Knowledge Agora

Title	Comparison of the methane potential obtained by anaerobic codigestion of urban solid waste and lignocellulosic biomass
ID_Doc	16081
Authors	Romero, HI; Vega, CA; Zuma, JD; Pesantez, FF; Camacho, AG; Redrovan, FF
Title	Comparison of the methane potential obtained by anaerobic codigestion of urban solid waste and lignocellulosic biomass
Year	2020
Published
Abstract	The purpose of this research was to compare the methane gas (CH4) obtained through the anaerobic co-digestion between bean rind (Vicia faba) and pea rind (Pisum sativum) and the solid residues of El Macho stream of the city of Machala. For this, three 250 ml glass bioreactors were used, with the following composition: Reactor A (bean / sediment); Reactor B (pea / sediment); and Reactor C (bean + vetch / sediment). All bioreactors had a ratio of 1.7 between the lignocellulosic biomass (peel of bean and pea) and the RSU (sediment). A gas chromatograph was used to determine the methane concentration in the biogas obtained in the bioreactors. For the storage of the biogas, propylene bags were used. It was determined that, in Reactor A, after two weeks of anaerobic digestion, a greater concentration of methane was produced, with 39.52 +/- 0.28%; compared to 10.71 +/- 0.16% produced in Reactor B; and 2.11 +/- 0.03% in Reactor C. A comparison analysis of means was performed, where the statistical significance (p-value <0.05) allows to conclude that the composition of the co-digested biomass does influence the production of methane gas. (C) 2019 Published by Elsevier Ltd.
PDF	https://doi.org/10.1016/j.egyr.2019.10.013

Similar Articles

ID	Score	Article
10690		Pacheco, LA; Tamayo-Peña, J; Moraes, BD; Franco, TT Bioenergy, Electricity, Biogas Production, and Emission Reduction Using the Anaerobic Digestion of Organic Municipal Solid Waste in Campinas, One of the Largest Brazilian Cities(2022)Processes, 10, 12
25795		Casallas-Ojeda, MR; Marmolejo-Rebellón, LF; Torres-Lozada, P Identification of Factors and Variables that Influence the Anaerobic Digestion of Municipal Biowaste and Food Waste(2021)Waste And Biomass Valorization, 12, 6
10064		Caruso, MC; Braghieri, A; Capece, A; Napolitano, F; Romano, P; Galgano, F; Altieri, G; Genovese, F Recent Updates on the Use of Agro-Food Waste for Biogas Production(2019)Applied Sciences-Basel, 9.0, 6
12528		Aboudi, K; Gómez-Quiroga, X; Alvarez-Gallego, CJ; Romero-García, LI Insights into Anaerobic Co-Digestion of Lignocellulosic Biomass (Sugar Beet By-Products) and Animal Manure in Long-Term Semi-Continuous Assays(2020)Applied Sciences-Basel, 10.0, 15
3603		Dhungana, B; Lohani, SP; Marsolek, M Anaerobic Co-Digestion of Food Waste with Livestock Manure at Ambient Temperature: A Biogas Based Circular Economy and Sustainable Development Goals(2022)Sustainability, 14, 6
17606		Andriamanohiarisoamanana, FJ; Yasui, S; Yamashiro, T; Ramanoelina, V; Ihara, I; Umetsu, K Anaerobic co-digestion: a sustainable approach to food processing organic waste management(2020)Journal Of Material Cycles And Waste Management, 22, 5
27399		Ribeiro, EM; Barros, RM; Tiago, GL; dos Santos, IFS; Sampaio, LC; dos Santos, TV; da Silva, FDB; Silva, APM; de Freitas, JVR Power generation potential in posture aviaries in Brazil in the context of a circular economy(2016)
14402		Zainal, A; Harun, R; Idrus, S Performance Monitoring of Anaerobic Digestion at Various Organic Loading Rates of Commercial Malaysian Food Waste(2022)
13245		Seruga, P; Krzywonos, M; Seruga, A; Niedzwiecki, L; Pawlak-Kruczek, H; Urbanowska, A Anaerobic Digestion Performance: Separate Collected vs. Mechanical Segregated Organic Fractions of Municipal Solid Waste as Feedstock(2020)Energies, 13, 15
27315		Nadaleti, WC; dos Santos, M; Gomes, J; de Souza, E; Missio, A; Delucis, R; Przybyla, G Methane production from the energy valorization of biomass and agro-industrial waste: an experimental approach for the bioenergy development in Rio Grande do Sul, Brazil(2024)