Comparative Analysis of Biogas and Methane Yields from Different Sizes of Groundnut Shell in a Batch Reactor at Mesophilic Temperature

Aim: To study the effects of different sizes of groundnut shell on biogas and methane yields using batch reactor at mesophilic temperature. Place and Duration of Study: The laboratory experiment was carried out at the Laboratory of the Department of Agricultural Engineering, Ladoke Akintola University of Technology, Ogbomoso, Nigeria, between August and October, 2018. Methodology: Batch experiment was set up for a period of 35 days with substrate reduced to 2, 4 and 6 mm sizes. The digesters were subjected to anaerobic digestion at mesophilic condition and the gas produced were collected with graduated gas sampling bottles dipped in measuring cylinders already filled with red liquid. The total gas produced was analyzed using gas analyzer to give the percentage composition of the gas components and Enwuff equation was used to calculate the biogas and methane yields of organic dry matter and fresh mass of the samples. Results: The total gas volume of 482.5, 605.0 and 732.5 ml were recorded for the sizes 2, 4 and 6 mm respectively. The organic dry matter biogas yields were 357.1, 514.31 and 324.5 lNkg-1oDM for treatment 2, 4 and 6 mm respectively; while organic dry matter methane produced were 222.41, 298.41 and 211.31 CH4kg-1oDM for 2, 4 and 6 mm, respectively. The fresh mass biogas yields were 147.6, 180.7 and 177.3 lNkg-1FM and fresh mass methane yield were 919, 104.8 and 115.4 lNCH4 kg-1FM for 2, 4 and 6 mm, respectively. Conclusion: Considering the yields recorded, the experiment shows that size reduction had effect on biogas yields and it is an important factor to be considered in biogas production. Treatment with particle size 4 mm seems to be the ideal size when considered the yields in terms of organic dry matter and fresh mass basis.

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Water use, growth, and yield of drip irrigated cassava in a humid tropical environment

Soil and Water Research ◽

10.17221/45/2009-swr ◽

2011 ◽

Vol 6 (No. 1) ◽

pp. 10-20 ◽

Cited By ~ 13

Author(s):

O.O. Odubanjo ◽

A.A. Olufayo ◽

P.G. Oguntunde

Keyword(s):

Water Use ◽

Dry Matter ◽

Field Experiments ◽

Block Design ◽

Growth And Yield ◽

Control Treatment ◽

Total Water ◽

Agricultural Engineering ◽

University Of Technology ◽

Cropping Seasons

Field experiments were conducted at the Agricultural Engineering Experimental Farm of The Federal University of Technology, Akure, during 2006/2007 and 2007/2008 seasons to investigate the response of cassava under drip irrigation. The experiment was laid out in a randomised complete block design (RCBD) with three replications. The treatments were based on four different water regimes; with T100 receiving 100% available water (AW), T50 and T25 receiving 50% and 25% of AW and T0 with zero irrigation (control treatment). Disease free stems of the cassava cultivar TMS 91934 were planted at a spacing of 1 m by 1 m. The results indicated that T100 full treatment produced the highest average total dry matter yield of 49.12 and 37.62 t/ha in 2006/07 and 2007/08 cropping seasons, respectively. However, the average total dry matter production in T50, T25, and T0 showed significant differences in their values. Low total dry matter yields of 7.12 and 5.92 t/ha, respectively, were associated with T0 for the two cropping seasons. The total water use of 1491.75 and 1701.13 mm was recorded for T100, while total water use of 729.00 and 651.13 mm were obtained for T0 in the two cropping seasons. The water use efficiency determined for the two cropping seasons ranged between 7.38 kg/ha and 32.93 kg/ha. The percentages of total water applied from total water use for T100 were 51.11% and 61.72%, while 14.83% and 17.85% were recorded for T25 for 2006/07 and 2007/08 cropping seasons, respectively.

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Biogas Production Potential of Poultry Discharge in a Batch Reactor at Mesophilic Temperature

2019 7th International Renewable and Sustainable Energy Conference (IRSEC) ◽

10.1109/irsec48032.2019.9078265 ◽

2019 ◽

Author(s):

Ademola Oyejide Adebayo ◽

Simeon Olatayo Jekayinfa ◽

Paul Amaechi Ozor ◽

Charles Mbohwa ◽

Christiane Herrrmann

Keyword(s):

Biogas Production ◽

Batch Reactor ◽

Production Potential ◽

Mesophilic Temperature

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BIOGAS PRODUCTION IN THE CONCENTRATED DISTILLERY WASTEWATER TREATMENT

Alternative Energy and Ecology (ISJAEE) ◽

10.15518/isjaee.2018.25-30.051-059 ◽

2018 ◽

pp. 51-59 ◽

Cited By ~ 1

Author(s):

N. Golub ◽

M. Potapova ◽

M. Shinkarchuk ◽

O. Kozlovets

Keyword(s):

Wastewater Treatment ◽

Dry Matter ◽

Ph Value ◽

Biogas Production ◽

Anaerobic Sludge ◽

Methane Formation ◽

Maximum Output ◽

Processing Technologies ◽

Spent Wash ◽

Distillery Spent Wash

The paper deals with the waste disposal problem of the alcohol industry caused by the widespread use of alcohol as biofuels. In the technology for the production of alcohol from cereal crops, a distillery spent wash (DSW) is formed (per 1 dm3 of alcohol – 10–20 dm3 DSW), which refers to highly concentrated wastewater, the COD value reaches 40 g O2/dm3. Since the existing physical and chemical methods of its processing are not cost-effective, the researchers develop the processing technologies for its utilization, for example, an anaerobic digestion. Apart from the purification of highly concentrated wastewater, the advantage of this method is the production of biogas and highquality fertilizer. The problems of biotechnology for biogas production from the distillery spent wash are its high acidity–pH 3.7–5.0 (the optimum pH value for the methanogenesis process is 6.8–7.4) and low nitrogen content, the lack of which inhibits the development of the association of microorganisms. In order to solve these problems, additional raw materials of various origins (chemical compounds, spent anaerobic sludge, waste from livestock farms, etc.) are used. The purpose of this work is to determine the appropriate ratio of the fermentable mixture components: cosubstrate, distillery spent wash and wastewater of the plant for co-fermentation to produce an energy carrier (biogas) and effective wastewater treatment of the distillery. In order to ensure the optimal pH for methanogenesis, poultry manure has been used as a co-substrate. The co-fermentation process of DSW with manure has been carried out at dry matter ratios of 1:1, 1:3, 1:5, 1:7 respectively. It is found that when the concentration of manure in the mixture is insufficient (DSW/manure – 1:1, 1:3), the pH value decreases during fermentation which negatively affects methane formation; when the concentration of manure in the mixture is increased (DSW/manure – 1:5, 1:7), the process is characterized by a high yield of biogas and methane content. The maximum output of biogas with a methane concentration of 70 ± 2% is observed at the ratio of components on a dry matter “wastewater: DSW: manure” – 0,2:1:7 respectively. The COD reduction reaches a 70% when using co-fermentation with the combination of components “wastewater: DSW: manure” (0,3:1:5) respectively.

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Optimum harvest date of maize for biogas and silage purposes

Acta Agronomica Hungarica ◽

10.1556/aagr.57.2009.2.3 ◽

2009 ◽

Vol 57 (2) ◽

pp. 119-125

Author(s):

G. Hadi

Keyword(s):

Dry Matter ◽

Biogas Production ◽

Weather Conditions ◽

Vegetation Period ◽

Dry Mass ◽

Matter Content ◽

Harvest Date ◽

Dry Matter Content ◽

Dry Matter Yield ◽

Vegetative Organs

The dry matter and moisture contents of the aboveground vegetative organs and kernels of four maize hybrids were studied in Martonvásár at five harvest dates, with four replications per hybrid. The dry matter yield per hectare of the kernels and other plant organs were investigated in order to obtain data on the optimum date of harvest for the purposes of biogas and silage production.It was found that the dry mass of the aboveground vegetative organs, both individually and in total, did not increase after silking. During the last third of the ripening period, however, a significant reduction in the dry matter content was sometimes observed as a function of the length of the vegetation period. The data suggest that, with the exception of extreme weather conditions or an extremely long vegetation period, the maximum dry matter yield could be expected to range from 22–42%, depending on the vegetation period of the variety. The harvest date should be chosen to give a kernel moisture content of above 35% for biogas production and below 35% for silage production. In this phenophase most varieties mature when the stalks are still green, so it is unlikely that transport costs can be reduced by waiting for the vegetative mass to dry.

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Intensification of cooling in a batch reactor with an exothermic reaction by nonisothermal control in stable pseudostationary states

Collection of Czechoslovak Chemical Communications ◽

10.1135/cccc19842566 ◽

1984 ◽

Vol 49 (11) ◽

pp. 2566-2578 ◽

Cited By ~ 1

Author(s):

Josef Horák ◽

Petr Beránek ◽

Dagmar Maršálková

Keyword(s):

Batch Reactor ◽

Exothermic Reaction ◽

Reaction Model ◽

Order Reaction ◽

Zero Order ◽

Coolant Temperature ◽

Inlet Temperature ◽

Adaptive Parameter ◽

Zero Order Reaction ◽

Set Up

An algorithm is set up and tested for the temperature control of a batch reactor consisting in jump changes in the inlet temperature of entering coolant. This temperature is so chosen that its difference from the temperature of the reaction mixture is near the highest difference at which the stable pseudostationary state of the system still exists. For the prediction of the new coolant inlet temperature, a zero-order reaction model is used with an adaptive parameter estimated from the experimentally established value of the maximum of the reaction mixture overheating at the previous coolant temperature.

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Predictive Modeling of Biogas Production from Anaerobic Digestion of Mixed Kitchen Waste at Mesophilic Temperature

International Journal of Waste Resources ◽

10.4172/2252-5211.1000230 ◽

2016 ◽

Vol 6 (3) ◽

Cited By ~ 4

Author(s):

Aasim Ali ◽

Li Rundong

Keyword(s):

Anaerobic Digestion ◽

Predictive Modeling ◽

Biogas Production ◽

Kitchen Waste ◽

Mesophilic Temperature

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BIOGAS PRODUCTION FROM AMARANTH BIOMASS

Acta Regionalia et Environmentalica ◽

10.2478/aree-2013-0013 ◽

2013 ◽

Vol 10 (2) ◽

pp. 59-62

Author(s):

Vladimír Sitkey ◽

Ján Gaduš ◽

Ľubomír Kliský ◽

Alexander Dudák

Keyword(s):

Dry Matter ◽

Large Scale ◽

Biogas Production ◽

Organic Fertilizer ◽

Matter Content ◽

Raw Material ◽

Dry Matter Content ◽

Optimum Conditions ◽

Average Yield ◽

Amaranthus Spp

Abstract Energy variety of amaranth (Amaranthus spp.) was grown in large-scale trials in order to verify the capability of its cultivation and use as a renewable energy source in a biogas plant. The possibility of biogas production using anaerobic co-fermentation of manure and amaranth silage was verified in the experimental horizontal fermentor of 5 m3 volume, working at mesophilic conditions of 38-40 °C. The goal of the work was also to identify the optimum conditions for growth, harvesting and preservation of amaranth biomass, to optimize biogas production process, and to test the residual slurry from digestion process as a high quality organic fertilizer. The average yield of green amaranth biomass was 51.66 t.ha-1 with dry matter content of 37%. Based on the reached results it can be concluded that amaranth silage, solely or together with another organic materials of agricultural origin, is a suitable raw material for biogas production.

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Determining the content of nitrogen and some macroelements in the dry mass of perennial leguminous plants

Агрознање ◽

10.7251/agren2201013z ◽

2021 ◽

Vol 22 (1) ◽

Author(s):

Željko Lakić ◽

Mirjana Žabić ◽

Tihomir Predić

Keyword(s):

Dry Matter ◽

Red Clover ◽

Optimal Growth ◽

Dry Mass ◽

First Year ◽

Random Block ◽

Beginning Of Flowering ◽

Set Up ◽

Perennial Legumes ◽

Nitrogen Phosphorus

The aim of this study was to determine the content of elements N, P, K, Ca, and Mg in the dry mass of perennial fodder legumes, mowed in the optimal growth phase. The experiment with perennial legumes of alfalfa (Medicago sativa), red clover (Trifolium pretense) and bird's-foot trefoil (Lotus corniculatus L.) was set up as a random block system in four replicates on valley-brown soil and was conducted for two years. The green mass of perennial legumes in the first and second mowing was harvested at the end of budding/ beginning of flowering phase. In the third and fourth regrowth, mowing of the biomass was done after 5 weeks. Immediately after each mowing, representative sample of green biomass was taken from each replicate of each legume tested. The content of nitrogen, phosphorus, potassium, calcium, and magnesium in the dry plant material was determined. The content of nitrogen and potassium in the fodder of alfalfa and red clover was higher in the first year of the study, which was not the case for bird's-foot trefoil. The dry matter of alfalfa on average had the highest content of nitrogen (39.8 g kg-1 DM) and calcium (19.6 g kg-1 DM), bird's-foot trefoil of phosphorus (10.6 g kg-1 DM) and potassium (26.1 g kg-1 DM), and red clover of magnesium (3.7 g kg-1 DM). In the dry mass of bird's-foot trefoil the average content of nitrogen was 39.0 g kg-1 DM, phosphorus 10.6 g kg-1 DM, potassium 26.1 g kg-1 DM, calcium 15.7 g kg-1 DM, and magnesium 3.5 g kg-1 DM.

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