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  • 标题:Thermodynamic Optimization of an Irreversible Regenerated Brayton Heat Engine Using Modified Ecological Criteria
  • 本地全文:下载
  • 作者:Ranjana Arora ; Rajesh Arora
  • 期刊名称:Journal of Thermal Engineering
  • 电子版ISSN:2148-7847
  • 出版年度:2020
  • 卷号:6
  • 期号:1
  • 页码:28-42
  • DOI:10.18186/thermal.671079
  • 出版社:Yildiz Technical University
  • 摘要:The modified configuration of regenerated Brayton heat engine along with supplementary addition of heat in its irreversible mode is thermodynamically investigated and optimized. The definite temperature differential between system/reservoir is the source of external irreversibility and the losses because of rubbing/friction in turbine/compressor, regeneration heat losses and losses due to pressure drop are the internal irreversibilities considered in this analysis. The difference of output power and the exergy destruction rate, termed as ecological function, is thermodynamically optimized. It is found that regenerative effectiveness plays a vital role in obtaining maximum possible ecological function whereas output power and 1 st law efficiency predominantly depends on the cold side effectiveness in the system. It is also observed that the thermodynamic performance of proposed system/device is prominently depends on the efficiency of the turbine and consequently less dependent on compressor efficiency. The major outcome of this analysis is that with the inclusion of additional thermal heats at constant temperature conditions, various performance parameters i.e., output power (about 13%) and 1st law efficiency (about 9%) of the model get improved significantly in comparison with the conventional gas power plant. Moreover, the model investigated in this study yields lesser output power, first law efficiency and ecological function and exactly follows the results/outcomes presented in the available literature at α1=α2=1, which are the pressure recovery coefficients at two ends.
  • 关键词:Modified Ecological Function; Irreversible Brayton Heat Engine; Regenerators; Isothermal Heat Addition; Thermodynamic Optimization
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