The Impact of Extrusion on the Biogas and Biomethane Yield of Plant Substrates

Pilarski, Krzysztof; Pilarska, Agnieszka A.; Witaszek, Kamil; Dworecki, Z.; Żelaziński, Tomasz; Ekielski, Adam; Makowska, Agnieszka; Michniewicz, J.

doi:10.12911/22998993/64563

Cited by 28 publications

(21 citation statements)

References 12 publications

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“…The biogas yield of maize silage was 183 ± 5 m³ Mg -1 FM (FMfresh matter). The obtained biogas volumes are comparable to the literature data [16]. The biogas yield obtained from the pig slurry was 20.1 ± 3 m³ Mg -1 FM.…”

Section: Biogas Production In Terms Of Fresh Matter (Average Values)supporting

confidence: 86%

Production efficiency of Poland farm-scale biogas plants: A case study

Pilarski

Pilarska

2020

E3S Web Conf.

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This paper provides the analysis of results of biogas and methane yield for: maize silage (MS), pig slurry (PS), waste potatoes (WP) and sugar beet pulp (SB). The results show that maize silage is the most energy substrate (among the samples tested), providing a cumulative methane yield from 595 to 631 m -3 Mg VS (VSvolatile solids). The study was carried out in a laboratory scale using anaerobic batch reactors, at controlled (mesophilic) temperature and pH conditions. This paper is Part I of a report of an experiment carried out, in the laboratory scale and in the commercial scale (in parallel) The purpose of the experiment was to verify differences in biomethane yields of the same materials in the two scales. Moreover, this paper is an introduction to a presentation of the method to determine the biochemical methane potential correction coefficient (BMPCC), the details of which will be explained in Part II.

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Section: Biogas Production In Terms Of Fresh Matter (Average Values)supporting

confidence: 86%

Production efficiency of Poland farm-scale biogas plants: A case study

Pilarski

Pilarska

2020

E3S Web Conf.

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“…They were filled with the batch up to 1 L, which was mixed once a day. The bioreactors were located in a water jacket (4) connected to a heater (1), thanks to which the process could be conducted within the set temperature range (mesophilic conditions) [14,34]. The biogas produced in the process flowed (7) to the tanks (8) freely, where it was stored.…”

Section: Anaerobic Digester Setupmentioning

confidence: 99%

The Use of Lignin as a Microbial Carrier in the Co-Digestion of Cheese and Wafer Waste

et al. 2019

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The aim of the article was to present the effects of lignin grafted with polyvinylpyrrolidone (PVP) as a microbial carrier in anaerobic co-digestion (AcoD) of cheese (CE) and wafer waste (WF). Individual samples of waste cheese and wafers were also tested. The PVP modifier was used to improve the adhesive properties of the carrier surface. Lignin is a natural biopolymer which exhibits all the properties of a good carrier, including nontoxicity, biocompatibility, porosity, and thermal stability. Moreover, the analysis of the zeta potential of lignin and lignin combined with PVP showed their high electrokinetic stability within a wide pH range, that is, 4-11. The AcoD process was conducted under mesophilic conditions in a laboratory by means of anaerobic batch reactors. Monitoring with two standard parameters: pH and the VFA/TA ratio (volatile fatty acids-to-total alkalinity ratio) proved that the process was stable in all the samples tested. The high share of N-NH 4 + in TKN (total Kjeldahl nitrogen), which exceeded 90% for WF+CE and CE at the last phases of the process, proved the effective conversion of nitrogen forms. The microbiological analyses showed that eubacteria proliferated intensively and the dehydrogenase activity increased in the samples containing the carrier, especially in the system with two co-substrates (WF+CE/lignin) and in the waste cheese sample (CE/lignin). The biogas production increased from 1102.00 m 3 Mg −1 VS (volatile solids) to 1257.38 m 3 Mg −1 VS in the WF+CE/lignin sample, and from 881.26 m 3 Mg −1 VS to 989.65 m 3 Mg −1 VS in the CE/lignin sample. The research results showed that the cell immobilization on lignin had very positive effect on the anaerobic digestion process.

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“…Their hydrolysis is based on decomposition into glycerol and palmitic acid (18) and linoleic acid (19). The two acids are decomposed in the acidogenic phase into simpler chemical compounds, denoted as A P to G P for palmitic, and A L to H L for linoleic acid (20)(21)(22)(23)(24)(25)(26)(27)(28)(29)(30)(31)(32). The products of decomposition of the two acids comprise, essentially, the following: ethyl alcohol; 2-oxopropanoic acid; 1,4-butanedioic acid; 2-hydroxypropanoic acid; propan-2-one; methyl alcohol and methanoic acid.…”

Section: Hydrolysismentioning

confidence: 99%

Treatment of dairy waste by anaerobic co-digestion with sewage sludge

Pilarska

Pilarski

Witaszek

et al. 2016

Ecological Chemistry and Engineering S

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Abstract:The results of anaerobic digestion (AD) of buttermilk (BM) and cheese whey (CW) with a digested sewage sludge as inoculum is described. The substrate/inoculum mixtures were prepared using 10% buttermilk and 15% cheese whey. The essential parameters of the materials were described, including: total solids (TS), volatile solids (VS), pH, conductivity, C/N ratio (the quantitative ratio of organic carbon (C) to nitrogen (N)), alkalinity, chemical oxygen demand (COD). The potential directions of biodegradation of the organic waste types, as used in this study, are also presented. Appropriate chemical reactions illustrate the substrates and products in each phase of anaerobic decomposition of the compounds that are present in buttermilk and cheese whey: lactic acid, lactose, fat, and casein. Moreover, the biogas and biomethane production rates are compared for the substrates used in the experiment. The results have shown that buttermilk in AD generates more biogas

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The Impact of Extrusion on the Biogas and Biomethane Yield of Plant Substrates

Cited by 28 publications

References 12 publications

Production efficiency of Poland farm-scale biogas plants: A case study

Production efficiency of Poland farm-scale biogas plants: A case study

The Use of Lignin as a Microbial Carrier in the Co-Digestion of Cheese and Wafer Waste

Treatment of dairy waste by anaerobic co-digestion with sewage sludge

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