Knowledge Agora

Title	Feasibility analysis of anaerobic digestion of excess sludge enhanced by iron: A review
ID_Doc	13127
Authors	Wei, J; Hao, XD; van Loosdrecht, MCM; Li, J
Title	Feasibility analysis of anaerobic digestion of excess sludge enhanced by iron: A review
Year	2018
Published
Abstract	The Paris Climate Treaty implies the coming of a new era towards carbon-neutral operation in wastewater treatment plants (WWTPs), and thus energy self-sufficiency from biosolids and/or heat in the form of wastewater temperature has to be considered. In this regard, anaerobic digestion (AD) of sludge should be paid renewed attention to resolve a low conversion efficiency of biosolids. As a potential way to energy positive operation, exogenous iron has been proposed to enhance methane production in recent years. In this review, the authors provided a deep insight into the feasibility of iron-enhanced AD system. Hydrogen evolution from iron corrosion and its effects on CH4 production is firstly reviewed; then the roles of iron in reducing ORP was illustrated with regard to its impact on fermentation type; serving as an essential element and potential electron donor, the stimulating effects of iron on microorganisms and enzyme activities were also elaborated, and thus the technical feasibility of iron-based AD could be evaluated. In regards of the environmental and economic impacts of iron-based AD, life cycle assessment (LCA) was employed to calculate its economic feasibility, and the results revealed that iron-based AD system could reduce both operational costs and carbon emissions. Conclusion was drawn that iron-based anaerobic digestion is promising on technical level as well as economic perspective, and is expected to contribute to carbon-neutral operation of WWTPs. Iron-based anaerobic digestion is such a promising and sustainable strategy towards circular economy that it could be applied to many cross-disciplinary fields.
PDF

Similar Articles

ID	Score	Article
9715		Zhang, JX; Qu, YY; Qi, QX; Zhang, PS; Zhang, YB; Tong, YW; He, YL The bio-chemical cycle of iron and the function induced by ZVI addition in anaerobic digestion: A review(2020)
6129		Ferrer, I; Passos, F; Romero, E; Vázquez, F; Font, X Optimising sewage sludge anaerobic digestion for resource recovery in wastewater treatment plants(2024)
26535		Massara, TM; Komesli, OT; Sozudogru, O; Komesli, S; Katsou, E A Mini Review of the Techno-environmental Sustainability of Biological Processes for the Treatment of High Organic Content Industrial Wastewater Streams(2017)Waste And Biomass Valorization, 8, 5
15490		Azevedo, A; Lapa, N; Moldao, M; Duarte, E Opportunities and challenges in the anaerobic co-digestion of municipal sewage sludge and fruit and vegetable wastes: A review(2023)
14107		Zielinski, M; Kazimierowicz, J; Debowski, M Advantages and Limitations of Anaerobic Wastewater Treatment-Technological Basics, Development Directions, and Technological Innovations(2023)Energies, 16, 1
6659		Krohn, C; Khudur, L; Dias, DA; van den Akker, B; Rees, CA; Crosbie, ND; Surapaneni, A; O'Carroll, DM; Stuetz, RM; Batstone, DJ; Ball, AS The role of microbial ecology in improving the performance of anaerobic digestion of sewage sludge(2022)
8587		Volschan, I; de Almeida, R; Cammarota, MC A review of sludge pretreatment methods and co-digestion to boost biogas production and energy self-sufficiency in wastewater treatment plants(2021)
5590		Dutta, N; Giduthuri, AT; Khan, MU; Garrison, R; Ahring, BK Improved valorization of sewage sludge in the circular economy by anaerobic digestion: Impact of an innovative pretreatment technology(2022)
10455		Sevillano, CA; Pesantes, AA; Carpio, EP; Martínez, EJ; Gómez, X Anaerobic Digestion for Producing Renewable Energy-The Evolution of This Technology in a New Uncertain Scenario(2021)Entropy, 23, 2
14725		Shah, SV; Lamba, BY; Tiwari, AK; Chen, WH Sustainable biogas production via anaerobic digestion with focus on CSTR technology: A review(2024)