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Mathematical simulations biochemical methane potential of food waste

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ã€Authorã€‘ JIANG Bin;LYU Xiwu;ZHU Jianguo;HUANG Fumin;Key Laboratory of Hydraulic and Waterway Engineering,Ministry of Education,Chongqing Jiaotong University;Jiangsu Institute of Urban Planning and Design;School of Energy and Environment,Southeast University;

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ã€Abstractã€‘ In regard to food waste recycling,a BMP test for methane production potential of food waste was conducted. Biogas production and concentrations of COD and VFA were determined during anaerobic digestion,and based on the BMP test results,a mathematical simulation of methane production potential of food waste anaerobic digestion was performed. The results showed that the COD concentration in the mixed liquor declined gradually,and the VFA concentration briefly accumulated; therefore,the alkalinity of an anaerobic digestion system should be controlled to avoid acidification. The biogas and methane production yields of the food waste were 559. 1 and 349. 7 m LÂ·g^-1 VS,respectively,after 40 d of anaerobic digestion. Meanwhile,cumulative biogas production after 20 d of anaerobic digestion increased insignificantly. The mathematical simulation results indicated that the average hydrolysis rate constant of food waste during the first 7 days was 0. 244 d^-1,and the simulated biogas and methane production potentials of food waste reached 578. 36 and 363. 72 m LÂ·g^-1 VS,respectively,of which biogas and methane production yields accounted for 96. 7% and 96. 1%. Therefore,it is suitable to use a solid retention time between 25 d and 30 d to digest food waste.æ›´å¤š è¿˜åŽŸ