve the quality, heating value, and yield of microalgae bio-oil. In general, microalgae bio-oil produced under optimal conditions could have 46 MJ/kg heating value and 60% yield, indicating that microalgae bio-oil could become a promising alternative fuel for transportation and power generation.
PDF

Similar Articles

ID	Score	Article
14008		Silva, TA; do Couto, ED; Assemany, PP; Costa, PAC; Marques, PASS; Paradela, F; dos Reis, AJD; Calijuri, ML Biofuel from wastewater-grown microalgae: A biorefinery approach using hydrothermal liquefaction and catalyst upgrading(2024)
25450		Huang, ZG; Zhang, J; Pan, MM; Hao, YH; Hu, RC; Xiao, WB; Li, G; Lyu, T Valorisation of microalgae residues after lipid extraction: Pyrolysis characteristics for biofuel production(2022)
20295		Hoang, AT; Sirohi, R; Pandey, A; Nizetic, S; Lam, SS; Chen, WH; Luque, R; Thomas, S; Arici, M; Pham, VV Biofuel production from microalgae: challenges and chances(2023)Phytochemistry Reviews, 22, 4
29616		Chhandama, MV; Ruatpuia, JVL; Ao, S; Chetia, AC; Satyan, KB; Rokhum, SL Microalgae as a sustainable feedstock for biodiesel and other production industries: Prospects and challenges(2023)
7214		da Silva, TL; Moniz, P; Silva, C; Reis, A The Dark Side of Microalgae Biotechnology: A Heterotrophic Biorefinery Platform Directed to ω-3 Rich Lipid Production(2019)Microorganisms, 7, 12
2956		Chhandama, M; Rai, PK; Lalawmpuii Coupling bioremediation and biorefinery prospects of microalgae for circular economy(2023)
10842		Vickram, AS; Saravanan, A; Kumar, PS; Thamarai, P; Yasodha, S; Jamuna, G; Rangasamy, G An integrated approach to the sustainable development and production of biofuel from biopolymers and algal biomass derived from wastewater(2023)
16352		Wang, ZJ; Ye, WF; Wu, YJ; Lin, XY; Luan, CR; Xie, XW; Peng, Y; Sun, XH; Shi, CY; Lv, YC; Shen, JL; Astatkie, T; He, Q; Li, ZY; Yang, J Protein extraction from chlorella pyrenoidosa microalgae: Green methodologies, functional assessment, and waste stream valorization for bioenergy production(2024)
33502		Shashikumar, U; Ranjan, KR; Sharma, A; Naina; Subramanian, B; Tsai, PC; Lin, YC; Lay, CH; Wang, CT; Biswas, S; Ponnusamy, VK Algal biomass based bio-refineries: Concurrent pre-treatment strategies and perspectives for sustainable feedstock(2024)
22336		Ruiz-Domínguez, MC; Rincón, B; Martín, MD; Gutiérrez, MD; Salinas, F; Medina, E; Cerezal, P *Microalga Isochrysis galbana* biorefinery: Obtaining fucoxanthin and biogas after supercritical fluid extraction**(2022)Journal Of Applied Phycology, 34.0, 4