Review of performance enhancement of anaerobic digestion with the aid of biochar and future perspectives

Abstract: Anaerobic digestion (AD), one of the most promising routes for producing clean energy from biodegradable wastes, encounters difficulties at operational and mechanistic levels impacting its overall efficiency. Along with other solutions to overcome this problem, biochar has arrived as a worthwhile additive to enhance the performance of the process. This review aims to discuss various perspectives of biochar addition to anaerobic digester. It summarizes the mechanism of biochar action during AD. Direct inter-spe… Show more

“…As biochar can act as an adsorbent itself, the mitigation of inhibitors of different origins can be carried out by zeolites, activated carbon, silica gel, and activated alumina [140,238]. Adsorbents can effectively mitigate heavy metals (Na + , K + , Ca + , Al +3 , Cu +2 , Zn +2 , Cr +3 , and Ni), organic compounds (chlorophenols, halogenated aliphatics), volatile fatty acids (VFAC), and ammonia [218,220,239].…”

Revealing the Adverse Impact of Additive Carbon Material on Microorganisms and Its Implications for Biogas Yields: A Critical Review

“…As biochar can act as an adsorbent itself, the mitigation of inhibitors of different origins can be carried out by zeolites, activated carbon, silica gel, and activated alumina [140,238]. Adsorbents can effectively mitigate heavy metals (Na + , K + , Ca + , Al +3 , Cu +2 , Zn +2 , Cr +3 , and Ni), organic compounds (chlorophenols, halogenated aliphatics), volatile fatty acids (VFAC), and ammonia [218,220,239].…”

Revealing the Adverse Impact of Additive Carbon Material on Microorganisms and Its Implications for Biogas Yields: A Critical Review

Use of additives to improve collective biogas plant performances: A comprehensive review

Enhancement of Biogas Production from a Cold-Region Municipal Wastewater Anaerobic Digestion Process Using Biochar Additives