Energy and emission benefits of chicken manure biogas production - A case study
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Date
2017
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Publisher
IEEE
Abstract
Studies on the production of biogas of different organic materials in an anaerobic environment are being carried out all over the world. The most important parameters in these researches can he listed as raw material potential, production processes, economic analyses and environmental effects. Chicken manure is one of the raw materials used in biogas production. In this study, in addition to the analysis of biogas and energy production potential from chicken manure, greenhouse gas emissions were analyzed to evaluate environmental effects. In Turkey, chicken manure is not adequately processed and causes environmental pollution. The model biogas plant and potential energy generation were researched in this field study. The pilot plant produces 8.58 million m(3) of biogas per year by processing about 110 thousand tons of waste. It produces 17 GWhlyear of electricity and 16 CWh/year of thermal energy, as well as reducing CO2 greenhouse gas emissions by 13.86 thousand tons/year.
Description
Bu çalışma, 05-08, Aralık 2017 tarihlerinde San Diego[Kaliforniya]’da düzenlenen 6. IEEE International Conference on Renewable Energy Research and Applications (ICRERA) Kongresi‘nde bildiri olarak sunulmuştur.
Keywords
Science & technology - other topics, Engineering, Energy & fuels, Biogas, Chicken manure, Anaerobic digestion, Emissions, Renewable energy, Anaerobic digestion, Animals, Economic analysis, Fertilizers, Gas emissions, Greenhouse gases, Manures, Particulate emissions, Pilot plants, Potential energy, Anaerobic environment, Chicken manure, Energy and emissions, Energy generations, Energy productions, Environmental pollutions, Production process, Renewable energies, Biogas
Citation
Ulusoy, Y. vd. (2017). ''Energy and emission benefits of chicken manure biogas production - A case study''. International Conference on Renewable Energy Research and Applications, 2017 IEEE 6. International Conference on Renewable Energy Research and Applications (ICRERA), 2017, 648-652.