Knowledge Agora

Title	Perspectives on electrochemical valorization of organic waste
ID_Doc	23828
Authors	Alvarez-Pugliese, CE; Donneys-Victoria, D; Cardona-Velez, WJ; Botte, GG
Title	Perspectives on electrochemical valorization of organic waste
Year	2024
Published
Abstract	This brief review outlines sustainable and innovative approaches involving electrochemical processes to transform organic waste materials into valuable products. This is defined as electrochemical valorization of organic waste (EVOW). By exploring the waste management landscape, EVOW could significantly contribute to global sustainability goals. This analysis highlights some of the most recent advances in EVOW, focusing on high -volume sources like municipal solid waste, food waste, and synthetic organic waste like plastics. This perspective emphasizes the need for economically viable reactor designs, durable electrodes, and a better understanding of electrocatalytic and electrochemical separation paths. Despite progress, translating theoretical studies into industrial applications remains a challenge, requiring further exploration of economic considerations, life cycle analysis, and scalable technologies. This paper provides insights into advancements, challenges, and prospects, guiding future research for sustainable waste management practices.
PDF	https://doi.org/10.1016/j.coelec.2024.101508

Similar Articles

ID	Score	Article
8603		Cho, J; Kim, B; Kwon, T; Lee, K; Choi, SI Electrocatalytic upcycling of plastic waste(2023)Green Chemistry, 25.0, 21
7226		dos Santos, EV; Martínez-Huitle, CA; Rodrigo, MA The electro-refinery in organics: A new arising concept for valorization of wastes(2023)
8148		Jiang, Y; May, HD; Lu, L; Liang, P; Huang, X; Ren, ZJ Carbon dioxide and organic waste valorization by microbial electrosynthesis and electro-fermentation(2019)
10220		da Paixao, IC; Cardozo, JC; Monteiro, MKS; Gondim, AD; Cavalcanti, LN; Souza, DFD; Martínez-Huitle, CA; dos Santos, EV A sustainable solar-driven electrochemical process for reforming lignocellulosic biomass effluent into high value-added products: green hydrogen, carboxylic and vanillic acids(2023)Rsc Advances, 13, 50
7241		Roy, M; Aryal, N; Zhang, YF; Patil, SA; Pant, D Technological progress and readiness level of microbial electrosynthesis and electrofermentation for carbon dioxide and organic wastes valorization(2022)
29101		Kong, LC; Liu, XT Emerging electrochemical processes for materials recovery from wastewater: Mechanisms and prospects(2020)Frontiers Of Environmental Science & Engineering, 14.0, 5
5856		Pichler, CM Coupled Electrochemical Processes as Versatile Route for Converting Waste Substrates into Value Added Chemical Products(2023)Chemcatchem, 15, 20
6664		Li, X; Wang, JY; Zhang, T; Yang, S; Sun, MZ; Qian, XF; Wang, TF; Zhao, YX Sustainable catalytic strategies for the transformation of plastic wastes into valued products(2023)
13071		Bajracharya, S; Bian, B; Jimenez-Sandoval, R; Matsakas, L; Katuri, KP; Saikaly, PE Nature inspired catalysts: A review on electroactive microorganism-based catalysts for electrochemical applications(2024)
26965		Pichler, CM; Bhattacharjee, S; Lam, E; Su, L; Collauto, A; Roessler, MM; Cobb, SJ; Badiani, VM; Rahaman, M; Reisner, E Bio-Electrocatalytic Conversion of Food Waste to Ethylene via Succinic Acid as the Central Intermediate(2022)Acs Catalysis, 12, 21