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Combined reforming of chemical looping combustion products: A thermodynamic analysis

Ganesh R.Kale, Swapnil S.Sonar


Existing energy generation processes emit CO2 gas that is posing a serious problem of global warming and climate change. Chemical looping combustion (CLC) coupled combined reforming (CR) is an innovative way for clean energy generation and syngas production. A thermodynamic analysis of CR of propane was done using Gibbs free minimization routine ofHSC Chemistry 5.1. The product streamof CLCreactor (mainlyCO2 and H2O) wasmixed with additional propane with/without oxygen (air) at 1 bar pressure in the CR reactor and the product & byproduct yields with CO2 and H2O conversions was found within the temperature range 450–950 ºC. The objective of the paper is to identify the thermodynamic domain of the process operation, study the variation of product distribution pattern and describe the optimum conditions to maximize the yields of desired products with minimum undesired product formation. It was found that higher CO2 conversion to syngas would require higher energy from the CLC reactor. Operation of the CR reactor at oxygen to carbon in propane ratio 0.2 above 650 ºC was identified as the best operating point that gave a good balance of CO2 conversion, enthalpy requirements and syngas generation with zero carbon and low methane formation. These calculations were done for propane fuel and can also be used for other fuels.


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  • 中国社会科学院
  • 谷歌学术
  • 打开 J 门
  • 中国知网(CNKI)
  • 引用因子
  • 宇宙IF
  • 米亚尔
  • 秘密搜索引擎实验室
  • 欧洲酒吧
  • 巴塞罗那大学
  • ICMJE

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