A study on biogas production from cassava peel and stem in anaerobic digestion reactor

In this paper, cow manure fluid was used as inoculums to investigate biogas production rate from anaerobic digestion of cassava peel at mesophilic temperature (280C). The anaerobic experiment was conducted using six batch digesters (D1, D2, D3, D4, D5 and D6) each of 20L capacity for 40-day hydraulic retention. Each digester, was loaded with 5kg of cassava peel (CP) and 0%, 10%, 20%, 30%, 40% and 50% of inoculum to CP. Hashimoto model was used to obtain the digestion kinetic parameters. The results of the study showed that inoculums influenced the rate of biogas production, showing variations in biogas production, correlation coefficient (R2) and in first-order decay constant (k). The average cumulative biogas production was in the range of ~2358 to 4010ml/kgVS for 10% to 50% inoculum. The R2 and k for D1 was 0.959 and 0.359 D1 (without inoculum), 0.990 and 0.371 for D2 (10% inoculum) and 0.991 and 0.371 for D3 (20% inoculum), 0.951 and 0.356 for D4 (30% inoculum), 0.992 and 0.372 for D5 (40% inoculum), and 0.990 and 0.371 was obtained for D6 loaded with 50% inoculum. Despite variation in biogas yields from different inoculums, biogas production obtained from anaerobic digesters loaded with inoculums were still lower compared with that without inoculum.

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Biogas Production from Community Waste to Optimise the Substrate for Anaerobic Digestion

International Review of Mechanical Engineering (IREME) ◽

10.15866/ireme.v12i7.15014 ◽

2018 ◽

Vol 12 (7) ◽

pp. 580

Author(s):

Antony P. Pallan ◽

S. Antony Raja ◽

C. G. Varma ◽

Deepak Mathew D.K. ◽

Anil K. S. ◽

...

Keyword(s):

Anaerobic Digestion ◽

Biogas Production

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Anaerobic Digestion of Banana Wastes for Biogas Production

10.37421/jcde.2020.10.347 ◽

2020 ◽

Vol 10 (3) ◽

Author(s):

Damaris Kerubo Oyaro ◽

Zablon Isaboke Oonge ◽

Patts Meshack Odira

Keyword(s):

Anaerobic Digestion ◽

Biogas Production ◽

Banana Wastes

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Simulation of the Impact of Higher Ammonia Recycle Loads Caused by Upgrading Anaerobic Sludge Digesters

Water Quality Research Journal ◽

10.2166/wqrj.2005.053 ◽

2005 ◽

Vol 40 (4) ◽

pp. 491-499 ◽

Cited By ~ 2

Author(s):

Jeremy T. Kraemer ◽

David M. Bagley

Keyword(s):

Anaerobic Digestion ◽

Biogas Production ◽

Treatment Plant ◽

Anaerobic Sludge ◽

Content Increase ◽

Limited Information ◽

Dynamic Simulations ◽

Treatment Train ◽

Temperature Liquid ◽

The Impact

Abstract Upgrading conventional single-stage mesophilic anaerobic digestion to an advanced digestion technology can increase sludge stability, reduce pathogen content, increase biogas production, and also increase ammonia concentrations recycled back to the liquid treatment train. Limited information is available to assess whether the higher ammonia recycle loads from an anaerobic sludge digestion upgrade would lead to higher discharge effluent ammonia concentrations. Biowin, a commercially available wastewater treatment plant simulation package, was used to predict the effects of anaerobic digestion upgrades on the liquid train performance, especially effluent ammonia concentrations. A factorial analysis indicated that the influent total Kjeldahl nitrogen (TKN) and influent alkalinity each had a 50-fold larger influence on the effluent NH3 concentration than either the ambient temperature, liquid train SRT or anaerobic digestion efficiency. Dynamic simulations indicated that the diurnal variation in effluent NH3 concentration was 9 times higher than the increase due to higher digester VSR. Higher recycle NH3 loads caused by upgrades to advanced digestion techniques can likely be adequately managed by scheduling dewatering to coincide with periods of low influent TKN load and ensuring sufficient alkalinity for nitrification.

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Effect of substrate pretreatment on biogas production through anaerobic digestion of food waste

International Journal of Hydrogen Energy ◽

10.1016/j.ijhydene.2017.06.178 ◽

2017 ◽

Vol 42 (42) ◽

pp. 26522-26528 ◽

Cited By ~ 57

Author(s):

B. Deepanraj ◽

V. Sivasubramanian ◽

S. Jayaraj

Keyword(s):

Anaerobic Digestion ◽

Food Waste ◽

Biogas Production ◽

Substrate Pretreatment

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Biogas Production Using Anaerobic Digestion of Industrial Waste

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.832.55 ◽

2016 ◽

Vol 832 ◽

pp. 55-62

Author(s):

Ján Gaduš ◽

Tomáš Giertl ◽

Viera Kažimírová

Keyword(s):

Anaerobic Digestion ◽

Industrial Waste ◽

Large Scale ◽

Biogas Production ◽

Biogas Plant ◽

Parallel Operation ◽

Paper Production ◽

Biochemical Conversion ◽

Mixed Biomass ◽

Economic Balance

In the paper experiments and theory of biogas production using industrial waste from paper production as a co-substrate are described. The main aim of the experiments was to evaluate the sensitivity and applicability of the biochemical conversion using the anaerobic digestion of the mixed biomass in the pilot fermentor (5 m3), where the mesophillic temperature was maintained. It was in parallel operation with a large scale fermentor (100 m3). The research was carried out at the biogas plant in Kolíňany, which is a demonstration facility of the Slovak University of Agriculture in Nitra. The experiments proved that the waste arising from the paper production can be used in case of its appropriate dosing as an input substrate for biogas production, and thus it can improve the economic balance of the biogas plant.

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Binary and ternary trace elements to enhance anaerobic digestion of cattle manure: Focusing on kinetic models for biogas production and digestate utilization

Bioresource Technology ◽

10.1016/j.biortech.2020.124571 ◽

2021 ◽

Vol 323 ◽

pp. 124571

Author(s):

Kaijun Wang ◽

Sining Yun ◽

Tian Xing ◽

Bingjie Li ◽

Yasir Abbas ◽

...

Keyword(s):

Trace Elements ◽

Anaerobic Digestion ◽

Kinetic Models ◽

Biogas Production ◽

Cattle Manure

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Effects of hydrothermal pretreatment and bamboo hydrochar addition on anaerobic digestion of tofu residue for biogas production

Bioresource Technology ◽

10.1016/j.biortech.2021.125279 ◽

2021 ◽

pp. 125279

Author(s):

Ungyong Choe ◽

Ahmed M. Mustafa ◽

Ximing Zhang ◽

Kuichuan Sheng ◽

Xuefei Zhou ◽

...

Keyword(s):

Anaerobic Digestion ◽

Biogas Production ◽

Hydrothermal Pretreatment

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Innovations in anaerobic digestion: a model-based study

Biotechnology for Biofuels ◽

10.1186/s13068-020-01864-z ◽

2021 ◽

Vol 14 (1) ◽

Author(s):

Karol Postawa ◽

Jerzy Szczygieł ◽

Marek Kułażyński

Keyword(s):

Mathematical Model ◽

Anaerobic Digestion ◽

Production Efficiency ◽

Biogas Production ◽

Biogas Plant ◽

Methane Content ◽

Pig Manure ◽

Pig Slurry ◽

Production Chain ◽

The Impact

Abstract Background Increasing the efficiency of the biogas production process is possible by modifying the technological installations of the biogas plant. In this study, specific solutions based on a mathematical model that lead to favorable results were proposed. Three configurations were considered: classical anaerobic digestion (AD) and its two modifications, two-phase AD (TPAD) and autogenerative high-pressure digestion (AHPD). The model has been validated based on measurements from a biogas plant located in Poland. Afterward, the TPAD and AHPD concepts were numerically tested for the same volume and feeding conditions. Results The TPAD system increased the overall biogas production from 9.06 to 9.59%, depending on the feedstock composition, while the content of methane was slightly lower in the whole production chain. On the other hand, the AHPD provided the best purity of the produced fuel, in which a methane content value of 82.13% was reached. At the same time, the overpressure leads to a decrease of around 7.5% in the volumetric production efficiency. The study indicated that the dilution of maize silage with pig manure, instead of water, can have significant benefits in the selected configurations. The content of pig slurry strengthens the impact of the selected process modifications—in the first case, by increasing the production efficiency, and in the second, by improving the methane content in the biogas. Conclusions The proposed mathematical model of the AD process proved to be a valuable tool for the description and design of biogas plant. The analysis shows that the overall impact of the presented process modifications is mutually opposite. The feedstock composition has a moderate and unsteady impact on the production profile, in the tested modifications. The dilution with pig manure, instead of water, leads to a slightly better efficiency in the classical configuration. For the TPAD process, the trend is very similar, but the AHPD biogas plant indicates a reverse tendency. Overall, the recommendation from this article is to use the AHPD concept if the composition of the biogas is the most important. In the case in which the performance is the most important factor, it is favorable to use the TPAD configuration.

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Sugarcane Bagasse as a Co-Substrate with Oil-Refinery Biological Sludge for Biogas Production Using Batch Mesophilic Anaerobic Co-Digestion Technology: Effect of Carbon/Nitrogen Ratio

Water ◽

10.3390/w13050590 ◽

2021 ◽

Vol 13 (5) ◽

pp. 590

Author(s):

Aiban Abdulhakim Saeed Ghaleb ◽

Shamsul Rahman Mohamed Kutty ◽

Gasim Hayder Ahmed Salih ◽

Ahmad Hussaini Jagaba ◽

Azmatullah Noor ◽

...

Keyword(s):

Anaerobic Digestion ◽

Sugarcane Bagasse ◽

Organic Waste ◽

Wastewater Treatment Plants ◽

Biogas Production ◽

Raw Materials ◽

Oil Refinery ◽

Methane Yield ◽

Oil Refineries ◽

Biological Sludge

Man-made organic waste leads to the rapid proliferation of pollution around the globe. Effective bio-waste management can help to reduce the adverse effects of organic waste while contributing to the circular economy at the same time. The toxic oily-biological sludge generated from oil refineries’ wastewater treatment plants is a potential source for biogas energy recovery via anaerobic digestion. However, the oily-biological sludge’s carbon/nitrogen (C/N) ratio is lower than the ideal 20–30 ratio required by anaerobic digestion technology for biogas production. Sugarcane bagasse can be digested as a high C/N co-substrate while the oily-biological sludge acts as a substrate and inoculum to improve biogas production. In this study, the best C/N with co-substrate volatile solids (VS)/inoculum VS ratios for the co-digestion process of mixtures were determined empirically through batch experiments at temperatures of 35–37 °C, pH (6–8) and 60 rpm mixing. The raw materials were pre-treated mechanically and thermo-chemically to further enhance the digestibility. The best condition for the sugarcane bagasse delignification process was 1% (w/v) sodium hydroxide, 1:10 solid-liquid ratio, at 100 °C, and 150 rpm for 1 h. The results from a 33-day batch anaerobic digestion experiment indicate that the production of biogas and methane yield were concurrent with the increasing C/N and co-substrate VS/inoculum VS ratios. The total biogas yields from C/N 20.0 with co-substrate VS/inoculum VS 0.06 and C/N 30.0 with co-substrate VS/inoculum VS 0.18 ratios were 2777.0 and 9268.0 mL, respectively, including a methane yield of 980.0 and 3009.3 mL, respectively. The biogas and methane yield from C/N 30.0 were higher than the biogas and methane yields from C/N 20.0 by 70.04 and 67.44%, respectively. The highest biogas and methane yields corresponded with the highest C/N with co-substrate VS/inoculum VS ratios (30.0 and 0.18), being 200.6 mL/g VSremoved and 65.1 mL CH4/g VSremoved, respectively.

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