Modeling the Disintegration Process in Anaerobic Digestion of Tannery Sludge and Fleshing

Polizzi, Cecilia; Alatriste‐Mondragón, Felipe; Munz, Giulio

doi:10.3389/fenvs.2017.00037

Cited by 15 publications

(5 citation statements)

References 27 publications

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“…While a very high ISR will primarily challenge the experimental setup due to the relatively low gas production of the substrate (Caillet et al, 2019), a low ISR could cause an overload of the microbial community, as has already been shown in several studies. previous (Polizzi et al, 2017;Holliger et al, 2016). From the literature consulted, it can be concluded that methane production rates are specific to the substrate and the inoculum, so it is not always possible to make general statements about the performance of digestion.…”

Section: Effect Of Isr On Biomethane Potential and Biodigester Stabilitymentioning

confidence: 80%

Evaluation of methane production from the anaerobic co-digestion of manure of guinea pig with lignocellulosic Andean residues

Quelal

Velázquez‐Martí

Chavez

et al. 2021

Environ Sci Pollut Res

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The objective of this research was to evaluate the anaerobic co-digestion of guinea pig manure (CY) with Andean agricultural residues such as amaranth (AM), quinoa (QU) and wheat (TR) in batch biodigesters under mesophilic conditions (37⁰C) for 40 days. As microbial inoculum, sewage treatment sludge was used in two inoculum/substrate ratios (ISR of 1 and 2). In terms of methane production, the best results occurred in the treatments that contained AM and QU as cosubstrate and an ISR of 2. Thus, the highest methane production occurred in the CY:AM biodigesters (25:75) and CY:QU (25:75) with 341.86 mlCH 4 /g VS and 341.05 mlCH 4 /g VS, respectively. On the other hand, the results showed that methane production with an ISR of 2 was more feasible for guinea pig waste, where the methane fraction of the biogas generated was in a range of 57 and 69%. The kinetics of methane production from these raw materials was studied using five kinetic models: modified Gompertz, logistic equation, transfer, cone, and Richards.The cone model was the one that best adjusted the experimental values with those observed with an r 2 of 0.999 and an RMSE of 1.16 mlCH 4 /g VS. Finally, the highest biodegradability was obtained in the CY-AM biodigesters (25:75) with 67.92%.

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Section: Effect Of Isr On Biomethane Potential and Biodigester Stabilitymentioning

confidence: 80%

Evaluation of methane production from the anaerobic co-digestion of manure of guinea pig with lignocellulosic Andean residues

Quelal

Velázquez‐Martí

Chavez

et al. 2021

Environ Sci Pollut Res

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show abstract

“…The most common flaw in BMP test is overloading which can be caused by either low inoculum intrinsic activity or by a low ISR. While a very high ISR will mainly challenge the experimental setup due to the relatively little gas production from the substrate, a low ISR might cause overloading of the microbial community, as has been demonstrated in various previous studies already (Hashimoto, 1989;Raposo et al, 2006;Kafle et al, 2014;Polizzi et al, 2017). Still, the impact of ISR on the shape of SMP curve has not been reported so far.…”

Section: Impact Of Inoculum-to-substrate Ratio (Isr) On Smp Curvesmentioning

confidence: 94%

Identification of Critical Problems in Biochemical Methane Potential (BMP) Tests From Methane Production Curves

Koch

Hafner

Weinrich

et al. 2019

Front. Environ. Sci.

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Biochemical methane potential (BMP) tests are routinely conducted in academia and industry to determine the methane potential of a given substrate. Although many guidelines have been proposed to standardize BMP tests, results published in the peer-reviewed literature show that critical flaws in experimental design or execution are still common. Therefore, a powerful but simple method for evaluating the quality of BMP measurements is proposed in this work: the specific methane production (SMP) curve from any BMP trial should have a similar shape for most substrates, and significant deviation from this typical response is usually associated with a lack of reliability in resulting BMP estimates. In this study, some common experimental mistakes were reproduced to demonstrate this concept and establish relationships between flaws in experiments, SMP curves, and BMP values. The studied flaws were inoculum storage (2 weeks and at different temperatures), inoculum dilution with water (no dilution to 1:2 dilution), and inoculum-to-substrate ratio (from 2.00 to 0.05). Common kinetic models were used to better assess SMP curves. All flaws exhibited an impact on the SMP curves, but excessive dilution and extremely low inoculum-to-substrate ratio had the largest impacts on both SMP curves and BMP. In the most extreme case (ISR of 0.05), there was a clear lag phase of more than 10 days, and the resulting BMP was 15% lower than for the reference case. Together these results demonstrate the utility of the proposed method. The ultimate goal of this research is to help less experienced researchers identify and address problems in their experimental procedure, ultimately contributing to more accurate BMP measurements. The general approach is both simple and useful, and should always be part of a quality check for BMP tests.

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“…The non-degradable fractions are soluble and non-soluble inert particulates, whereas the degradable fractions consist of biopolymers, in ADM1 (Anaerobic Digestion Model No. 1) limited to polysaccharides, proteins, and lipids [49][50][51]. Disintegration is mostly described by first-order kinetics, sometimes assumed to be part of the hydrolysis step.…”

Section: Disintegration Of Solid Particulatesmentioning

confidence: 99%

Granular Sludge Bed Processes in Anaerobic Digestion of Particle-Rich Substrates

et al. 2019

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Granular sludge bed (GSB) anaerobic digestion (AD) is a well-established method for efficient wastewater treatment, limited, however, by the wastewater particle content. This review is carried out to investigate how and to what extent feed particles influence GSB to evaluate the applicability of GSB to various types of slurries that are abundantly available. Sludge bed microorganisms evidently have mechanisms to retain feed particles for digestion. Disintegration and hydrolysis of such particulates are often the rate-limiting steps in AD. GSB running on particle-rich substrates and factors that affect these processes are stdied especially. Disintegration and hydrolysis models are therefore reviewed. How particles may influence other key processes within GSB is also discussed. Based on this, limitations and strategies for effective digestion of particle-rich substrates in high-rate AD reactors are evaluated. some of the main challenges associated with high-rate anaerobic digestion of particle-rich substrates with special emphasis on manure as a substrate, due to its abundance. Most high-rate AD processes in operation depend on granular sludge to retain sufficient active biomass. Granules are formed by the aggregation of microorganisms that develop into dense masses with sedimentation velocity high enough to avoid washout even under high hydraulic load [7]. It is observed that UASB reactors treating particle-rich manure slurries also accumulates suspended solids from the feed, forming an additional suspended fraction together with the granules [8,9]. The influence of such solids on AD is not understood well, leading some experts to claim that granular sludge bed (GSB) processes may not be appropriate for particle-rich substrates. [10]. It appears, however, that a significant fraction of feed particles can be digested and enhance methane production [11]. This review was undertaken to investigate to what extent and how sludge bed high-rate AD can be used to treat particle-rich substrates. We aim to find more evidence for particle digestion in granular sludge beds, identify process limitations, and find appropriate kinetic models in order to establish design criteria for such processes. There is little directly relevant literature on the topic, limiting this review to mainly indirectly relevant literature. The review covers particle-rich substrates characteristics; particle disintegration and hydrolysis, including models for such; physical characteristics of granular sludge; sludge bed reactor designs and observations of particle effects.

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Modeling the Disintegration Process in Anaerobic Digestion of Tannery Sludge and Fleshing

Cited by 15 publications

References 27 publications

Evaluation of methane production from the anaerobic co-digestion of manure of guinea pig with lignocellulosic Andean residues

Evaluation of methane production from the anaerobic co-digestion of manure of guinea pig with lignocellulosic Andean residues

Identification of Critical Problems in Biochemical Methane Potential (BMP) Tests From Methane Production Curves

Granular Sludge Bed Processes in Anaerobic Digestion of Particle-Rich Substrates

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