车辆工程系
dfchen@ustb.edu.cn
土木楼1110
社会/学术兼职:
中国汽车工程学会会员、中国汽车工程学会青年工作委员会会员、中国可再生能源学会会员、中国化学会会员、中国有色金属学会会员、中国氢能百人会会员、河北省燃料电池标准化技术委员会委员
《Energies》客座编辑,《Applied Energy》、《Journal of Energy Chemistry》、《Nano Research》、《Journal of Power Sources》、《IEEE Transactions on Industrial Electronics》、《IEEE Transactions on Intelligent Transportation Systems》、《International Journal of Hydrogen Energy》、《International Journal of Green Energy》、《Recent Advances in Electrical & Electronic Engineering》、《International Journal of Sustainable Energy》《汽车工程》等多个期刊审稿人
教育经历:
2014.08-2020.01 清华大学,车辆与运载学院,动力工程及工程热物理专业,获博士学位
2010.09-2014.06 中南大学,交通运输工程学院,交通设备信息工程专业,获学士学位
工作经历:
2023.07-至 今 必赢bwin官网登录入口2023,必赢bwin官网登录入口2023车辆工程系,副教授
2022.10-2023.06 必赢bwin官网登录入口2023,必赢bwin官网登录入口2023车辆工程系,特聘副教授
2020.01-2022.09 清华大学,车辆与运载学院,博士后/助理研究员
代表性论著:
[1] Dongfang Chen, Pucheng Pei*, Yuehua Li, Peng Ren, Yining Meng, Xin Song, Ziyao Wu. Proton exchange membrane fuel cell stack consistency: Evaluation methods, influencing factors, membrane electrode assembly parameters and improvement measures. Energy Conversion and Management, 2022, 261: 115651. (SCI, IF=10.4, 中科院1区)
[2] Dongfang Chen*, Lyuming Pan, Pucheng Pei*, Xin Song, Peng Ren, Lu Zhang. Cobalt-based oxygen electrocatalysts for zinc-air batteries: Recent progress, challenges and perspectives. Nano Research, 2022, 15(6): 5038-5063. (SCI, IF=9.9, 中科院1区)
[3] Dongfang Chen, Lyuming Pan*, Pucheng Pei*, Shangwei Huang, Peng Ren, Xin Song. Carbon-coated oxygen vacancies-rich Co3O4 nanoarrays grow on nickel foam as efficient bifunctional electrocatalysts for rechargeable zinc-air batteries. Energy, 2021, 224: 120142. (SCI, IF=9.0, 中科院1区)
[4] Dongfang Chen*, Pucheng Pei*, Yining Meng, Peng Ren, Yuehua Li, Mingkai Wang, Xizhong Wang. Novel extraction method of working condition spectrum for the lifetime prediction and energy management strategy evaluation of automotive fuel cells. Energy, 2022, 255: 124523. (SCI, IF=9.0, 中科院1区)
[5] Dongfang Chen*, Pucheng Pei*, Peng Ren, Xin Song, He Wang, Lu Zhang, Mingkai Wang. Analytical methods for the effect of anode nitrogen concentration on performance and voltage consistency of proton exchange membrane fuel cell stack. Energy, 2022, 258: 124850. (SCI, IF=9.0, 中科院1区)
[6] Dongfang Chen, Pucheng Pei*, Xin Song, Peng Ren. Electrochemical impedance equivalent circuit model for zinc-air fuel cells. Journal of Tsinghua University (Science and Technology), 2020, 60(02): 139-146. (EI)
[7] Dongfang Chen, Pucheng Pei*, Xin Song. Aging experimental investigation and mechanism analysis for zinc-air fuel cells. Journal of Tsinghua University (Science and Technology), 2020, 60(11): 895-901. (EI)
[8] Pucheng Pei*, Dongfang Chen, Ziyao Wu, Peng Ren. Nonlinear methods for evaluating and online predicting the lifetime of fuel cells. Applied Energy, 2019, 254: 113730. (SCI, IF=11.2, 中科院1区)
[9] Lyuming Pan, Dongfang Chen*, Pucheng Pei*, Shangwei Huang, Peng Ren, Xin Song. A novel structural design of air cathodes expanding three-phase reaction interfaces for zinc-air batteries. Applied Energy, 2021, 290: 116777. (SCI, IF=11.2, 中科院1区)
[10] Peng Ren, Pucheng Pei*, Dongfang Chen*, Yuehua Li, Ziyao Wu, Lu Zhang, Zizhao Li, Mingkai Wang, He Wang, Bozheng Wang, Xizhong Wang. Novel analytic method of membrane electrode assembly parameters for fuel cell consistency evaluation by micro-current excitation. Applied Energy, 2022, 306: 118068. (SCI, IF=11.2, 中科院1区)
[11] Pucheng Pei*, Yining Meng, Dongfang Chen*, Peng Ren, Mingkai Wang, Xizhong Wang. Lifetime prediction method of proton exchange membrane fuel cells based on current degradation law. Energy, 2023, 265: 126341. (SCI, IF=9.0, 中科院1区)
[12] Peng Ren, Pucheng Pei*, Dongfang Chen*, Lu Zhang*, Yuehua Li, Song Xin, Mingkai Wang, He Wang. Corrosion of metallic bipolar plates accelerated by operating conditions in a simulated PEM fuel cell cathode environment. Renewable Energy, 2022, 194: 1277-1287. (SCI, IF=8.7, 中科院1区)
[13] Pucheng Pei*, Xi Fu, Zijing Zhu, Peng Ren, Dongfang Chen*. Activation of polymer electrolyte membrane fuel cells: Mechanisms, procedures, and evaluation. International Journal of Hydrogen Energy, 2022, 47(59): 24897-24915. (SCI, IF=7.2, 中科院2区)
[14] Wenlong Wu, Dongfang Chen*, Yuehua Li, Jichao Hong, Xiaoming Xu*. Methods for estimating the accumulated nitrogen concentration in anode of proton exchange membrane fuel cell stacks based on back propagation neural network. International Journal of Energy Research, 2022, 46(15): 22530-22540. (SCI, IF=4.6, 中科院2区)
[15] Zhijie Duan, Chen Li, Lili Feng, Shuguang Yu, Zengyou Jiang, Xiaoming Xu, Jichao Hong*, Dongfang Chen*. Investigation on Energy Flow Characteristics of Fuel Cell System Based on Real Vehicle Tests. Energies, 14 (23): 8172. (SCI, IF=3.2, 中科院4区)
[16] Ruifeng Guo, Dongfang Chen*, Yuehua Li, Wenlong Wu, Song Hu, Xiaoming Xu*. Anode Nitrogen Concentration Estimation Based on Voltage Variation Characteristics for Proton Exchange Membrane Fuel Cell Stacks. Energies, 2023, 16(5): 2111. (SCI, IF=3.2, 中科院4区)
[17] Peng Ren, Yining Meng, Pucheng Pei*, Xi Fu, Dongfang Chen*, Yuehua Li, Zijing Zhu, Lu Zhang, Mingkai Wang. Rapid synchronous state-of-health diagnosis of membrane electrode assemblies in fuel cell stacks. Applied Energy, 2023, 330: 120297. (SCI, IF=11.2, 中科院1区)
[18] Yuehua Li*, Fan Yang, Dongfang Chen, Song Hu, Xiaoming Xu. Thermal-physical modeling and parameter identification method for dynamic model with unmeasurable state in 10-kW scale proton exchange membrane fuel cell system. Energy Conversion and Management, 2023, 276: 116580. (SCI, IF=10.4, 中科院1区)
[19] Dongcai Shi, Lang Cai, Caizhi Zhang*, Dongfang Chen, Zehua Pan, Zhe Kang, Yang Liu*, Jiujun Zhang. Fabrication methods, structure design and durability analysis of advanced sealing materials in proton exchange membrane fuel cells. Chemical Engineering Journal, 2023, 454: 139995. (SCI, IF=15.1, 中科院1区)
[20] Chang Chen, Zhiqiang Chen, Junxi Zhong, Xin Song, Dongfang Chen, Shoujie Liu, Weng-Chon Cheong, Jiazhan Li, Xin Tan, Chang He, Jiaqi Zhang, Di Liu, Qiuhua Yuan, Chen Chen, Qing Peng, Yadong Li. Regulating electronic structure of CoN4 with axial Co-S for promoting oxygen reduction and Zn-air battery performance. Nano Research, 2023, 16(4): 4211-4218. (SCI, IF=9.9, 中科院1区)
[21] Fan Yang, Yuehua Li*, Dongfang Chen, Song Hu, Xiaoming Xu*, Evaluation method of oxygen excess ration control under typical control laws for proton exchange membrane fuel cells. International Journal of Hydrogen Energy, 2023. (SCI, IF=7.2, 中科院2区)
[22] Pucheng Pei*, Shangwei Huang, Dongfang Chen, Yuehua Li, Ziyao Wu, Peng Ren, Keliang Wang, Xiaoning Jia. A high-energy-density and long-stable-performance zinc-air fuel cell system. Applied Energy, 2019, 241: 124-129. (SCI, IF=11.2, 中科院1区)
[23] Fan Yang, Xiaoming Xu*, Yuehua Li*, Dongfang Chen, Song Hu, Ziwen He, Yi Du. A Review on Mass Transfer in Multiscale Porous Media in Proton Exchange Membrane Fuel Cells: Mechanism, Modeling, and Parameter Identification. Energies, 2023, 16(8): 3547. (SCI, IF=3.2, 中科院4区)
[24] Peng Ren, Pucheng Pei*, Dongfang Chen, Yuehua Li, He Wang, Xi Fu, Lu Zhang, Mingkai Wang, Xin Song. Micro-current excitation for efficient diagnosis of membrane electrode assemblies in fuel cell stacks: Error analysis and method optimization. Energy Conversion and Management, 2022, 258: 115489. (SCI, IF=10.4, 中科院1区)
[25] Peng Ren, Pucheng Pei*, Yuehua Li, Dongfang Chen, Xi Fu, Zijing Zhu, Lu Zhang, Mingkai Wang. In-situ characterization of gas distribution in proton exchange membrane fuel cell stacks. Energy Conversion and Management, 2022, 269: 116143. (SCI, IF=10.4, 中科院1区)
[26] Peng Ren, Pucheng Pei*, Xi Fu, Yuehua Li, Dongfang Chen, Yining Meng, Zijing Zhu, Xin Song, Lu Zhang, Mingkai Wang. Diagnosis and mechanism analysis of startup-shutdown-induced fuel cell degradation in stack-level. Energy Conversion and Management, 2022, 269: 116140. (SCI, IF=10.4, 中科院1区)
[27] Pucheng Pei*, Mingkai Wang, Dongfang Chen, Peng Ren, Lu Zhang. Key technologies for polymer electrolyte membrane fuel cell systems fueled impure hydrogen. Progress in Natural Science: Materials International, 2020, 30(6): 751-763. (SCI, IF=4.7, 中科院2区)
[28] Peng Ren, Pucheng Pei*, Yuehua Li, Ziyao Wu, Dongfang Chen, Shangwei Huang. Degradation mechanisms of proton exchange membrane fuel cell under typical automotive operating conditions. Progress in Energy and Combustion Science. 2020, 80: 100859. (SCI, IF=29.5, 中科院1区)
发明专利:
[1] 陈东方, 裴普成, 宋鑫. 金属空气燃料电池耐久性综合测试评价方法: ZL202010263777.2.(已授权)
[2] 陈东方, 裴普成, 蒙依宁, 任棚, 宋鑫, 王鹤. 一种用于燃料电池寿命测评的工况提取方法和装置: 202111569172.7.(公开)
[3] 陈东方, 裴普成, 王博正, 任棚, 宋鑫, 王鹤. 一种燃料电池耐久性测评的预检测方法和装置: 202111569452.8.(公开)
[4] 陈东方, 裴普成, 牛祥福, 宋鑫. 基于氧气生成的金属氧气燃料电池调控装置及调控方法: 201910691112.9.(公开)
[5] 陈东方, 裴普成, 牛祥福, 宋鑫. 金属空气燃料电池电解液综合管理系统及方法: ZL201910083722.0.(已授权)
[6] 裴普成, 陈东方. 燃料电池剩余寿命在线预报方法及装置: ZL201710987247.0.(已授权)
[7] 裴普成, 陈东方, 马泽, 王希忠. 一种高性能金属空气燃料电池系统: ZL201610028163.X.(已授权)
[8] 裴普成, 陈东方, 宋鑫. 延长金属空气燃料电池电解液使用时间的方法: ZL201810161588.7.(已授权)
[9] 裴普成, 陈东方, 宋鑫. 金属空气燃料电池的停机方法和金属空气燃料电池系统: 201810428349.3.(公开)
[10] 裴普成, 王明凯, 陈东方, 任棚, 李子钊, 王鹤, 黄尚尉, 宋鑫. 燃料电池耐一氧化碳的阳极空气喷射精确调控方法及系统: ZL202110153818.7.(已授权)
[11] 裴普成, 任棚, 陈东方. 燃料电池堆多片膜电极多参数同步检测方法和装置: ZL202110144753.X. 已授权)
[12] 裴普成, 贾肖宁, 陈东方, 吴子尧, 任棚, 黄尚尉. 燃料电池使用寿命和剩余寿命的预测方法及装置: ZL201810681086.7.(已授权)
[13] 裴普成, 潘律名, 陈东方, 魏一凡. 镁合金阳极材料制备方法及装置: ZL201810332917.X.(已授权)
[14] 裴普成, 任棚, 陈东方, 吴子尧, 谢庄佑, 王博正, 黄尚尉. 燃料电池堆内部漏气故障诊断及定位方法和装置: ZL201910789924.7.(已授权)
[15] 裴普成, 王博正, 陈东方, 黄尚尉, 任棚. 基于类极化特性的燃料电池使用寿命的预测方法及装置: ZL202010303823.7.(已授权)
[16] 裴普成, 王博正, 陈东方, 黄尚尉, 任棚. 基于伏安曲线的燃料电池使用寿命的预测方法及装置: ZL202010303825.6.(已授权)
[17] 裴普成, 王博正, 陈东方, 黄尚尉, 任棚. 燃料电池使用寿命和剩余寿命的倒数预测方法及装置: ZL202010285041.5.(已授权)
[18] 裴普成, 王博正, 陈东方, 黄尚尉, 任棚. 燃料电池使用寿命和剩余寿命的对数预测方法及装置: ZL202010285680.1.(已授权)
[19] 裴普成, 潘律名, 陈东方, 黄尚尉. 金属空气电池催化剂、空气电极及制备方法: ZL201910832855.3.(已授权)
[20] 裴普成, 李子钊, 陈东方, 任棚, 王明凯, 王鹤, 宋鑫. 封闭环境燃料电池系统防漏氢及安全保障方法和装置: ZL202110076843.X.(已授权)
[21] 裴普成, 任棚, 陈东方, 王鹤, 宋鑫, 付熙. 燃料电池堆内部气体分配状态原位表征方法及装置: 202210869646.8.(公开)
[22] 裴普成, 蒙依宁, 陈东方, 任棚, 宋鑫, 王鹤. 基于燃料电池极化曲线变化规律的寿命预测方法和装置: 202111569450.9.(公开)
[23] 裴普成, 宋鑫, 陈东方, 牛祥福, 李子钊. 荧光示踪电池内液体流场分布检测方法、装置及系统: 201811621844.2.(公开)
[24] 毛烁源, 裴普成, 陈东方, 黄尚尉, 王喆正. 金属空气燃料电池燃料自动添加系统: 201811525959.1.(公开)
[25] 裴普成, 黄尚尉, 陈东方, 吴子尧, 任棚, 贾肖宁. 规避金属空气燃料电池停机腐蚀的系统和方法: 201811009500.6.(公开)
[26] 裴普成, 王明凯, 袁星, 任棚, 陈东方, 王鹤, 宋鑫. 燃料电池堆: 中国, 发明专利, 申请号: ZL202110760547.1.(已授权)
[27] 裴普成, 王明凯, 袁星, 任棚, 陈东方, 王鹤, 宋鑫. 用于燃料电池的非纯氢分段纯化处理方法和装置: 中国, 发明专利, 申请号: ZL202110870292.4.(已授权)
[28] Pei Pucheng, Ren Peng, Chen Dongfang. Method and apparatus for simultaneous detection of a plurality of parameters of a plurality of membrane electrode assemblies of fuel cell stack: US20220244319A1.(公开)
[29] Pei Pucheng, Wang Bozheng, Chen Dongfang, Huang Shangwei, Ren Peng. Method and device for predicting service life and remaining life of fuel cell: US20210320312A1.(公开)
[30] Pei Pucheng, Jia Xiaoning, Chen Dongfang, Wu Ziyao, Ren Peng, Huang Shangwei. Method and device for forecasting service life and remaining life of fuel cell: US20200403254A1.(公开)
[31] Pei Pucheng, Ren Peng, Li Yuehua, Wu Ziyao, Chen Dongfang, Huang Shangwei, Jia Xiaoning. Method and apparatus for controlling water flooding failure in fuel cell dual-stack system: US11050070B2.(已授权)
软件著作权:
[1] 车用燃料电池工况谱提取与寿命预测软件V1.0, 2022SR0069465, 2022-01-11.
[2] 质子交换膜燃料电池系统控制仿真软件V1.0, 2021SR0299176, 2021-02-25.
科研项目:
[1] 2023.01-2024.12,中国科协青年人才托举工程项目,30万元,主持,在研
[2] 2023.01-2025.12,国家自然科学基金青年科学基金项目,52202446,大电流和停放加速锌空气燃料电池空气电极老化的机理研究,30万元,主持,在研
[3] 2021.12-2025.11,国家重点研发计划项目子课题,2021YFB4001702,住宅用质子交换膜燃料电池综合供能系统集成关键技术/低氢压下燃料电池堆关键部件设计及开发-燃料电池寿命预测及延寿策略研究,352万元,主持,在研
[4] 2022.04-2023.12,北京市科学技术协会金桥工程种子资金项目,燃料电池膜电极参数检测方法与设备研发及在电堆状态诊断中的应用,2万元,主持,在研
[5] 2021.12-2025.11,国家重点研发计划项目子课题,2021YFB3800405,高性能低成本燃料电池膜电极的产业化制备技术/高性能、低成本、高良品率膜电极的产业化制备技术,175万元,骨干,在研
[6] 2020.11-2023.10,国家重点研发计划项目子课题,2020YFB1506002,车用燃料电池堆及空压机的材料与部件耐久性测试技术及装备研究/车用燃料电池三维在线监测、健康诊断及寿命预测技术研究,275.1万元,骨干,在研
[7] 2020.01-2023.12,国家自然科学基金面上项目,21975143,典型工况下金属极板加速燃料电池老化的机理及缓解措施,65万元,骨干,在研
[8] 2019.01-2020.12,国家重点实验室自主课题,ZZ2019-022,高能密度锌氧燃料电池系统耐久性技术及理论基础,30万元,骨干,已结题
[9] 2017.07-2021.06,国家重点研发计划项目课题,2017YFB0102705,电堆膜电极状态检测和寿命快速测评的方法及技术研究,452万元,骨干,已结题
[10] 2017.01-2020.12,国家自然科学基金面上项目,21676158,燃料电池堆中膜电极参数与性能的关系研究,64万元,骨干,已结题
制定标准:
[1] 燃料电池汽车动力总成模拟氢泄漏及氢系统故障试验方法,中国汽车工程学会团体标准
[2] 燃料电池堆振动测试技术规范,中国汽车工程学会团体标准
[3] 燃料电池发动机高原性能测试模拟试验方法,中国汽车工程学会团体标准
[4] 质子交换膜燃料电池抗反极性能测试方法,中国汽车工程学会团体标准
[5] 质子交换膜燃料电池单电池低温性能测试方法,中国汽车工程学会团体标准
[6] 燃料电池系统用引射器性能测试方法,中国国际科技促进会团体标准
成果与荣誉:
[1] 2022年, 入选中国科协青年人才托举工程
[2] 2022年, 入选北京市科协青年人才托举工程
[3] 2022年, 中国产学研合作促进会产学研合作创新成果奖一等奖,高可靠长寿命燃料电池系统关键技术研发及产业化应用, 陈东方(3/10, 第3完成人)
[4] 2021年, 中国发明协会发明创业奖创新奖一等奖, 基于典型工况分解的车用燃料电池寿命快速测评方法和延寿技术, 陈东方(1/5, 第1完成人)
[5] 2021年, 中国检验检测学会技术创新应用发展成果奖,基于大数据平台的燃料电池全产业智能化检测体系,陈东方(3/13, 第3完成人)
[6] 2020年, 中国可再生能源学会技术发明二等奖, 车用燃料电池寿命快速测评方法和剩余寿命在线调控延长技术, 陈东方(2/4, 第2完成人)
[7] 2020年, 第14届北京发明创新大赛铜奖, 燃料电池寿命快速测评与剩余寿命在线实时预报方法及装置, 陈东方(2/5, 第2完成人)
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