Effect of Initial Sludge Loading Rate on the Formation of Ethanol Type Fermentation for Hydrogen Production in a Continuous Stirred‐Tank Reactor

Li, Jianzheng; Ai, Binling; Ren, Nanqi

doi:10.1002/ep.11732

Cited by 11 publications

(7 citation statements)

References 34 publications

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“…In an attractive dark fermentation, maximum yield of 12 mol hydrogen per mole of glucose can be achieved at ambient temperature and atmospheric pressure using organic wastes [4]. Various waste materials such as starch and cellulose waste water, food waste, dairy waste, skim latex, kitchen waste water, and POME is being exploited as a renewableenergy source [5]. As per conservative estimates, the POME produced in Indonesia and Malaysia is more than 50 million m 3 /year, which is equivalent to power generation capacity of 800 GW [6].…”

Section: Introductionmentioning

confidence: 99%

Process enhancement of hydrogen and methane production from palm oil mill effluent using two-stage thermophilic and mesophilic fermentation

Krishnan

Singh

Sakinah

et al. 2016

International Journal of Hydrogen Energy

101

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Section: Introductionmentioning

confidence: 99%

Process enhancement of hydrogen and methane production from palm oil mill effluent using two-stage thermophilic and mesophilic fermentation

Krishnan

Singh

Sakinah

et al. 2016

International Journal of Hydrogen Energy

101

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“…Conventional methods of hydrogen production are found to be energy exhaustive, expensive, and non‐eco‐friendly . In an alternative biological process, the hydrogen can be produced at ambient temperatures and pressures using various waste materials as which facilitate waste recycling . The palm oil mill effluent (POME) is a suitable substrate for hydrogen production in terms of hydrogen yield via dark fermentation.…”

Section: Introductionmentioning

confidence: 99%

An investigation of two‐stage thermophilic and mesophilic fermentation process for the production of hydrogen and methane from palm oil mill effluent

Krishnan

Singh

Sakinah

et al. 2017

Env Prog and Sustain Energy

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The two‐stage process of combined hydrogen and methane production with the recirculation of digestate sludge using palm oil mill effluent as substrate was investigated. During the first stage, an up‐flow anaerobic sludge blanket reactor (UASB) was operated at thermophilic conditions [hydraulic retention time (HRT)−2 days, organic loading rate −75 gCOD L−1d−1] for hydrogen production. The operation performance at short HRT and low pH was useful to separate the acidogenesis from methanogenesis. The effluents from UASB reactor containing mainly acetate and butyrate were fed into a continuous stirred tank reactor (CSTR) for methane production under the mesophilic temperature at two different HRTs (5 and 3 days). Both UASB and CSTR reactors were operated for 120 days continuously and a stable production of the hydrogen and methane was obtained simultaneously. The total hydrogen and methane yields obtained were 215 L H2 kgCOD−1 and 320 L CH4 kgCOD−1, respectively with the total COD removal efficiency of 94% in the two stage process. © 2017 American Institute of Chemical Engineers Environ Prog, 36: 895–902, 2017

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“…The utilization of nonrenewable fossil fuels has resulted in serious environmental pollution and energy shortage . Fermentative hydrogen production from waste biomass has elicited special attention because of its environment‐friendly, energy‐saving, renewable, and carbon‐neutral characteristics .…”

Section: Introductionmentioning

confidence: 99%

Improving fermentative hydrogen production from water hyacinth with genetically modified bacteria

Cheng

Ding

et al. 2017

Env Prog and Sustain Energy

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Water hyacinth pretreated with microwave-assisted dilute acid was used for fermentation to produce hydrogen using four kinds of genetically modified bacteria for the first time in this study. The genes of several hydrogenase were overexpressed in Enterobacter cloacae CICC10017 and Enterobacter aerogenes ATCC13408. Four recombinant strains including E. cloacae/HPP, E. aerogenes/HycE, E. aerogenes/ HycG, and E. aerogenes/HoxEFUYH were obtained. Hydrogen yields from water hyacinth were investigated, which were enhanced using the recombinant strains. When water hyacinth was pretreated by microwave at 1408C for 15 min with 1% H 2 SO 4 and then hydrolyzed by cellulase, the reducing sugar yield of 49.4 g/100 g hyacinth was 91.4% of the theoretical reducing sugar yield. Among the four genetically modified bacteria, E. cloacae/HPP gave the highest hydrogen yield of 74.9 mL/g-total volatile solids, which was 50% higher than that given by the wild strain from pretreated water hyacinth.

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Effect of Initial Sludge Loading Rate on the Formation of Ethanol Type Fermentation for Hydrogen Production in a Continuous Stirred‐Tank Reactor

Cited by 11 publications

References 34 publications

Process enhancement of hydrogen and methane production from palm oil mill effluent using two-stage thermophilic and mesophilic fermentation

Process enhancement of hydrogen and methane production from palm oil mill effluent using two-stage thermophilic and mesophilic fermentation

An investigation of two‐stage thermophilic and mesophilic fermentation process for the production of hydrogen and methane from palm oil mill effluent

Improving fermentative hydrogen production from water hyacinth with genetically modified bacteria

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