A comparative analysis of biogas production from tomato bio-waste in mesophilic batch and continuous anaerobic digestion systems

Szilágyi, Árpád; Bodor, Attila; Tolvai, Norbert; Kovács, Kornél L.; Bodai, László; Wirth, Roland; Bagi, Zoltán; Szepesi, Ágnes; Markó, Viktória; Kakuk, Balázs; Bounedjoum, Naila; Rákhely, Gábor

doi:10.1371/journal.pone.0248654

Cited by 23 publications

(14 citation statements)

References 59 publications

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“…The experimental methane yield obtained in reactor 8 is almost indistinguishable from the reported values during AcoD of food wastes and heterogenous straws (maize, sorgos, and wheat). The study reported a maximum methane yield of 392 mL/g VS at food wastes to the straw mixing ratio of 5:1 at 35 • C (Yong et al, 2015) and higher than the values of 289 mL/g VS was reported during AcoD of tomato plant waste and corn stover at a ratio of 7:3 on VS and C/N ratio basis (Szilágyi et al, 2021). The studies cited that properly utilizing the released VFAs during the co-digestion resulted in increased methane yield under mesophilic conditions.…”

Section: Biogas Biomethane Production and Kineticsmentioning

confidence: 57%

Anaerobic co-digestion of dry fallen leaves, fruit/vegetable wastes and cow dung without an active inoculum – A biomethane potential study

D’Silva

Isha

Verma

et al. 2022

Bioresource Technology Reports

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Section: Biogas Biomethane Production and Kineticsmentioning

confidence: 57%

Anaerobic co-digestion of dry fallen leaves, fruit/vegetable wastes and cow dung without an active inoculum – A biomethane potential study

D’Silva

Isha

Verma

et al. 2022

Bioresource Technology Reports

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“…after removal of particles larger than 2 mm) was used for BMP measurement. A detailed description of the gas sampling and measurement procedures can be found in Szilágyi et al 2021 [35].…”

Section: Determination Of Ad Chemical Parametersmentioning

confidence: 99%

Inter-kingdom microbial interactions revealed by a comparative machine-learning guided multi-omics analysis of industrial-scale biogas plants

Wirth

Bagi

Shetty

et al. 2023

Preprint

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Multi-omics analysis is a powerful tool for the detection and study of inter-kingdom interactions, such as those between bacterial and archaeal members of complex biogas-producing microbial communities. In the present study, the microbiomes of three industrial-scale biogas digesters, each fed with different substrates, were analysed using a machine-learning guided genome-centric metagenomics framework complemented with metatranscriptome data. This data permitted us to elucidate the relationship between abundant core methanogenic communities and their syntrophic bacterial partners. In total, we detected 297 high-quality, non-redundant metagenome-assembled genomes (nrMAGs). Moreover, the assembled 16S rRNA gene profiles of these nrMAGs showed that the phylum Firmicutes possessed the highest copy number, while the representatives of the Archaeal domain had the lowest. Further investigation of the three anaerobic microbial communities showed characteristic alterations over time but remained specific to each industrial-scale biogas plant. The relative abundance of various microbes as revealed by metagenome data were independent from corresponding metatranscriptome activity data. Interestingly, Archaea showed considerably higher activity than was expected from their abundance. We detected 53 nrMAGs that were present in all three biogas plant microbiomes with different abundances. The core microbiome correlated with the main chemical fermentation parameters and no individual parameter emerged as a predominant shaper of community composition. Various interspecies H2/electron transfer mechanisms were assigned to hydrogenotrophic methanogens in the biogas plants that ran on agricultural biomass and wastewater. Analysis of metatranscriptome data revealed that methanogenesis pathways were the most active of all main metabolic pathways. These findings highlight the importance of a combinatorial omics data framework to identify and characterise the activity of specific microbes in complex environments.

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“…Essential needs for the development of strategies for the management of solid waste include information on the types of wastes, as well as their composition, physical and chemical features, and the amounts of trash that are produced [19,20]. In order to effectively manage solid waste, it is required to investigate the characteristics of the waste material, in addition to determining where the trash came from.…”

Section: Data Collection and Analysismentioning

confidence: 99%

Urban Organic Waste as a Source of Bioenergy for Electricity Generation in Bhopal, Madhya Pradesh

Gupta

Patel²,

Gupta

et al. 2022

IOP Conf. Ser.: Earth Environ. Sci.

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Municipal Solid Waste Management (MSWM) is essential as it impacts health, the environment, and aesthetic society if it is not managed correctly. Hence improving the quality and standard of living. There is an urgent requirement to neutralize the waste and the best possible solution for organic waste. It can be used to generate biofuels and utilized to generate electricity. The production of energy from waste depends on organic waste, so the energy potential of Bhopal city has been categorized into different sectors such as Urban Organic Solid Waste (UOSW), Pulp & Paper, Cattle, and Poultry, in which UOSW is 42% and, the Urban Organic Liquid Waste (UOLW) 25%, Cattle 23%, Poultry 2% and Pulp & Paper 8%. The UOSW has been analysed, and it has been categorized in Slaug (1%), Organic Solid waste (33%), Poultry (3%), and Cattle (63%), and the UOLW in Slaug (1%), UOLW (98.9%), and paper and pulp (0.10%). Total waste generated in Bhopal per day is 1123 TPD of which, 54.3% is organic waste that we can use to generate biofuel, i.e., 609 TPD, which can generate 165MW energy per day.

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A comparative analysis of biogas production from tomato bio-waste in mesophilic batch and continuous anaerobic digestion systems

Cited by 23 publications

References 59 publications

Anaerobic co-digestion of dry fallen leaves, fruit/vegetable wastes and cow dung without an active inoculum – A biomethane potential study

Anaerobic co-digestion of dry fallen leaves, fruit/vegetable wastes and cow dung without an active inoculum – A biomethane potential study

Inter-kingdom microbial interactions revealed by a comparative machine-learning guided multi-omics analysis of industrial-scale biogas plants

Urban Organic Waste as a Source of Bioenergy for Electricity Generation in Bhopal, Madhya Pradesh

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