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標題: Modeling biogas production from organic fraction of MSW co-digested with MSWI ashes in anaerobic bioreactors
作者: Lo, H.M.
Kurniawan, T.A.
Sillanpaa, M.E.T.
Pai, T.Y.
Chiang, C.F.
Chao, K.P.
Liu, M.H.
Chuang, S.H.
Banks, C.J.
Wang, S.C.
Lin, K.C.
Lin, C.Y.
Liu, W.F.
Cheng, P.H.
Chen, C.K.
Chiu, H.Y.
Wu, H.Y.
關鍵字: MSW;Modeling;MSWI ashes;Anaerobic digestion;Gompertz plot;municipal solid-waste;aromatic-hydrocarbons pahs;fermentative;hydrogen-production;dibenzo-p-dioxins;heavy-metals;bottom ash;sewage-sludge;fly-ash;leaching behavior;activated-sludge
Project: Bioresource Technology
期刊/報告no:: Bioresource Technology, Volume 101, Issue 16, Page(s) 6329-6335.
This study aims at investigating the effects of MSW incinerator fly ash (FA) and bottom ash (BA) on the anaerobic co-digestion of OFMSW with FA or BA. It also simulates the biogas production from various dosed and control bioreactors. Results showed that suitable ashes addition (FA/MSW 10 and 20 g l(-1) and BA/MSW 100 g L(-1)) could improve the MSW anaerobic digestion and enhance the biogas production rates. FA/MSW 20 g L(-1) bioreactor had the higher biogas production and rate implying the potential option for MSW anaerobic co-digestion. Modeling studies showed that exponential plot simulated better for FA/MSW 10 g L(-1) and control bioreactors while Gaussian plot was applicable for FA/MSW 20 g L(-1) one. Linear and exponential plot of descending limb both simulated better for BA/MSW 100 g L(-1) bioreactor. Modified Gompertz plot showed higher correlation of biogas accumulation than exponential rise to maximum plot for all bioreactors. (C) 2010 Elsevier Ltd. All rights reserved.
ISSN: 0960-8524
DOI: 10.1016/j.biortech.2010.03.048
Appears in Collections:水土保持學系

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