Offline optimal energy management strategies considering high dynamics in batteries and constraints on fuel cell system power rate: From analytical derivation to validation on test bench. Hujun Peng, Z. C., Jianxiang Li, K. D., Steffen Dirkes, J. G., Cem Ünlübayir, A. T., & Lars Löwenstein, S. P. Applied Energy, 282:116152, Elsevier.
Offline optimal energy management strategies considering high dynamics in batteries and constraints on fuel cell system power rate: From analytical derivation to validation on test bench [pdf]Paper  doi  bibtex   
@article{J-2020-19,
  title={Offline optimal energy management strategies considering high dynamics in batteries and constraints on fuel cell system power rate: From analytical derivation to validation on test bench},
  author={Hujun Peng, Zhu Chen, Jianxiang Li, Kai Deng, Steffen Dirkes, Jonas Gottschalk, Cem Ünlübayir, Andreas Thul, Lars Löwenstein, Stefan Pischinger, Kay Hameyer},
  journal={Applied Energy},
  volume={282},
  pages={116152},
  publisher={Elsevier},
  doi= {10.1016/j.apenergy.2020.116152},
  url = {http://bib.iem.rwth-aachen.de/IEMpublications/2020HPOffline.pdf},
}
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