Research interests：

Proton exchange membrane fuel cell system simulation analysis, covering fuel cell stack transient multiphase flow analysis, auxiliary subsystem transient simulation analysis, such as membrane humidifier, air compressor, hydrogen circulation pump, radiator, etc., research objectives include heat transfer Mass transfer analysis, hydrothermal management issues, cold start strategies, system transient response and control strategies.

 

Publications：

1. Yang Z, Du Q, Huo S, et al. Effect of membrane electrode assembly design on the cold start process of proton exchange membrane fuel cells. Int J Hydrogen Energy, 2017, 42(40): 25372-25387.

2. Yang Z, Liu Z, Fan L, et al. Modeling of Proton Exchange Membrane Fuel Cell System Considering Various Auxiliary Subsystems. The Energy and Sustainability 2018 Symposium. Springer, Cham, 2018: 18-33.

3. Yang Z, Du Q, Jia Z, et al. A comprehensive proton exchange membrane fuel cell system model integrating various auxiliary subsystems. Appl energy. Under review.

4. Jiang Y, Yang Z, Jiao K, et al. Sensitivity analysis of uncertain parameters based on an improved proton exchange membrane fuel cell analytical model. Energy Convers Manag, 2018, 164: 639-654.

5. Wu C, Yang Z, Huo S, et al. Modeling and optimization of electrode structure design for solid oxide fuel cell. Int J Hydrogen Energy, 2018, 43(31): 14648-14664.

6. Wang B, Wu K, Yang Z, et al. A quasi-2D transient model of proton exchange membrane fuel cell with anode recirculation. Energy Convers Manag, 2018, 171: 1463-1475.

7. Yang Z, Liu Z, Fan L, et al. Modeling of Proton Exchange Membrane Fuel Cell System Considering Various Auxiliary Subsystems. Energy and Sustainability 2018, University of Windsor, Canada, June 21-22, 2018.

8. 杨子荣，杜青等. 微孔层憎水性对燃料电池冷启动性能影响. 中国工程热物理学会传热传质学术会议，2017.

email：zryang@tju.edu.cn