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  • 标题:Analysis of the combustion products of biogas produced from organic municipal waste
  • 作者:Monika Kuźnia ; Wojciech Jerzak ; Paulina Łyko
  • 期刊名称:Bulletin of the Institute of Heat Engineering
  • 印刷版ISSN:2083-4187
  • 出版年度:2015
  • 卷号:95
  • 期号:2
  • 页码:158
  • 语种:English
  • 出版社:Warsaw University of Technology
  • 摘要:Urban areas produce large amounts of organic waste, among others at eateries and residential locations. Methanefermentation can be used to turn these wastes into a valuable substrate for biogas production. Malopolska region(Poland), in 2010, produced 547,796 Mg of biodegradable waste. The estimated volume of biogas from this amount ofwaste is 62,449,000 m3. The composition of biogas produced from the fermentation of the municipal waste is about45 vol% CH4, 35 vol% CO2 and other gases (H2O, O2, N2). This paper presents the results of modeling the kineticsof the biogas combustion process. For this purpose the program Chemked II was used, implementing the combustionmechanism created by the Gas Research Institute called the GRI-Mech version 3.0. The software enables thoroughanalysis of 325 reactions. Concentrations of CO, CO2, NO, N2 and O2 in flue gases were calculated.
  • 其他摘要:Urban areas produce large amounts of organic waste, among others at eateries and residential locations. Methane fermentation can be used to turn these wastes into a valuable substrate for biogas production. Malopolska region (Poland), in 2010, produced 547,796 Mg of biodegradable waste. The estimated volume of biogas from this amount of waste is 62,449,000 m3. The composition of biogas produced from the fermentation of the municipal waste is about 45 vol% CH4, 35 vol% CO2 and other gases (H2O, O2, N2). This paper presents the results of modeling the kinetics of the biogas combustion process. For this purpose the program Chemked II was used, implementing the combustion mechanism created by the Gas Research Institute called the GRI-Mech version 3.0. The software enables thorough analysis of 325 reactions. Concentrations of CO, CO2, NO, N2 and O2 in flue gases were calculated.
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