朱娜

Associate professor    Supervisor of Doctorate Candidates    Supervisor of Master's Candidates

  • Professional Title:Associate professor
  • Gender:Female
  • Status:Employed
  • Department:School of Environmental Science and Engineering
  • Education Level:Postgraduate (Doctoral)
  • Degree:Doctoral Degree in Engineering
  • Alma Mater:The Hong Kong Polytechnic University

Paper Publications

Study on energy saving potential of the double shape-stabilized phase change material wallboard using in the major climate zones of our country

Release time:2023-04-22Hits:
  • Indexed by:
    Article
  • First Author:
    Fuli Liu
  • Correspondence Author:
    Na Zhu
  • Co-author:
    Pingfang Hu,Pengpeng Liu,Fei Lei
  • Journal:
    NEW BUILDING MATERIALS
  • Affiliation of Author(s):
    Huazhong University of Science and Technology
  • Place of Publication:
    China
  • Discipline:
    Engineering
  • First-Level Discipline:
    Civil Engineering
  • Funded by:
    National Natural Science Foundation of China (NSFC)
  • Document Type:
    J
  • Volume:
    12
  • Page Number:
    8-12
  • ISSN No.:
    1001-702X
  • Key Words:
    double shape-stabilized phase change material wallboard,typical climate zones,wallboard thickness,phase change temperature,energy saving potential
  • CN No.:
    33-1078/TU
  • Date of Publication:
    2015-12-25
  • Impact Factor:
    0.743
  • Abstract:
    The double shape-stabilized phase change materials(SSPCMs) wallboard has traditional wallboard in the middle,the external SSPCM layer active in summers and the internal SSPCM layer active in winter. The structure could improve the indoor thermal comfort and reduce the building energy consumption. This paper aims to analyze the energy saving potential of this structure using in the five typical climate zones in China. Meteorological data in typical city of each climate zone were selected for simulating,then the simulation results of SSPCM building and the reference building were compared. The suitability of the double SSPCM wallboard used in each typical climate zone was analyzed,the optimal thickness and phase change temperature were obtained while the potential of energy saving was the best. It might be helpful for engineering application of the double SSPCM.