个人简述:

张后程，男，博士，副教授，硕士研究生导师。

2012年博士研究生毕业于厦门大学，曾赴香港理工大学从事博士后研究，主要从事新能源开发利用方面的研究，具体包括燃料电池、电解水制氢、太阳能热电转换等。发表学术论文近40篇，论文被引用400余次，曾获教育部“博士研究生学术新人奖”、福建省自然科学优秀学术论文一、二等奖，主持国家自然科学基金2项，浙江省自然科学基金1项，宁波市自然科学基金1项，浙江省教育厅科研计划项目1项。

科研工作:

[1]Houcheng Zhang*, Wei Kong, Feifei Dong, Haoran Xu, Bin Chen, Meng Ni*. Application of cascading thermoelectric generator and cooler for waste heat recovery from solid oxide fuel cells. Energy Conversion and Management 2017148:1382-1390.

[2] Houcheng Zhang*, Haoran Xu, Bin Chen, Feifei Dong, Meng Ni*. Two-stage thermoelectric generators to recover waste heat from solid oxide fuel cells. Energy 2017 132:280-288.

[3]Houcheng Zhang*, Bin Chen, Haoran Xu, Meng Ni. Thermodynamic assessment of an integrated molten carbonate fuel cell and absorption refrigerator hybrid system for combined power and cooling applications. International Journal of Refrigeration 2016 70:1-12.

[4]Sijie Wu, Houcheng Zhang*, Meng Ni. Performance assessment of a hybrid system integrating a molten carbonate fuel cell and a thermoelectric generator. Energy 2016 112:520-527.

[5]Puqing Yang, Houcheng Zhang*, Ziyang Hu. Parametric study of a hybrid system integrating a phosphoric acid fuel cell with an absorption refrigerator for cooling purposes. International Journal of Hydrogen Energy 201641:3579-3590.

[6]Puqing Yang, Houcheng Zhang*. Parametric analysis of an irreversible proton exchange membrane fuel cell/absorption refrigerator hybrid system. Energy 201585:458-467.

[7]Mingzhou Zhao, Houcheng Zhang*, Ziyang Hu, Zhufeng Zhang, Jinjie Zhang. Performance characteristics of a direct carbon fuel cell/thermoelectric generator hybrid system. Energy Conversion and Management 2015 89:683-689.

[8]Puqing Yang, Ying Zhu, Pei Zhang, Houcheng Zhang*, Ziyang Hu, Jinjie Zhang. Performance evaluation of an alkaline fuel cell/thermoelectric generator hybrid system. Int J Hydrogen Energy 2014, 39:11756-11762.

[9]Houcheng Zhang*, Liwei Chen, Jinjie Zhang, Jincan Chen*. Performance analysis of a direct carbon fuel cell with molten carbonate electrolyte. Energy 2014 68:292-300.

[10]Houcheng Zhang*, Jincan Chen*, Jinjie Zhang. Performance analysis and parametric study of a solid oxide fuel cell fueled by carbon monoxide. Int J Hydrogen Energy 2013 38: 16354-16364.

[11]Liwei Chen, Houcheng Zhang*, Songhua Gao, Huixian Yan. Performance Optimum Analysis of an Irreversible Molten Carbonate Fuel Cell-Stirling Heat Engine Hybrid System. Energy 2014 64:923-930.

[12]Houcheng Zhang*, Jincan Chen*, Jinjie Zhang. Performance analysis and parametric study of a solid oxide fuel cell fueled bycarbon monoxide. Int J Hydrogen Energy 2013 38: 16354-16364.

[13]Houcheng Zhang, Shanhe Su, Xiaohang Chen, Guoxing Lin, Jincan Chen. Configuration design and performance optimum analysis of a solar-driven high temperature steam electrolysis system for hydrogen production. Int. J. Hydrogen Energy 2013 38: 4298-4307.

[14]Houcheng Zhang, Shanhe Su, Xiaohang Chen, Guoxing Lin, Jincan Chen. Performance evaluation and optimum design strategies of an acid water electrolyzer system for hydrogen production. Int. J. Hydrogen Energy 2012 37: 18615-18621.

[15] Houcheng Zhang, Guoxing Lin, Jincan Chen. Multi-objective optimization analysis and load matching of a phosphoric acid fuel cell system. Int J Hydrogen Energy 2012 37: 3438-3446.

[16] Houcheng Zhang, Guoxing Lin, Jincan Chen. The performance analysis and multi-objective optimization of a typical alkaline fuel cell. Energy 2011 36: 4327-4332.

[17] Houcheng Zhang, Guoxing Lin, Jincan Chen. Performance analysis and multi-objective optimization of a new molten carbonate fuel cell system. Int. J. Hydrogen Energy 2011 36: 4015-4021.

[18] Houcheng Zhang, Guoxing Lin, Jincan Chen. Evaluation and calculation on the efficiency of a water electrolysis system for hydrogen production. Int. J. Hydrogen Energy 2010 35: 10851-10858.

[19]Mingzhou Zhao, Hongwei Zhao, Mengmeng Wu, Houcheng Zhang*, Ziyang Hu, Ziqi Zhao. Thermodynamic Analysis of a Hybrid System Integrating an Alkaline Fuel Cell with an Irreversible Absorption Refrigerator. International Journal of Electrochemical Science 2015 10:10045-10060.

[20]Liwei Chen, Houcheng Zhang*, Songhua Gao, Huixian Yan. An available method utilizing the waste heat in a direct carbon fuel cell. Int J Electrochem Sci 2014 9: 5788-5802.

[21]Bin Chen, Haoran Xu, Houcheng Zhang, Peng Tan, Weizi Cai, Meng Ni*. A novel design of solid oxide electrolyser integrated with magnesium hydride bed for hydrogen generation and storage- A dynamic simulation study. Applied Energy 2017 200:260-272.

[22]Haoran Xu, Bin Chen, Houcheng Zhang, Qiong Sun, Guangming Yang, Meng Ni*. Modeling of direct carbon solid oxide fuel cell with H2O and CO2 as gasification agents. Int. J. Hydrogen Energy 2017 42:15641-15651.

担任《J. Power Sources》、《Energy Convers Managem》、《Energy》、《Int. J. Hydrogen Energy》等期刊审稿人。

[1]熔融碳酸盐直接碳燃料电池的机理模拟及性能多目标优化，No.51406091，国家自然科学基金，2015.01-2017.12.

[2]固体氧化物电解池梯度复合电极物质输运特性研究，No.11347173，国家自然科学基金，2014.01-2014.12.

[3]熔融碳酸盐直接燃料电池的阳极反应机理及性能多目标优化，No.LQ14E060001，浙江省自然科学基金，2014.01-2016.12.

[4]熔融碳酸盐直接碳燃料电池阳极反应机理及性能优化的研究， No.2013A610139，宁波市自然科学基金.

[5] 熔融碳酸盐直接碳燃料电池的反应机理与性能综合优化，No.Y201326937， 浙江省教育厅科研计划项目.

申请国家专利10余项。