Recent Advancements in Microalgal Mediated Valorisation of Wastewater from Hydrothermal Liquefaction of Biomass

被引:0
作者
Prangya Ranjan Rout
Mukesh Goel
Anee Mohanty
Daya Shankar Pandey
Nirmalya Halder
Sanjay Mukherjee
Shashi Kant Bhatia
Naresh Kumar Sahoo
Sunita Varjani
机构
[1] Thapar Institute of Engineering and Technology,Department of Biotechnology
[2] Sheffield Hallam University,Department of Engineering and Mathematics
[3] Dr. B. R. Ambedkar National Institute of Technology,Department of Biotechnology
[4] University of Huddersfield,School of Computing and Engineering
[5] Energy Systems Catapult,Department of Biological Engineering
[6] Konkuk University,Department of Chemistry
[7] Environmental Science Program - Institute of Technical Education and Research - Siksha ‘O’ Anusandhan,undefined
[8] Gujarat Pollution Control Board,undefined
来源
BioEnergy Research | 2023年 / 16卷
关键词
Hydrothermal liquefaction; Wastewater from HTL (HTWW); Bioenergy; Microalgae; Valorisation;
D O I
暂无
中图分类号
学科分类号
摘要
Hydrothermal liquefaction (HTL) is an evolving technology that can convert waste with high moisture and low energy content to electricity, heat, hydrogen and other synthetic fuels more efficiently. The lee side is that the HTL process produces enormous amounts of wastewaters (HTWW), having high organic and nutrient load. The discharge of the HTWW would contaminate the environment and result in the loss of valuable bioenergy sources. The valorisation of HTWW has drawn considerable interest. Therefore, this review highlights the valorisation of wastewater during the HTL of biomass. The review paper begins with the discussion of the role of microalgae in valorizing the HTWW. The survey illustrates that the selection of appropriate technology is dependent on biomass characteristics of the microalgae. Finally, potential research opportunities are recommended to improve the viability of the HTL wastewater valorisation for bioenergy production. Overall, this review concludes that combining various processes, such as microalgae-anaerobic digestion, and bio-electrochemical system - microalgae-anaerobic digestion would be beneficial in maximizing HTWW valorisation.
引用
收藏
页码:45 / 60
页数:15
相关论文
共 760 条
[1]  
Lee E(2020)Process optimization and energy analysis of vacuum degasifier systems for the simultaneous removal of dissolved methane and hydrogen sulfide from anaerobically treated wastewater Water Res 182 115965-711
[2]  
Rout PR(2021)A review on integrated approaches for municipal solid waste for environmental and economical relevance: Monitoring tools, technologies, and strategic innovations Bioresour Technol 342 125982-34
[3]  
Kyun Y(2022)Municipal solid waste management: Dynamics, risk assessment, ecological influence, advancements, constraints and perspectives Sci Total Environ 814 152802-93
[4]  
Bae J(2021)Processes and prospects on valorizing solid waste for the production of valuable products employing bio-routes: A systematic review Chemosphere 282 130954-201
[5]  
Kundariya N(2020)Influence of hydraulic retention time and temperature on the performance of an anaerobic ammonium oxidation fluidized bed membrane bioreactor for low-strength ammonia wastewater treatment Chem Eng J 386 123992-1142
[6]  
Mohanty SS(2022)Opportunities and knowledge gaps in biochemical interventions for mining of resources from solid waste: A special focus on anaerobic digestion Fuel 311 122625-146
[7]  
Varjani S(2021)Municipal solid waste as a sustainable resource for energy production: State-of-the-art review J Environ Chem Eng 9 105717-135
[8]  
Ngo HH(2015)The potential of using low cost naturally available biogenic substrates for biological removal of chlorophenol Bioresour Technol 196 707-1011
[9]  
Wong JWC(2009)Mixed culture acclimatization and biodegradation of chlorophenols in shake flasks: Effect of the inoculum source Pract Period Hazard Toxic Radioact Waste Manag 13 29-380
[10]  
Taherzadeh MJ(2019)Effects of sodium hypochlorite concentration on the methanogenic activity in an anaerobic fluidized membrane bioreactor Sci Total Environ 678 85-258
12345678910