姓 名 史翊翔
技术职务 副教授，博导
办公电话 **
电子邮件 shyx@tsinghua.edu.cn
教育背景03.09-08.07 清华大学热能工程系 博士
07.09-08.03 美国加州大学Irvine分校 公派联合培养 博士
99.09-03.07 清华大学热能工程系 学士
工作履历16.06-至今清华大学热能工程系 副教授，博导
12.06-16.06 清华大学热能工程系 副研究员，博导
11.12-12.06 清华大学热能工程系 副研究员
10.07-11.12 清华大学热能工程系 助理研究员
08.12-09.12 美国麻省理工学院(MIT)机械工程系 博士后
学术兼职清华大学科学技术协会 委员 2016
国际电化学能源科学学会（IAOEES）理事 2015
中国国际科技促进会 理事 2015
研究领域洁净煤发电技术、燃料电池及电化学转化、气体分离与净化
研究概况针对化石能源及可再生能源的高效清洁转化利用，发展图案催化剂反应机理实验鉴别手段以及高温非均相表面基元反应机理的多尺度建模方法，揭示非均相吸附/催化层多组分气体扩散和热/电/质耦合的复杂传递作用机制。开发新型高温固体氧化物直接碳/直接火焰燃料电池发电技术、低能耗中温变压吸附二氧化碳分离与制氢技术及二氧化碳电化学转化技术。
作为负责人承担主要科研项目：
低能耗中温变压吸附H2/CO2分离与净化关键技术与装备开发山西省科技重大专项
可再生能源与天然气融合的复杂能源网络系统稳定性研究 国家重点基础研究发展计划(973 计划)课题
液态锑金属直接碳燃料电池反应机理研究 国家自然科学基金面上项目
液态锑金属阳极直接碳燃料电池发电-储能一体化技术北京市高等学校青年英才计划
液态金属电极直接碳燃料电池反应机理研究及性能优化清华大学自主科研计划基础研究课题
直接多元扩散火焰燃料电池反应机理及数值模拟 国家自然科学基金青年基金
CO2/H2O高温共电解反应机理研究 教育部博士点基金（新教师）
固体氧化物燃料电池数值模拟与性能优化 国家高技术研究发展计划外协课题
基于脱灰分煤燃料的固体氧化物电解质直接碳燃料电池清华大学-剑桥大学-麻省理工学院低碳大学能源联盟(LCEUA)种子基金
基于多孔介质燃烧器的直接火焰燃料电池热电联供系统广东万和新电气合作项目
中温变压吸附工艺开发及优化 北大先锋合作项目
新型变压吸附分离制取高纯氢技术研究 东芝国际合作项目
基于低温催化燃烧-边界层透平的平流层飞艇动力系统中国空间技术研究院合作项目
太阳能热发电技术发展研究 日立（中国）有限公司合作项目
边界层透平样机试制及运行特性研究 哈尔滨汽轮机厂有限责任公司合作项目
中温变压吸附制氧技术开发 北大先锋合作项目
分布式太阳能热电联产系统 江苏华扬集团合作项目
柴油机颗粒捕集器(DPF)氧化再生技术开发石家庄蓝宇净化公司合作项目
奖励与荣誉－清华大学学术新人奖（2016）
－清华大学林枫辅导员奖（2015）
－清华大学221基础研究人才支持计划（2013）
－北京市高校青年英才计划（2013）
－清华大学青年教师教学大赛一等奖（2012）
－清华大学学术新秀（2008）
－ 清华大学优秀博士论文（2008）
－清华大学学生实验室贡献一等奖（2008）
学术成果 International Journals (SCI, peer reviewed)
[1] Yiyang Wu, Yixiang Shi, Yu Luo, Ningsheng Cai. Elementary reaction modeling and experimental characterization of solid oxide direct carbon- assisted steam electrolysis cells. Solid State Ionics, 2016,295:78-89
[2] Yuqing Wang, Hongyu Zeng, Yixiang Shi, Ningsheng Cai. Start-up and operation characteristics of a flame fuel cell unit. Applied Energy, 2016,178:415-421
[3] Xuancan Zhu, Yixiang Shi, Ningsheng Cai. Integrated Gasification Combined Cycle with Carbon Dioxide Capture by Elevated Temperature Pressure Swing Adsorption. Applied Energy.2016, 176:196-208
[4] Yi Yang, Yixiang Shi, Ningsheng Cai.Simultaneous removal of COS and H2S from hot syngas by rare earth metal-doped SnO2 sorbents. Fuel. 2016,181:1020-1026
[5] Yuqing Wang, , Hongyu Zeng, Yixiang Shi, Tianyu Cao, Ningsheng Caia, Xiaofeng Ye, Shaorong Wang. Power and Heat Co-generation by Micro-tubular Flame Fuel Cell on a Porous Media Burner. Energy. 2016, 109:117-123
[6] Wenying Li, Yixiang Shi*, Yu Luo, Yuqing Wang, Ningsheng Cai. Carbon monoxide/carbon dioxide electrochemical conversion on patterned nickel electrodes operating in fuel cell and electrolysis cell modes. International Journal of Hydrogen Energy. 2016,41(6):3762-3773.
[7] Tianyu Cao, Yixiang Shi*, Ningsheng Cai. Liquid Antimony Anode Fluidization within a Tubular Direct Carbon Fuel Cell. Journal of Electrochemical Society, 2016,163(3):F1-F5.
[8] Yonghuang Ye, Yixiang Shi*, Lip Huat Saw, Andrew A.O. Tay. Performance assessment and optimization of a heat pipe thermal management system for fast charging lithium ion battery packs. International Journal of Heat and Mass Transfer. 2016, 92 : 893–903.
[9] Yu Luo, Yixiang Shi*, Wenying Li, Ningsheng Cai. Dynamic electro-thermal modeling of co-electrolysis of steam and carbon dioxide in a tubular solid oxide electrolysis cell. Energy. 2015, 89:637-647.
[10] Yu Luo, Wenying li, Yixiang Shi*, Ningsheng Cai, Xiaofeng Ye, Shaorong Wang, Experimental Characterization and Theoretical Modeling of Methane Production by H2O/CO2 Co-electrolysis in a Tubular Solid Oxide Electrolysis Cell. Journal of Electrochemical Society, 2015. 162 (10) F1129-F1134
[11] Shuang Li, Ana Ribeiro, Yixiang Shi*, Miguel, Moreira, Ningsheng Cai, Alirio Rodrigues. Synthesis, pelleting and performance evaluation of a novel K-promoted γ-alumina/MgAl-layered double oxides composite adsorbent for warm gas H2/CO2 separation. Industrial & Engineering Chemistry Research,2015, 54 (28), 7154–7163
[12] Xi Wang, Yixiang Shi*, Meng Ni, Ningsheng Cai. Mechanistic modeling of NO electrochemical reduction in a micro-tubular cell: Effects of CO2/H2O components and electrochemical promotion. Chemical Engineering, Journal, 2015,280:1-8.
[13] Xuancan Zhu, Yixiang Shi*, Qiang Wang, Ningsheng Cai. Layered double oxide/activated carbon based composite adsorbent for elevated temperature H2/CO2 separation. International Journal of Hydrogen Energy,2015, 40: 9244-9253.
[14] Xi Wang, Yixiang Shi*, Ningsheng Cai. Nitrogen oxide electrochemical reduction characteristics on patterned platinum electrode. Solid State Ionics, 2015, 277:57-64.
[15] Tianyu Cao, Yixiang Shi*, Hongjian Wang, Ningsheng Cai. Numerical Simulation and Experimental Characterization on Performance Evolution of the Liquid Antimony Anode Fuel Cell. Journal of Power Sources, 2015, 284: 536-546.
[16] Yucun Zhou, Hao Wu, Ting Luo, Jianqiang Wang, Yixiang Shi*, Changrong Xia,,Shaorong Wang, Zhongliang Zhan, A nanostructured architecture for reduced-temperature solid oxide fuel cells. Advanced Energy Materials. 2015, **.
[17] Bin Lin, Yixiang Shi*i, Ningsheng Cai. Numerical Investigation on Impacts on Fuel Velocity Distribution Nonuniformity among Solid Oxide Fuel Cell Unit Channels. International of Journal of Hydrogen Energy. 2015.Accepted
[18] Xiaoyu Zheng, Yixiang Shi*, Xi Wang, Ningsheng Cai. Elementary Reaction Modeling of Methane Catalytic Combustor: Effects of hysteresis in Pd-based Catalyst Activity, Combustion Science and Technology, 2015.Accepted
[19] Shuang Li, Yixiang Shi*, Ningsheng Cai. Potassium Promoted γ-alumina Adsorbent from K2CO3 Coagulated Alumina Sol for Warm Gas Carbon Dioxide Separation. ACS sustainable chemistry and engineering. 2015, 3, 111？116
[20] Xiankai Yu, Yixiang Shi*, Ningsheng Cai. Electrochemical Impedance Characterization on Catalytic Carbon Gasification Reaction Process. Fuel,2015,143:499-503.
[21] Wenying Li, Yixiang Shi*, Yu Luo, Yuqing Wang, Ningsheng Cai. Carbon deposition on patterned nickel/yttria stabilized zirconia electrodes for solid oxide fuel cell/solid oxide electrolysis cell modes. Journal of Power Sources,2015,276:26-31.
[22] Xi Wang, Yixiang Shi*, Ningsheng Cai. Theoretical modeling of NO electrochemical reduction on multifunctional layer electrode by alternating/direct current electrolysis, Electrochimica Acta,2015,152:202-215.
[23] Wenying Li, Yixiang Shi*, Yu Luo, Ningsheng Cai. Elementary Reaction Modeling of Solid Oxide Electrolysis Cells: Main Zones for Heterogeneous Chemical/Electrochemical Reactions. Journal of Power Sources. 2015,273:1-13.
[24] Hongjian Wang, Tianyu Cao, Yixiang Shi*, Wei Yuan, Ningsheng Cai. Liquid Antimony Anode Direct Carbon Fuel Cell Fueled with Mass-produced De-ash Coal. Energy, 2014,75:555-559.
[25] Yuqing Wang, Yixiang Shi*, Xiankai Yu, Ningsheng Cai, Jiqing Qian, Shaorong Wang. Experimental Characterization of a Direct Methane Flame Solid Oxide Fuel Cell Power Generation Unit. Journal of Electrochemical Society. 2014 161(14): F1348-F1353;
[26] Tianyu Cao, Hongjiang Wang, Yixiang Shi*, Ningsheng Cai. Direct Carbon Fuel Conversion in a Liquid Antimony Anode Solid Oxide Fuel Cell. Fuel, 2014,135:223-227.
[27] Jianyu Zhang, Yixiang Shi*, Ningsheng Cai. An approximate analytical model of reduction of carbon dioxide in solid oxide electrolysis cell by regular and singular perturbation methods, Electrochimica Acta, 2014,139:190-200.
[28] Yu Luo, Yixiang Shi*, Wenying Li, Meng Ni,？,Ningsheng Cai. Elementary reaction modeling and experimental characterization of solid oxide fuel-assisted steam electrolysis cells. International Journal of Hydrogen Energy, 2014,39(20): 10359–10373.
[29] Yu Luo, Yixiang Shi*,Wenying Li, Ningsheng Cai. Comprehensive modeling of tubular solid oxide electrolysis cell for co-electrolysis of steam and carbon dioxide. Energy, 2014, 70:420-434.
[30] Wenying Li, Yixiang Shi*, Ningsheng Cai. Theoretical modeling of air electrode operating in SOFC mode and SOEC mode: the effects of microstructure and thickness. International Journal of Hydrogen Energy, 2014,39(25): 13738–13750
[31] Yuqing Wang, Yixiang Shi*, Meng Ni, Ningsheng Cai. A Micro Tri-generation System Based on Direct Flame Fuel Cells for Residential Applications. International Journal of Hydrogen Energy, 2014, 39(11):5996-6005..
[32] Yuqing Wang, Yixiang Shi*, Xiankai Yu, Ningsheng Cai. Thermal shock resistance and failure probability analysis on solid oxide electrolyte direct flame fuel cells. Journal of Power Sources, 2014,255(1):377-386.
[33] Yan Zhen, Yixiang Shi*, Shuang Li, Yi Yang, Ningsheng Cai. Elevated Temperature Hydrogen/Carbon Dioxide Separation Process Simulation by Integrating Elementary Reaction Model of Hydrotalcite Adsorbent. International Journal of Hydrogen Energy. 2014, 39(8):3771-3779.
[34] Xiankai Yu; Yixiang Shi*, Hongjian Wang; Ningsheng Cai; Chen Li; Ahmed F Ghoniem. Using Potassium Catalytic Gasification to Improve the Performance of Solid Oxide Direct Carbon Fuel Cells: Experimental Characterization and Elementary Reaction Modeling. Journal of Power Sources. 2014,252:130-137
[35] Hongjian Wang, Yixiang Shi*, Ningsheng Cai. Characteristics of Liquid Stannum Anode Fuel Cell Operated in Battery Mode and CO/H2/Carbon Fuel Mode. 2013, Journal of Power Sources. 2014, 246: 204-212.
[36] Hongjian Wang, Yixiang Shi*， Ningsheng Cai. Polarization characteristics of liquid antimony anode with smooth single crystal solid oxide electrolyte, Journal of Power Sources, 2014, 245: 164 - 170.
[37] Hongjian Wang, Yixiang Shi*, Ningsheng Cai. Effects of Interface Roughness on A Liquid-Sb-anode Solid Oxide Fuel Cell. International Journal of Hydrogen Energy, 38（2013）15379-15387.
[38] Yuqing Wang, Yixiang Shi*, Ningsheng Cai. Integration of Solid Oxide Fuel Cells with Multi-element Diffusion Flame Burners. Journal of Electrochemical Society. 2013, 160: F1241-4.
[39] Shuang Li, Yixiang Shi*, Yi Yang, Yan Zheng and Ningsheng Cai. High performance CO2 adsorbent from interlayer potassium promoted stearate-pillared hydrotalcite Precursors. Energy and Fuels. 2013, 27 (9): 5352–5358.
[40] Xiankai Yu, Yixiang Shi*, Hongjian Wang, Ningsheng Cai, Chen Li, Rumen I. Tomov, Jeffrey Hanna, Bertek A. Glowacki, Ahmed F. Ghoniem, Experimental characterization and elementary reaction modeling of solid oxide electrolyte direct carbon fuel cell, Journal of Power Source 243 (2013) 159-171
[41] Wenying Li, Yixiang Shi*, Yu Luo, Ningsheng Cai. Elementary reaction modeling of CO2/H2O co-electrolysis cell considering effects of cathode thickness. Journal of Power Sources. 2013, 243(1):118-130.
[42] Wenying Li, Hongjian Wang, Yixiang Shi*, Ningsheng Cai, Performance and methane production characteristics of H2O/CO2 co-electrolysis in solid oxide electrolysis cells, International Journal of Hydrogen Energy, 38 (2013) III04-III09
[43] Yixiang Shi*, Yu Luo, Ningsheng Cai, et al. Experimental Characterization and Modeling of the Electrochemical Reduction of CO2 in Solid Oxide Electrolysis Cells. Electrochimica Acta, 2013, 88(1):644-653.
[44] Yonghuang Ye, Yixiang Shi*, Ningsheng Cai, et al. Electro-thermal modeling and experimental validation for lithium ion battery. Journal of Power Sources, 2012,199(1):227-238
[45] Yixiang Shi*, Hongjian Wang, Ningsheng Cai. Direct two-dimensional electrochemical impedance spectra simulation for solid oxide fuel cell. Journal of Power Sources, 2012, 208(6):24-34.
[46] Yixiang Shi*, Ningsheng Cai, Zongqiang Mao, Simulation of EIS Spectra and Polarization Curves Based on Ni/YSZ Patterned Anode Elementary Reaction Models. International Journal of Hydrogen Energy. 2012,37(1):1037-1043.
[47] Yixiang Shi*, Chen Li, Ningsheng Cai. Experimental Characterization and Mechanistic Modeling of Carbon Monoxide Fueled Solid Oxide Fuel Cell. Journal of Power Sources. 2011, 196(13): 5526-5537
[48] Yixiang Shi*, Ningsheng Cai, Chen Li, et al. Simulation of Electrochemical Impedance Spectra of Solid Oxide Fuel Cells Using Transient Physical Models. Journal of Electrochemical Society. 2008, 155(3): B270-B280.
[49] Yixiang Shi*, Ningsheng Cai, Chen Li, et al. Modeling of an anode-supported Ni-SZ|Ni_ScSZ|ScSZ|LSM-ScSZ multiple layers SOFC cell. Part II: Simulation and discussion. Journal of Power Sources, 2007, 172(1): 246-252.
[50] Yixiang Shi*， Ningsheng Cai, Chen Li, et al. Modeling of an anode-supported Ni-SZ|Ni_ScSZ|ScSZ|LSM-ScSZ multiple layers SOFC cell. Part I: Experiments, model development and validation. Journal of Power Sources, 2007, 172(1): 235-245.
[51] Yixiang Shi*, Ningsheng Cai, Chen Li. Numerical modeling of an anode-supported SOFC button cell considering anodic surface diffusion. Journal of Power Sources, 2007, 164(2): 639-648.
[52] Yonghuang, Ye, Yixiang Shi, LH Saw, AAO Tay. An electro-thermal model and its application on a spiral-wound lithium ion battery with porous current collectors. Electrochimica Acta, 2014, 121:143-153.
[53] Hongjian Wang, Tian Yu Cao, Yixiang Shi, Ningsheng Cai. Research progress of new anode of solid oxide electrolyte direct carbon fuel cell. Journal of Inorganic Materials. 2014,29(7):681-686..
[54] Jeff hanna, Wonyong Lee, Yixiang Shi, Ahmed Ghoniem. Fundamentals of electro- and thermochemistry in the anode of solid-oxide fuel cells with hydrocarbon and syngas fuels. Progress in Energy and Combustion Science, 2014,40: 74-111.
[55] Yonghuang Ye; Lip Huat Saw; Yixiang Shi, Karthik Somasundaram, Andrew A. O. Tay. Effect of thermal contact resistances on fast charging of large format lithium ion batteries. Electrochimica Acta, 2014, 134:327-337.
[56] Yonghuang Ye, Yixiang Shi, Lip Huat Saw, Andrew Tay. Simulation and Evaluation of Capacity Recovery Methods for Spiral-wound Lithium Ion Battery. Journal of Power Sources, 243(2013), 779-789.
[57] Tiayu Cao, Yixiang Shi, Ningsheng Cai. Solid oxide electrolysis cell for NOx electrochemical reduction. Progress in Chemistry. 2013, 25(10): 1648-1655
[58] Chen Li, Yixiang Shi, Ningsheng Cai. Carbon Deposition on Nickel Cermet Anodes of Solid Oxide Fuel Cells Operating on Carbon. Journal of Power Sources, 2013, 225 (1) 1-8.
[59] Yonghuang Ye, Yixiang Shi, Andrew A.O. Tay. Electro-thermal Cycle Life Model for Lithium Iron Phosphate Battery. Journal of Power Sources, 2012,217(11),509-518
[60] Chen Li, Yixiang Shi, Ningsheng Cai. Mechanism for carbon direct electrochemical reactions in a solid oxide electrolyte direct carbon fuel cell. Journal of Power Sources, 2011, 196(2): 754-763.
[61] Chen Li, Yixiang Shi, Ningsheng Cai. Effect of contact type between anode and carbonaceous fuels on direct carbon fuel cell reaction characteristics. Journal of Power Sources, 2011, 196(10): 4588-4593.
[62] Cheng Bao, Yixiang Shi, Chen Li, et al. A multi-level simulation platform of natural gas internal reforming solid oxide fuel cell–gas turbine hybrid generation system: Part I. Solid oxide fuel cell model library, Journal of Power Sources, 2010, 4871-4892.
[63] Cheng Bao, Yixiang Shi, Chen Li, Ningsheng Cai, Qingquan Su. Multi-level simulation platform of SOFC–GT hybrid generation system. International Journal of Hydrogen Energy. 2010,35(7): 2894-2899.
[64] Cheng Bao, Yixiang Shi, Chen Li, et al. Mathematical Modeling of Solid Oxide Fuel Cells at High Fuel Utilization Based on Diffusion Equivalent Circuit Model, AIChE Journal, 2010, 56(5): 1363-1371.
[65] Chen Li, Yixiang Shi, Ningsheng Cai. Performance improvement of direct-carbon fuel cell by introducing catalytic gasification process. Journal of Power Sources, 2010, 195(15):4660-4666.
[66] Chen Li, Yixiang Shi, Ningsheng Cai. Elementary reaction kinetic model of an anode-supported solid oxide fuel cell fueled with syngas. Journal of Power Sources, 2010, 195(8): 2266-2282.
专利：
1 一种双功能粘结剂兼酸性气体吸附剂前驱体及其应用 2.7 2016年8月17日
2一种结合冲动作用和边界层效应的混合微型层透平 2.1 2016年8月10日
3 基于液态金属阳极直接碳燃料电池的发电储能一体化装置 3.1 2016年1月19日
4一种利用可再生电力的固体氧化物电解池制天然气的方法 5.X 2015年3月14日
5一种浮体电解质液态储能电池单体结构 0.2 2015年3月19日
6 一种水滑石前驱体吸附剂及其制备方法 8.7 2015年7月3日
7依托固体氧化物电化学池的液态金属碳气化装置及方法 5.1 2015年7月29日
8一种将双功能吸附剂应用于吸附增强式水蒸气重整和水气变换反应的中温变压吸附方法 1.0 2015年3月9日
9一种边界层透平发电装置 7.6 2013年12月11日
10一种用于CO2/H2S与H2混合气体分离的中温变压吸附方法 5.9 2013年5月22日
11 一种平板式直接火焰燃料电池装置 0.6 2012年5月16日
12 基于边界层透平的太阳能热发电系统 0.0 2013年2月27日
13一种直接碳燃料电池反应装置 4.1 2010年3月24日
14一种钮扣固体氧化物燃料电池反应装置 6.0 2010年6月9日
15一种埋管式鼓泡床直接碳燃料电池 9.2 2008年12月3日