Paperboard mill wastewater treatment via combined dark and LED-mediated fermentation in the absence of external chemical addition
[Display omitted] •Long HRT for dark fermentation process accounted for higher CO2 production.•Proposed light configuration led to light conversion efficiency augmentation to 5.9%.•Optimum overall performance was acquired at HRT of 12 h with HP of 1394.1 mL/L/d.•Growth rate of photosynthetic bacteri...
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Veröffentlicht in: | Bioresource technology 2020-01, Vol.295, p.122312-122312, Article 122312 |
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Sprache: | eng |
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•Long HRT for dark fermentation process accounted for higher CO2 production.•Proposed light configuration led to light conversion efficiency augmentation to 5.9%.•Optimum overall performance was acquired at HRT of 12 h with HP of 1394.1 mL/L/d.•Growth rate of photosynthetic bacteria was higher than dark fermentative bacteria.
Paperboard mill wastewater (PMWW) was treated using two subsequent dark and photo up-flow intermitted stirring tank reactors (UISTRs) under different hydraulic retention times (HRTs) without external chemical use. HRT of 12 h revealed the maximum overall H2 productivity of 1394.1(±70.6) mL/L/d with contents of 48.9(±2.5) and 47.4(±1.4)% for dark- and photo-processes, respectively. Overall substrate removal efficiency (SDE) of 58.9(±4.5)% was registered at HRT o 12 h. High H2 productivity was ascribed to fermentation type occurred at dark reactor, since acetate and butyrate accounted for 70.9% of volatile fatty acids. Besides, pH and carbon to nitrogen ratio of dark reactor’s effluent at HRT = 12 h were 5.5(±0.1) and 30.0(±2.5), respectively which are the optimum levels for photo fermentation process. Moreover, energetic and economic analyses emphasized on the superiority of 12 h-HRT, where net gain energy, daily saving and payback period accounted for 1319.5 kWh/d, 148.7 $/d and 9.8 years, respectively. |
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ISSN: | 0960-8524 1873-2976 |
DOI: | 10.1016/j.biortech.2019.122312 |