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姓名: 王轩
性别:
英文名: Wang Xuan
人才称号:
职称: 讲师
职务: 专业: 动力机械及工程
所在机构: 天津大学机械学院 个人主页:
邮箱: 办公地点: 34楼412
传真: 办公电话:
主要学历: 2008/9-2012/06本科 吉林大学 热能与动力工程
2009/09-2012/06本科二学位 吉林大学 工商管理
2012/09-2014/09硕士 天津大学 动力机械及工程
2014/09-2019/01博士 天津大学 动力机械及工程
2017.09-2018.10美国劳伦斯伯克利国家实验室联合培养

主要学术经历: 2019年至今 天津大学机械学院工作

主要研究方向: 热动力循环仿真及智能控制,热管理技术,分布式能源系统

主要讲授课程:

主要学术兼职:

主要学术成就:

主要科研项目: 国家自然科学基金青年项目
博士后站前特别资助
711研究所超临界CO2发电系统动态特性及控制策略仿真研究
广西玉柴内燃机余热回收系统开发

代表性论著: [1]Wang X, Wang R, Jin M, et al. Control of superheat of organic Rankine cycle under transient heat source based on deep reinforcement learning [J]. Applied Energy, 2020, 278, 115637.
[2]Wang X, Tian H, Yan FY, et al. Optimization of a distributed energy system with multiple waste heat sources and heat storage of different temperatures based on the energy quality [J]. Applied Thermal Engineering, 2020, 181: 115975.
[3]Wang X, Shu G, Tian H, et al. Dynamic performance comparison of different cascade waste heat recovery systems for internal combustion engine in combined cooling, heating and power [J]. Applied Energy, 2020, 260: 114245.
[4]Wang X, Shu G, Tian H, et al. Operation performance comparison of CCHP systems with cascade waste heat recovery systems by simulation and operation optimization [J]. Energy, 2020, 206, 118123.
[5]Wang X, Jin M, Feng W, et al. Cascade energy optimization for waste heat recovery in distributed energy systems [J]. Applied Energy, 2018, 230: 679-695.
[6]Wang X, Shu G, Tian H, et al. Effect factors of part-load performance for various Organic Rankine cycles using in engine waste heat recovery [J]. Energy Conversion and Management, 2018, 174: 504-515.
[7]Wang X, Shu G, Tian H, et al. The effects of design parameters on the dynamic behavior of organic ranking cycle for the engine waste heat recovery[J]. Energy, 2018, 147:440-450.
[8]Shu G, Wang X, Tian H, et al. Scan of working fluids based on dynamic response characters for Organic Rankine Cycle using for engine waste heat recovery[J]. Energy, 2017, 133:609-620.
[9]Wang X, Shu G, Tian H, et al. Engine working condition effects on the dynamic response of Organic Rankine Cycle as exhaust waste heat recovery system[J]. Applied Thermal Engineering, 2017, 123: 670-681.
[10]Wang X, Shu G, Tian H, et al. Dynamic analysis of the dual-loop Organic Rankine Cycle for waste heat recovery of a natural gas engine[J]. Energy Conversion & Management, 2017, 148:724-736.
[11]Wang X, Tian H, Shu G. Part-Load Performance Prediction and Operation Strategy Design of Organic Rankine Cycles with a Medium Cycle Used for Recovering Waste Heat from Gaseous Fuel Engines[J]. Energies, 2016, 9(7):527.
[12]Shu G, Wang X, Tian H. Theoretical analysis and comparison of rankine cycle and different organic rankine cycles as waste heat recovery system for a large gaseous fuel internal combustion engine[J]. Applied Thermal Engineering, 2016, 108:525-537.
[13]Shu G Q, Wang X, Tian H, et al. Analysis of an electricity-cooling cogeneration system for waste heat recovery of gaseous fuel engines[J]. Science China Technological Sciences, 2015, 58(1):37-46.

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