Anaerobic Digestion of Laminaria digitata: The Effect of Temperature on Biogas Production and Composition

The organic residues generated in grasslands can be treated by adopting anaerobic digestion technology. This technology can enhance the efforts for sustainable waste management around the world. In the northern Netherlands, there is a vast amount of ditch clippings and canal grasses that can be used as a renewable source of energy; however, optimal bioenergy production from grasses is still under research and this study aims to evaluate biogas production from grassy residues at the local level in the context of a sustainable waste management scheme. Batch tests were facilitated to investigate the impact of temperature and organic load on the anaerobic digestion performance of grass mixtures (ditch clippings and canal grasses). The results showed that high temperature favors the degradation of high lignocellulosic materials like grasses. Specifically, bioreactors at 55 °C with an organic load of 30 g volatile solids (VS) L−1 reached 360.4 mL g VSsubstrate−1. Moreover, reactors with low organic loads resulted in a lower methane yield. The kinetics study also showed good fitting of the predicted and experimental values.

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Integration of Hydrothermal Carbonisation with Anaerobic Digestion; Opportunities for Valorisation of Digestate

Energies ◽

10.3390/en12091586 ◽

2019 ◽

Vol 12 (9) ◽

pp. 1586 ◽

Cited By ~ 15

Author(s):

Kiran R. Parmar ◽

Andrew B. Ross

Keyword(s):

Anaerobic Digestion ◽

Biogas Production ◽

Poor Quality ◽

Process Water ◽

Effect Of Temperature ◽

Solid Loading ◽

Agricultural Residue ◽

Heating Value ◽

Methane Potential ◽

Hydrothermal Carbonisation

Hydrothermal carbonisation (HTC) has been identified as a potential route for digestate enhancement producing a solid hydrochar and a process water rich in organic carbon. This study compares the treatment of four dissimilar digestates from anaerobic digestion (AD) of agricultural residue (AGR); sewage sludge (SS); residual municipal solid waste (MSW), and vegetable, garden, and fruit waste (VGF). HTC experiments were performed at 150, 200 and 250 °C for 1 h using 10%, 20%, and 30% solid loadings of a fixed water mass. The effect of temperature and solid loading to the properties of biocoal and biochemical methane potential (BMP) of process waters are investigated. Results show that the behaviour of digestate during HTC is feedstock dependent and the hydrochar produced is a poor-quality solid fuel. The AGR digestate produced the greatest higher heating value (HHV) of 24 MJ/kg, however its biocoal properties are poor due to slagging and fouling propensities. The SS digestate process water produced the highest amount of biogas at 200 °C and 30% solid loading. This study concludes that solely treating digestate via HTC enhances biogas production and that hydrochar be investigated for its use as a soil amender.

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Effect of temperature on biogas production from food waste through anaerobic digestion

10.5004/dwt.2017.21189 ◽

2017 ◽

Vol 85 ◽

pp. 68-72

Author(s):

G. Paramaguru ◽

M. Kannan ◽

N. Senthilkumar ◽

P. Lawrence

Keyword(s):

Anaerobic Digestion ◽

Food Waste ◽

Biogas Production ◽

Effect Of Temperature

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Optimization of Reactor Temperature for Continuous Anaerobic Digestion of Cow Manure: Bangladesh Perspective

Sustainability ◽

10.3390/su12218772 ◽

2020 ◽

Vol 12 (21) ◽

pp. 8772

Author(s):

Rajesh Nandi ◽

Chayan Kumer Saha ◽

Shiplu Sarker ◽

Md. Sanaul Huda ◽

Md. Monjurul Alam

Keyword(s):

Anaerobic Digestion ◽

Volatile Fatty Acids ◽

Biogas Production ◽

Ammonia Nitrogen ◽

Green Energy ◽

Effect Of Temperature ◽

Optimum Process ◽

Cow Dung ◽

Working Volume ◽

Reactor Temperature

Converting organic waste into energy through anaerobic digestion is gaining popularity day by day. The reactor temperature is considered as one of the most vital factors for the digestion process. An experiment was conducted in the Biogas Laboratory of Green Energy Knowledge Hub at Bangladesh Agricultural University (BAU) to examine the influence of temperature on anaerobic digestion of cow-dung. Laboratory-scale continuous stirred tank reactors with a working volume of 15 L were operated for a 30-day retention time. The reactors were set at 20 °C, 25 °C, 30 °C, 35 °C, 40 °C and 45 °C, respectively to determine the effect of temperature on anaerobic digestion performance. Different parameters like total solids, volatile solids, pH, volatile fatty acids, ammonia nitrogen, total nitrogen, biogas production rate and methane concentration were examined. Among all the reactors, the reactor at 40 °C temperature produced maximum biogas (312.43 L/kg VS) and methane yields (209.70 L/kg VS), followed by the reactors at 35 °C and 30 °C, respectively. Statistical analysis of the obtained experimental results using Minitab® showed that the optimum process performance in terms of methane yield and volatile solid degradation is achieved at a reactor temperature of 35.82 °C.

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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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