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The exergy release mechanism and exergy analysis for coal oxidation in supercritical water atmosphere and a power generation system based on the new technology

Yan, Qiuhui ; Hou, Yanwan ; Luo, Jieren ; Miao, Haijun ; Zhang, Hong

Energy conversion and management, 2016-12, Vol.129, p.122-130 [Periódico revisado por pares]

Oxford: Elsevier Ltd

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  • Título:
    The exergy release mechanism and exergy analysis for coal oxidation in supercritical water atmosphere and a power generation system based on the new technology
  • Autor: Yan, Qiuhui ; Hou, Yanwan ; Luo, Jieren ; Miao, Haijun ; Zhang, Hong
  • Assuntos: Atmosphere ; Boilers ; Coal ; Computing time ; Electric power generation ; Energy consumption ; Energy efficiency ; Energy-utilization diagrams analysis ; Exergy ; Exergy efficiency ; Heat transfer ; Mass transfer ; New technology ; Nuclear fuels ; Oxidation ; Oxidation process ; Pollutants ; Power efficiency ; Power plants ; Reactors ; Release mechanism of exergy ; Supercritical processes ; Supercritical water ; Supercritical water oxidation ; Thermal energy ; Thermodynamics
  • É parte de: Energy conversion and management, 2016-12, Vol.129, p.122-130
  • Descrição: The exergy release mechanism of coal oxidation in SCW is revealed, and energy level, exergy losses as well as exergy efficiency are quantitatively investigated. Finally, based on the SCWO technology of coal, a new power generation system is constructed, and the exergy efficiency of the new system and conventional system is compared and analyzed. [Display omitted] •Revealed release mechanism of exergy in supercritical water oxidation of coal.•Energy level, exergy losses and exergy efficiency are quantitatively investigated.•Exergy efficiency of supercritical water oxidation reactors is 80.1%.•Built a new power generation system based on supercritical water oxidation of coal.•Exergy efficiency of new power generation system is 21% higher than the conventional. The oxidation environment has important influence on the transformation of the energy contained in fuel and generation of pollutants. To the problem of nearly 50% exergy losses in coal oxidation at air atmosphere, this research intends to change oxidation atmosphere from air to supercritical water/oxidant and achieve efficient release of exergy in coal at about 650°C with the aid of a high solubility and unique performance of heat and mass transfer of supercritical water. Therefore, firstly, based on the exergy analysis theory and the energy-utilization diagrams, the release mechanism of exergy of coal in supercritical water oxidation process is revealed. It is pointed out that supercritical water oxidation has changed the release pathways of chemical exergy, and decreased the level difference between chemical exergy and thermal energy, and more exergy is released. Meanwhile, there is also no exergy loss of physical heat transfer. As a result, supercritical water oxidation has higher exergy efficiency than conventional oxidation. Secondly, the exergy losses, level difference between chemical exergy and thermal energy as well as exergy efficiency, are quantitatively investigated. Results show that the exergy efficiency of supercritical water oxidation reactor may be as high as 80.1% and has increased by 27% relative to conventional boilers. Thirdly, based on supercritical water oxidation of coal, a concept power generation system is constructed. Exergy efficiency is calculated and exergy analysis is provided for the supercritical water oxidation power plant. Compared with conventional power plant, exergy efficiency in supercritical water oxidation plant reaches as high as 61.3% and 21% higher than that in conventional power plant. Finally, from the results obtained, it is believed that the commercial breakthrough of the supercritical water oxidation process will be possible when the corrosion and salt deposition in the reactor are solved.
  • Editor: Oxford: Elsevier Ltd
  • Idioma: Inglês
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