Mr Fengyuan Zhang

Fengyuan Zhang
PhD Candidate
Research Area:
  • 2015–2018 | Master of Science | Power Engineering and Engineering Thermophysics |

                                  Shanghai Jiao Tong University (SJTU)

  • 2011–2015 | Bachelor of Engineering | Thermal Energy and Power Engineering |

                                  Northeastern University

  • Gas hydrates

  • Carbon Capture and Storage (CCS)

  • Waste heat recovery

  • Energy system optimization 

  • Thermodynamics

Articles in refereed journals

  1. Zhang F, Zhou Y, Sun W, Hou S, Yu L. CO2 capture from reheating furnace based on the sensible heat of continuous casting slabs[J]. International Journal of Energy Research, 2018,42(6):2273–2283.

  2. Hou S, Zhang F, Yu L, et al. Optimization of a combined cooling, heating and power system using CO2 as main working fluid driven by gas turbine waste heat[J]. Energy Conversion and Management, 2018,178:235–249.

  3. Zhou Y, Zhang F, Yu L. The discussion of composition shift in organic Rankine cycle using zeotropic mixtures[J]. Energy Conversion and Management, 2017,140:324–333.

  4. Zhou Y, Zhang F, Yu L. Performance analysis of the partial evaporating organic Rankine cycle (PEORC) using zeotropic mixtures[J]. Energy Conversion and Management, 2016,129:89–99.

  5. Sun W, Zhang F. Design and thermodynamic analysis of a flash power system driven by process heat of continuous casting grade steel billet[J]. Energy, 2016,116:94–101.

Books

As co-author:

  1. Lijun Yu, Yaodong Zhou, Fengyuan Zhang. New Energy Power Generation Technology. China Machine Press, 2018.09. ISBN: 978–7–111–6006–9.

As participant:

  1. Lijun Yu, Xiangxin Han. Thermal Energy and Power Engineering. Shanghai Jiao Tong University Press, 2017.09. ISBN: 978–7–313–16955–6.

  2. Lijun Yu, Yadong Zhu, Yuandan Wu. Mid- and Low-Grade Waste Heat Power Generation Technology. Shanghai Jiao Tong University Press, 2015.12. ISBN: 978–7–313–14091–3.

Articles in conference proceedings

  1. Zhang F, Feng J, Wang Y. Flash power generation- technology and application[C]. The 8th National Conference on Energy and Thermal Engineering, 2015,6:195–200.

  2. Han Z, Zhang F, Zhao J, Li W. The feasibility study on blast furnace low temperature heat source refrigeration for dehumidified blast[C]. Global Conference on Global Warming, GCGW 2014, Springer Verlag, 2017,33:281–291. (EI Compendex, Accession number: 20164603019710)

Updated:  1 June 2019/Responsible Officer:  Head of School/Page Contact:  CECS Marketing