Performance of a sulfidogenic bioreactor and bacterial community shifts under different alkalinity levels

Zhao, Yangguo; Li, Xinwei; Wang, Jun-Cai; Bai, Jie; Tian, Weijun

doi:10.1016/j.biortech.2010.07.055

Cited by 20 publications

(10 citation statements)

References 35 publications

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“…Generally, carbonate or bicarbonate compounds like limestone (CaCO 3 ), soda ash (Na 2 CO 3 ), NaHCO 3 and quick lime (CaO) have been employed to initiate alkalinity generation in passive treatment systems or acidogenic sulfate reducing bioreactors [1,3,7,22]. In this study, the bioreactors responded very quickly with improved sulfate reduction after the addition of SMW.…”

Section: Quick Lime (Cao) Was Used (Period C Inmentioning

confidence: 89%

“…At low alkalinity and pH of 5 or less, members of the genera such as Bacteroides, Dysgonomonas, Sporobacter and Clostridium dominate and generate fermentation products such as acetate, propionate, butyrate, succinate and lactate along with H 2 and CO 2 [20][21][22]. In the present study, increasing sulfate reduction in the bioreactors (Fig.…”

Section: Quick Lime (Cao) Was Used (Period C Inmentioning

confidence: 94%

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Reactivation of carbon exhausted sulfidogenic bioreactor by fractionated sweetmeat waste dosing: The role of neutralizing substance and nitrogen supplement

Das

Kaksonen

Bhattacharya

2014

Environmental Technology & Innovation

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Section: Quick Lime (Cao) Was Used (Period C Inmentioning

confidence: 89%

Section: Quick Lime (Cao) Was Used (Period C Inmentioning

confidence: 94%

Reactivation of carbon exhausted sulfidogenic bioreactor by fractionated sweetmeat waste dosing: The role of neutralizing substance and nitrogen supplement

Das

Kaksonen

Bhattacharya

2014

Environmental Technology & Innovation

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“…Based on this scenario, the acetate degradation rate is affected by sulfate reduction, provoking its inhibition at low COD/SO 4 2-ratio (Omil et al 1998;Barber and Stuckey, 2000). At high COD/SO 4 2-ratio, acetogenesis is not inhibited by sulfate reduction, while the overall reactor performance is improved by molecular hydrogen removal (JWH et al, 1994;Kalyuzhnyi et al, 1998;Dar et al, 2009;Zhao et al, 2010). If SO 4 2-is present, SRB consumes molecular hydrogen at higher rates compared with methanogenic archeas because of its superior scavenging capability (Kristjansson et al, 1982).…”

Section: Discussionmentioning

confidence: 99%

“…High anaerobic reaction rates can be achieved if hydrogen is depleted by oxidation with a suitable electron acceptor. Sulfate can accomplish this role in a cost-effective way with a low environmental impact (JWH et al, 1994, Kalyuzhnyi et al, 1998Dar et al, 2009;Zhao et al, 2010).…”

Section: Introductionmentioning

confidence: 99%

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Effect of Sulfate Loading Rate and Organic Loading Rate on Anaerobic Baffled Reactors Used for Treatment of Sanitary Landfill Leachates

Burbano-Figueroa

Jaramillo

Moreno-Moran

et al. 2015

Braz. J. Chem. Eng.

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-This study investigated the effect of organic loading rate (OLR) and sulfate loading rate (SLR) on landfill leachate treatment by a lab-scale anaerobic baffled reactor (ABR). Landfill leachate contained a concentration of organic matter between 3966 and 5090 mg COD.L -1 and no detectable amounts of sulfate. Reactors were started-up by feeding them with iron-sulfate at a SLR of 0.05 g SO 4 2-.L -1.day -1 (4 weeks). Factorial design and response surface techniques were used to evaluate and optimize the effects of these operating variables on COD removal. ABRs were operated at OLRs ranging from 0.30 up to 6.84 g COD.L with a COD/SO 4 -2 ratio of 40. Under these conditions sulfate is mainly used for molecular hydrogen consumption while organic matter is preferentially degraded via methanogesis.

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Long-term effects of increasing acidity on low-pH sulfate-reducing bioprocess and bacterial community

Zhao

Fang

Zhang

et al. 2016

Environ Sci Pollut Res

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An ethanol-fed, sulfate-reducing anaerobic baffled reactor was operated over a period of 260 days to assess the effects of sequentially more acidic conditions (pH 4.5-2.5) on sulfate reduction and bacterial community. Results showed that the reactor could reduce sulfate and generate alkalinity at progressively lower pH values of 4.5, 3.5, and 2.5 in a synthetic wastewater containing 2500 mg/L sulfate. About 93.9% of the influent sulfate was removed at a rate of 4691 mg/L/day, and the effluent pH was increased to 6.8 even when challenged with influent pH as low as 2.5. Illumina MiSeq sequencing revealed that a step decrease in influent pH from 4.5 to 2.5 resulted in noticeable decrease in the biodiversity inside the sulfidogenic reactor. Additionally, complete and incomplete organic oxidizers Desulfobacter and Desulfovibrio were observed to be the most dominant sulfate reducers at pH 2.5, sustaining the low-pH, high-rate sulfate removal and alkalinity generation.

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Performance of a sulfidogenic bioreactor and bacterial community shifts under different alkalinity levels

Cited by 20 publications

References 35 publications

Reactivation of carbon exhausted sulfidogenic bioreactor by fractionated sweetmeat waste dosing: The role of neutralizing substance and nitrogen supplement

Reactivation of carbon exhausted sulfidogenic bioreactor by fractionated sweetmeat waste dosing: The role of neutralizing substance and nitrogen supplement

Effect of Sulfate Loading Rate and Organic Loading Rate on Anaerobic Baffled Reactors Used for Treatment of Sanitary Landfill Leachates

Long-term effects of increasing acidity on low-pH sulfate-reducing bioprocess and bacterial community

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