一、基本信息:
学位:博士研究生
职称:讲师、硕士生导师
电子邮箱:zhangcy@dgut.edu.cn
联系方式:18307095821(本人),13869510259(课题组在读研究生)
招生专业:能源动力、动力工程及工程热物理;同时欢迎环境工程、自动化、计算机等工科背景考生调剂。
二、教育、工作经历:
2020年9月-至今,东莞理工学院化学工程与能源技术学院,讲师
2015年9月-2020年4月,慕尼黑工业大学,机械工程,博士
2012年9月-2014年12月,天津大学,动力机械及工程,硕士
2008年9月-2012年6月,哈尔滨工程大学,轮机工程,学士
三、研究领域:
以第一作者或通讯作者在《Energy》《Energy Conversion and Management》《Aerospace Science and Technology》《Applied Thermal Engineering》等国际权威学术期刊及重要国际学术会议上发表论文近二十篇。担任多个国际权威期刊的审稿人,并参与多项国家自然科学基金项目及企业横向课题,现主持拔尖博士科研启动基金项目和企业横向课题。主要研究方向包括余热回收、卡诺电池、热力系统集成与优化、以及能源技术的生命周期评价。
四、代表性研究成果:
(一)代表性论文/论著
1. Chengyu Zhang, Chuanzhen Su, Shulan Hu, et al. Environmental and life cycle assessment of organic Rankine cycle technology for industrial waste heat recovery. Journal of Environmental Chemical Engineering 2025;13:117758.
2. Chengyu Zhang, Guorui Ling. Multiphysics simulation and optimization of baffle geometry for enhanced performance in automotive thermoelectric generator systems. Results in Engineering 2025;27:105822.
3. Chengyu Zhang, Guopeng Yu, Youcai Liang, et al. Exploration and performance assessment of recuperated rotorcraft powerplant utilizing hydrogen as fuel. Energy Conversion and Management 2025;336:119872.
4. Chengyu Zhang, Guorui Ling, Lei Li, et al. Fluid selection and parametric analysis of organic Rankine cycle applicable to the turboshaft engine with a recuperator. Energy 2024;308:132816.
5. Chengyu Zhang, Lei Li, Xiaojuan Guo, et al. Potential analysis of a waste heat recovery combined system based on recuperator and organic Rankine cycle on rotorcraft powerplant. Case Studies in Thermal Engineering 2024;55:104136.
6. Chengyu Zhang, Volker Gümmer. Multi-objective optimization and system evaluation of recuperated helicopter turboshaft engines. Energy 2020; 191:116477.
7. Chengyu Zhang, Volker Gümmer. Performance assessment of recuperated rotorcraft powerplants: Trade-off between fuel economy and weight penalty for both tubular and primary surface recuperators. Applied Thermal Engineering 2020;164:114443.
8. Hua Tian, Chengyu Zhang, Xiaoning Li, et al. Experimental investigation on diesel engine’s waste heat capacity under mapping characteristics. SCIENCE CHINA Technological Sciences 2015;58: 9-18.
9. Chengyu Zhang, Volker Gümmer. High temperature heat exchangers for recuperated rotorcraft powerplants. Applied Thermal Engineering 2019;154:548-561.
10. Chengyu Zhang, Volker Gümmer. The Potential of helicopter turboshaft engines incorporating highly effective recuperators under various flight conditions. Aerospace Science and Technology 2019;88:84-94.
11. Chengyu Zhang, Volker Gümmer. Optimization design analysis of primary surface recuperator for rotorcraft powerplant applications. Proceedings of ASME Turbo Expo 2019, GT2019-90842.
12. Chengyu Zhang, Martin Kerler, Volker Gümmer. Evaluation of the fuel saving potential regarding recuperated helicopter flight conditions. Proceedings of ASME Turbo Expo 2018, GT2018-75637.
13. Chengyu Zhang, Gequn Shu, Hua Tian, et al. Comparative study of alternative ORC-based combined power systems to exploit high temperature waste heat. Energy Conversion and Management 2015;89:541-554.
14. Gequn Shu, Chengyu Zhang, Hua Tian, et al. Simulation analysis of CO2 Brayton cycle for engine exhaust heat recovery under various operating loads. 天津大学学报(英文版)2015;21: 193-198.
15. Chengyu Zhang, Gequn Shu, Hua Tian, et al. Theoretical analysis of a combined thermoelectric generator (TEG) and dual-loop organic Rankine cycle (DORC) system using for engines’ exhaust waste heat recovery. SAE (Society of Automotive Engineers) World Congress &Exhibition, April 8-10, 2014, Detroit, United States, paper number 2014-01-0670.
16. Chengyu Zhang, Gequn Shu, Hua Tian, et al. Theoretical analysis of engine waste heat recovery system based on CO2 Brayton and organic Rankine cycle. The 9th International Green Energy Conference (IGEC-IX). May 25-28, 2014, Tianjin, China, pp. 216-224.
(二)科研项目
1. 广东省教育厅教育科学规划课题(教育综合改革专项):新时代卓越工程师培养机制优化与校企协同模式研究
2. 莞工-保亭万家燃气高效应用与环境评估产学研合作项目
(三)专利
1. 张承宇等,一种电动窗帘(专利号:ZL 202322578035.0)
2. 张承宇等,一种温差发电波纹回热器及燃气轮机(申请号:2025112246138)
3. 张承宇等,一种全生命周期温差发电控制方法及装置(申请号:202511261050X)
4. 张承宇等,一种朗肯型卡诺电池动态自适应控制方法及系统(申请号:2025118152331)
五、获奖、荣誉称号:
1. 第七届全国高校混合式教学设计创新大赛校内选拔赛二等奖
2. 优秀校级通识核心课程教师
3. 优秀班主任
Chengyu Zhang
Ⅰ、Basic information:
Degree:Ph.D.
Job Title:Lecturer, Master’s Supervisor
Email address:zhangcy@dgut.edu.cn
Contact number:18307095821 (myself), 13869510259 (current graduate student in the research group)
Admission Majors: Energy and Power Engineering; Power Engineering and Engineering Thermophysics. Applicants with engineering backgrounds in Environmental Engineering, Automation, Computer Science, and related disciplines are also welcome to apply through adjustment.
Ⅱ、Education and work experience:
Sep. 2020-Present: Lecturer, School of Chemical Engineering and Energy Technology, Dongguan University of Technology, China
Sep. 2015-Apr. 2020: Ph.D. in Mechanical Engineering, Technical University of Munich (TUM), Germany
Sep. 2012-Dec. 2014: M.S. in Power Machinery and Engineering, Tianjin University, China
Sep. 2008-Jun. 2012: B.S. in Marine Engineering, Harbin Engineering University, China
Ⅲ、Research Interests
Dr. Zhang has published nearly twenty papers as the first or corresponding author in leading international journals and major conferences, including Energy, Energy Conversion and Management, Aerospace Science and Technology, and Applied Thermal Engineering. Dr. Zhang also serves as a reviewer for multiple international journals and has been involved in several projects funded by the National Natural Science Foundation of China (NSFC) and industry-sponsored research programs.
Currently, Dr. Zhang leads a Distinguished Ph.D. Start-up Research Fund project and an industry-funded collaborative project. Research interests include waste heat recovery, Carnot batteries, thermal system integration and optimization, and life-cycle assessment (LCA) of energy technologies.
Ⅳ、Representative research achievements:
(Ⅰ)Representative papers/books
1. Chengyu Zhang, Chuanzhen Su, Shulan Hu, et al. Environmental and life cycle assessment of organic Rankine cycle technology for industrial waste heat recovery. Journal of Environmental Chemical Engineering 2025;13:117758.
2. Chengyu Zhang, Guorui Ling. Multiphysics simulation and optimization of baffle geometry for enhanced performance in automotive thermoelectric generator systems. Results in Engineering 2025;27:105822.
3. Chengyu Zhang, Guopeng Yu, Youcai Liang, et al. Exploration and performance assessment of recuperated rotorcraft powerplant utilizing hydrogen as fuel. Energy Conversion and Management 2025;336:119872.
4. Chengyu Zhang, Guorui Ling, Lei Li, et al. Fluid selection and parametric analysis of organic Rankine cycle applicable to the turboshaft engine with a recuperator. Energy 2024;308:132816.
5. Chengyu Zhang, Lei Li, Xiaojuan Guo, et al. Potential analysis of a waste heat recovery combined system based on recuperator and organic Rankine cycle on rotorcraft powerplant. Case Studies in Thermal Engineering 2024;55:104136.
6. Chengyu Zhang, Volker Gümmer. Multi-objective optimization and system evaluation of recuperated helicopter turboshaft engines. Energy 2020; 191:116477.
7. Chengyu Zhang, Volker Gümmer. Performance assessment of recuperated rotorcraft powerplants: Trade-off between fuel economy and weight penalty for both tubular and primary surface recuperators. Applied Thermal Engineering 2020;164:114443.
8. Hua Tian, Chengyu Zhang, Xiaoning Li, et al. Experimental investigation on diesel engine’s waste heat capacity under mapping characteristics. SCIENCE CHINA Technological Sciences 2015;58: 9-18.
9. Chengyu Zhang, Volker Gümmer. High temperature heat exchangers for recuperated rotorcraft powerplants. Applied Thermal Engineering 2019;154:548-561.
10. Chengyu Zhang, Volker Gümmer. The Potential of helicopter turboshaft engines incorporating highly effective recuperators under various flight conditions. Aerospace Science and Technology 2019;88:84-94.
11. Chengyu Zhang, Volker Gümmer. Optimization design analysis of primary surface recuperator for rotorcraft powerplant applications. Proceedings of ASME Turbo Expo 2019, GT2019-90842.
12. Chengyu Zhang, Martin Kerler, Volker Gümmer. Evaluation of the fuel saving potential regarding recuperated helicopter flight conditions. Proceedings of ASME Turbo Expo 2018, GT2018-75637.
13. Chengyu Zhang, Gequn Shu, Hua Tian, et al. Comparative study of alternative ORC-based combined power systems to exploit high temperature waste heat. Energy Conversion and Management 2015;89:541-554.
14. Gequn Shu, Chengyu Zhang, Hua Tian, et al. Simulation analysis of CO2 Brayton cycle for engine exhaust heat recovery under various operating loads. 天津大学学报(英文版)2015;21: 193-198.
15. Chengyu Zhang, Gequn Shu, Hua Tian, et al. Theoretical analysis of a combined thermoelectric generator (TEG) and dual-loop organic Rankine cycle (DORC) system using for engines’ exhaust waste heat recovery. SAE (Society of Automotive Engineers) World Congress &Exhibition, April 8-10, 2014, Detroit, United States, paper number 2014-01-0670.
16. Chengyu Zhang, Gequn Shu, Hua Tian, et al. Theoretical analysis of engine waste heat recovery system based on CO2 Brayton and organic Rankine cycle. The 9th International Green Energy Conference (IGEC-IX). May 25-28, 2014, Tianjin, China, pp. 216-224.
(Ⅱ)Scientific research project
1.Educational Science Planning Project of the Guangdong Provincial Department of Education (Comprehensive Education Reform Program): Optimization of the Training Mechanism for Outstanding Engineers in the New Era and the University–Industry Collaborative Model
2.Industry–University–Research Collaborative Project between Dongguan University of Technology and Baoting Wanjia Gas Company: High-Efficiency Utilization of Natural Gas and Environmental Impact Assessment
(Ⅲ)Patents
1. Zhang Chengyu, et al. An Electric Curtain, Patent No.: ZL 202322578035.0
2. Zhang Chengyu, et al. A Thermoelectric Corrugated Recuperator and Gas Turbine, Application No.: 2025112246138
3. Zhang Chengyu, et al. A Full Life-Cycle Thermoelectric Power Generation Control Method and Device, Application No.: 202511261050X
4. Zhang Chengyu, et al. A Dynamic Adaptive Control Method and System for a Rankine-Type Carnot Battery, Application No.: 2025118152331
Ⅴ、Awards and honorary titles:
1. Second Prize, University-Level Selection of the 7th National College Blended Teaching Design Innovation Competition
2. Outstanding University-Level General Education Core Course Instructor
3. Outstanding Class Advisor
