The effect of upper mesophilic temperature and feed-to-seed ratio on batch anaerobic digestion systems

Rahman, Mohammad Arifur; Elefsiniotis, P.

doi:10.1080/10934529.2010.486346

Cited by 9 publications

(6 citation statements)

References 45 publications

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“…The specific stability indicators of AD process are pH and alkalinity, and process performance parameters are volatile solids reduction, VFA production, and methane generation. To enhance methane generation, many researchers have studied various operational parameters such as pH (Liu et al 2008), temperature (Rahman and Elefsiniotis 2010), OLR (Najafpour et al 2006), hydraulic retention time (HRT) (Fongsatitkul et al 2010), and inhibitory compounds (Chen et al 2008). In addition to these parameters, it has been shown that phase separation (White et al 1989) can also improve the overall efficiency of the process for various substrates and especially substrate with high organic loading value (Bouallagui et al 2004).…”

Section: Introductionmentioning

confidence: 99%

Studies on biogas production from vegetable market wastes in a two-phase anaerobic reactor

Sridevi¹,

Rema

Srinivasan

2014

Clean Techn Environ Policy

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The organic fraction of the municipal solid waste is not being properly utilized and is disposed in open dumps which leads to environmental pollution. The vegetable market wastes degrade rapidly than other municipal solid waste. In our earlier report, we concluded that singlestage anaerobic digestion systems could not be operated with higher loading rates for the digestion of vegetable market wastes (VMW). Hence, in this investigation, we proposed anaerobic digestion of VMW in a two-phase semi-continuous anaerobic reactor. In this study, the effect of organic loading rates (OLR) and hydraulic retention time (HRT) in methanogenic reactors was investigated. It was found that the specific biogas production increased with an OLR from 1.5 to 4.5 gVS/L/d and decreased with further increase in OLR. Maximum specific biogas production and methane yield of 0.721 ± 0.010 L/gVS add and 0.469 L CH4 /gVS add were obtained at OLR of 4.5 gVS/L/d and a 25-day HRT in methanogenic reactor. Kinetic parameters of maximum yield and specific growth rate were evaluated by Chen-Hashimoto model. Keywords Two-phase anaerobic digestion Á Vegetable market waste Á Biogas Á Acidification yield Á ChenHashimoto kinetics List of symbols FVW Fruit vegetable wastes MSW Municipal solid wastes VMW Vegetable market wastes LFG Landfill gas HRT Hydraulic retention time (day) OLR Organic loading rate (gVSL -1 d -1 ) TS Total solids (%) VS Volatile Solids (%) VFA Volatile fatty acids (gL -1 ) S Effluent substrate concentration (mg/L) S o Influent substrate concentration (mg/L) h Hydraulic retention time (days) k Dimensionless kinetic constant l max Maximum specific growth rate per day Y Actual biogas yield at STP (L/gVS add ) Y ?Theoretical maximum methane yield at STP

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Section: Introductionmentioning

confidence: 99%

Studies on biogas production from vegetable market wastes in a two-phase anaerobic reactor

Sridevi¹,

Rema

Srinivasan

2014

Clean Techn Environ Policy

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“…16 Although extensive studies have been conducted to address the said issues, very few studies have considered for the thermophilic phase of the TPAD system in the intermediate zone between the mesophilic and thermophilic range i.e. 45 ∘ C; this was based on the assumptions that limited microbial activity occurred within the upper mesophilic or lower thermophilic range of 40-50 ∘ C. 17,18 However, several recent studies have reported that anaerobic digestion at 45 ∘ C can produce a remarkably identical (or even higher) liquid phase mass transfer rate and greater volumes of biogas, along with good quality effluent in terms of chemical oxygen demand (COD) reduction (80-90%) compared to mesophilic anaerobic digestion. [19][20][21][22] Despite the environmental and economic importance of the process, knowledge about the microbial consortia in general, and the bacterial community involved in anaerobic digestion in particular, is limited.…”

Section: Introductionmentioning

confidence: 99%

Microbial population dynamics in temperature‐phased anaerobic digestion of municipal wastewater sludge

Hameed

Riffat

et al. 2019

J of Chemical Tech & Biotech

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BACKGROUND The present study compared the performance and capability of thermophilic–mesophilic, temperature‐phased anaerobic digestion (TPAD) of wastewater sludge at 45 and 55 °C in terms of rate of hydrolysis and methanogenesis at two point interval times – December and January – with operational conditions kept constant (total solid content 6.5%, solids retention time 12.5 days). RESULTS The reduction of volatile solids (VS) was 77% at 45 °C TPAD‐1 and 72% at 55 °C TPAD‐II. The accumulation of ammonia and volatile fatty acids (VFAs; propionic acid) were observed to be below the inhibitory range (>3000 mg L−1), whereas the methane (CH4) production (45 °C, 3.55 ± 0.47 L CH4 L−1 day−1; 35 °C, 1.44 ± 0.12 L CH4 L−1 day−1) remained considerably higher in TPAD‐I than TPAD‐II. Furthermore, the TPAD‐II system suffered from certain degree of instability due to high level of total VFAs (6087 ± 1578 mg L−1), low buffering capacity, increased level of total NH3 (2982 ± 219 mg L−1) and free NH3 (246 ± 25 mg L−1), and relatively reduced CH4 production (1.69 ± 0.1 L L−1 day). The bacterial and archaeal population of the TPADs investigated by 454 pyrosequencing and Illumina sequencing showed, in both TPAD systems, a bacterial community dominated by Firmicutes, followed by Bacteriodetes, Proteobacteria, Synergistetes and Actiniobacteria. The archaeal community was dominated by Methanimicrobia (74–84% Methanosarcina) and Methanobacteria (15–27% Methanobacterium). A progression from genus Clostridium to Coprothermobacter and Tepidanaerobacter, and Methanocarcina to Methanothermobacter and Methanobacterium was observed in TPAD‐II. CONCLUSIONS This study proved the processes driving the dynamics of key microbial population and its correlation with hydrolytic functionality of TPAD systems. © 2019 Society of Chemical Industry

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“…Ref. [12] exhibited a significant increase in VS removal with the rise in temperature and approaches a plateau at 45˚C. The degree of acidification (VFA/tCOD) was highest at 45˚C and was chosen as optimum temperature for acidogenic phase [13].…”

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confidence: 99%

Investigation of the Performance and Kinetics of Anaerobic Digestion at 45&#176;C

Mohd¹,

Husnain²,

Li³

et al. 2015

JWARP

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The objective of this study was to evaluate the performance of anaerobic digestion (AD) within the intermediate zone, specifically at 45˚C. Single-stage batch anaerobic digestion system was developed in the lab and performance was monitored for more than 2 years. The AD system was able to achieve high biogas production with about 62%-67% methane content. The digester exhibited high acetate accumulation, but sufficient buffering capacity was observed as the pH, alkalinity and volatile fatty acids-to-alkalinity ratio were within recommended values. The system achieved 36.5% reduction of total solids (TS) and 47.8% reduction of volatile solids (VS), which exceeded the required VS destruction efficiency for Class A biosolids. The pathogen counts were less than 1000 MPN/g total solids in the effluent, which also satisfied Class A biosolids requirements. The accumulation of acetate was presumably due to the high temperature which contributed to high hydrolysis rate. Consequently, it produced large amount of toxic salts that combined with the acetate, making them not readily available to be consumed by methanogens. The slower degradation of acetate was observed by the kinetic parameters. Accumulation of acetate contributed to 52% to 71% reduction in acetate degradation process, but was not completely inhibitory. The methanogens existing in the system were mostly thermo-tolerant acetate-utilizing methanogens, and specifically from Methanosarcinaceae species.

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The effect of upper mesophilic temperature and feed-to-seed ratio on batch anaerobic digestion systems

Cited by 9 publications

References 45 publications

Studies on biogas production from vegetable market wastes in a two-phase anaerobic reactor

Studies on biogas production from vegetable market wastes in a two-phase anaerobic reactor

Microbial population dynamics in temperature‐phased anaerobic digestion of municipal wastewater sludge

Investigation of the Performance and Kinetics of Anaerobic Digestion at 45&#176;C

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The effect of upper mesophilic temperature and feed-to-seed ratio on batch anaerobic digestion systems

Cited by 9 publications

References 45 publications

Studies on biogas production from vegetable market wastes in a two-phase anaerobic reactor

Studies on biogas production from vegetable market wastes in a two-phase anaerobic reactor

Microbial population dynamics in temperature‐phased anaerobic digestion of municipal wastewater sludge

Investigation of the Performance and Kinetics of Anaerobic Digestion at 45&amp;#176;C

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Investigation of the Performance and Kinetics of Anaerobic Digestion at 45°C