Corpus ID: 218763299

Local and global stability analysis of a Curzon-Ahlborn model applied to power plants working at maximum $k$-efficient power.

@article{ValenciaOrtega2020LocalAG,
  title={Local and global stability analysis of a Curzon-Ahlborn model applied to power plants working at maximum \$k\$-efficient power.},
  author={G. Valencia-Ortega and S. Levario-Medina and Marco A. Barranco-Jim{\'e}nez},
  journal={arXiv: Applied Physics},
  year={2020}
}
  • G. Valencia-Ortega, S. Levario-Medina, Marco A. Barranco-Jiménez
  • Published 2020
  • Mathematics, Physics
  • arXiv: Applied Physics
  • The analysis of the effect of noisy perturbations on real heat engines, working on any steady-state regime has been a topic of interest within the context of Finite-Time Thermodynamics (FTT). The study of their local stability has been proposed through the so-called performance regimes: maximum power output, maximum ecological function, among others. Recently, the global stability analysis of an endoreversible heat engine was also studied taking into account the same performance regimes. We… CONTINUE READING

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