• 教师名录

基本信息
姓名:张冠华
通讯地址:上理能动二办412
电话:
邮箱:guanhuazhang@usst.edu.cn
主要研究领域:微纳相变蓄热,强化换热,热管理系统,碳捕集与吸附,生命周期评估(LCA),拉胀复合材料
教育背景与工作经历
代表性研究成果
荣誉与奖励
主讲课程

教育背景与工作经历

教育背景

2002~2005,英国普利茅斯大学(University of Plymouth)荣誉学士

2007~2008,英国普利茅斯大学(University of Plymouth)硕士

2009~2013,英国华威大学(University of Warwick)博士

工作经历

2013.3 ~ 2016.8,英国埃克塞特大学(University of Exeter), 博士后研究员(Postdoctoral Research Fellow

2016.10 ~ 上海理工大学副教授




代表性研究成果

科研项目

1.2022-2025,上海市自然科学基金面上项目:微纳相变材料储热性能调控及其多尺度复杂流动传热特性研究22ZR1442700,负责

2. 2020-2023,国家自然科学基金面上项目:高储热低过冷微纳有机相变材料储热及传热机理研究,51976126,负责。

3. 2017-2020, 上海市青年东方学者,微纳米相变材料的储能与强化换热机理研究,负责。

4. 2018年度上海理工大学自然科学培育基金项目:高导热率微纳米尺度相变材料在成核剂作用下的强化换热及蓄能机理,ZR18PY08,负责。 

5. 2018上海浦江人才计划项目:基于高效蓄热墙体结构的纳米有机相变材料强化换热机理研究,18PJ1408900,负责。

6. 上海市地方高校能力建设项目:太阳能驱动生物质化学链制氢新工艺研制与推广,18060502600,主要参加人。

7. 国家自然科学基金面上项目:循环流化床气化原位吸储氢吸附强化水汽变换制氢机理研究,51876130,主要参加人。

 

代表性论文

Zhang, G*., Z. Yu, G. Cui, B. Dou, W. Lu, and X. Yan, Fabrication of a novel nano phase change material emulsion with low supercooling and enhanced thermal conductivity. Renewable Energy, 2020. 151: p. 542-550.

 

Lu, W., G. Liu, Z. Xiong,Z. Wu, and G. Zhang, An experimental investigation of composite phase change materials of ternary nitrate and expanded graphite for medium-temperature thermal energy storage. Solar Energy,2020. 195: p. 573-580.

 

Wang, Z., H. Zhang, B. Dou, G. Zhang, W. Wu, and L. Zhou, An experimental study for the enhancement of stratification in heat-storage tank by equalizer and PCM module. Journal of Energy Storage, 2020. 27: p. 101010.

 

Wang, Z., H. Zhang, B. Dou, G. Zhang, and W. Wu, Influence of inlet structure on thermalstratification in a heat storage tank with PCMs: CFD and experimental study. Applied Thermal Engineering, 2019. 162:p. 114151.

 

Wang, H., W. Lu, Z. Wu, and G. ZhangParametric analysis of applying PCM wallboards for energy saving in high-rise lightweight buildings in Shanghai. Renewable Energy, 2020. 145:p. 52-64. 

 

G. Zhang*,G. Cui, B. Dou, Z. Wang, and M.A. Goula, An experimental investigation of forced convection heat transfer with novel microencapsulated phase change material slurries in a circular tube under constant heat flux. Energy Conversion and Management, 2018. 171: p. 699-709.

 

G. Zhang*,O.R. Ghita, C. Lin, and K.E. Evans, Large-scale manufacturing of helical auxetic yarns using a novel semi-coextrusion process. Textile Research Journal, 2018. 88(22):p. 2590-2601.

 

G.H.Zhang* and C.Y. Zhao, Synthesis and characterization of a narrow size distribution nano phase change material emulsion for thermal energy storage. Solar Energy, 2017. 147: p. 406-413.

 

Z. Wang, H. Zhang, B. Dou, H.Huang, and G.H. ZhangThe thermal stratification characteristics affected by a novel equalizer in a dynamic hot water storage tank. AppliedThermal Engineering, 2017. 126:p.1006-1016.

 

G.H. Zhang*,O.R. Ghita, and K.E. Evans, Dynamic thermo-mechanical and impact properties of helical auxetic yarns. CompositesPart B: Engineering, 2016. 99:p. 494-505.


G.H. Zhang*,O. Ghita, C. Lin, and K.E. Evans, Varying the performance of helical auxetic yarns by altering component properties and geometry. Composite Structures, 2016. 140:p. 369-377.

 

G.H. Zhang*,O. Ghita, and K.E. Evans, The fabrication and mechanical properties of a novel 3-component auxetic structure for composites.Composites Science and Technology, 2015. 117: p. 257-267.

 

S. Bhattacharya, G.H. Zhang*, O. Ghita, and K.E. Evans, The variation in Poisson’s ratio caused by interactions between core and wrap in helical composite auxetic yarns. CompositesScience and Technology, 2014. 102(0):p. 87-93.

 

G.H. Zhang andC.Y. Zhao, Thermal property investigation of aqueous suspensions of microencapsulated phase change materialand carbon nanotubes as a novel heat transfer fluid. Renewable Energy,2013. 60(0): p. 433-438.

 

G.H. Zhang,S.A.F. Bon, and C.Y. Zhao, Synthesis,characterization and thermal properties of novel nanoencapsulated phase change materials for thermal energy storage. Solar Energy, 2012. 86(5): p. 1149-1154.

 

C.Y. Zhao and G.H. ZhangReview on microencapsulated phase change materials (MEPCMs): Fabrication,characterization and applications. Renewable and Sustainable EnergyReviews, 2011. 15(8): p.3813-3832.

 

 G.H. Zhang and C.Y. Zhao, Thermal and rheological properties of microencapsulated phase change materials. Renewable Energy, 2011. 36(11): p.2959-2966.



荣誉与奖励

2018年上海市浦江人才计划

2017年上海市青年东方学者

2012年国家优秀海外留学生奖


主讲课程



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