The aim of this study was to investigate the biohydrogen production from thermal(T),alkaline(A)or thermal-alkaline(TA)pretreated sludge fermentation liquid(SFL)in a microbial electrolysis cells(MECs)without buffer add...The aim of this study was to investigate the biohydrogen production from thermal(T),alkaline(A)or thermal-alkaline(TA)pretreated sludge fermentation liquid(SFL)in a microbial electrolysis cells(MECs)without buffer addition.Highest hydrogen yield of 36.87±4.36 mgH_(2)/gVSS(0.026 m^(3)/kg COD)was achieved in TA pretreated SFL separated by centrifugation,which was 5.12,2.35 and 43.25 times higher than that of individual alkaline,thermal pretreatment and raw sludge,respectively.Separating SFL from sludge by centrifugation eliminated the negative effects of particulate matters,was more conducive for hydrogen production than filtration.The accumulated short chain fatty acid(SCFAs)after pretreatments were the main substrates for MEC hydrogen production.The maximum utilization ratio of acetic acid,propionic acid and n-butyric acid was 93.69%,90.72%and 91.85%,respectively.These results revealed that pretreated WAS was highly efficient to stimulate the accumulation of SCFAs.And the characteristics and cascade bioconversion of complex substrates were the main factor that determined the energy efficiency and hydrogen conversion rate of MECs.展开更多
基金This research was supported by the National Natural Science Foundation of China(Grant No.51778607)and the Natural Science Fundation of Heilongjiang Province,China(No.LH2019E071).
文摘The aim of this study was to investigate the biohydrogen production from thermal(T),alkaline(A)or thermal-alkaline(TA)pretreated sludge fermentation liquid(SFL)in a microbial electrolysis cells(MECs)without buffer addition.Highest hydrogen yield of 36.87±4.36 mgH_(2)/gVSS(0.026 m^(3)/kg COD)was achieved in TA pretreated SFL separated by centrifugation,which was 5.12,2.35 and 43.25 times higher than that of individual alkaline,thermal pretreatment and raw sludge,respectively.Separating SFL from sludge by centrifugation eliminated the negative effects of particulate matters,was more conducive for hydrogen production than filtration.The accumulated short chain fatty acid(SCFAs)after pretreatments were the main substrates for MEC hydrogen production.The maximum utilization ratio of acetic acid,propionic acid and n-butyric acid was 93.69%,90.72%and 91.85%,respectively.These results revealed that pretreated WAS was highly efficient to stimulate the accumulation of SCFAs.And the characteristics and cascade bioconversion of complex substrates were the main factor that determined the energy efficiency and hydrogen conversion rate of MECs.
