【概况】

【教育背景】

2005–2011, 天津大学，供热通风及空调工程专业，研究生，工学博士 2000–2003, 天津大学，热能工程专业，研究生，工学硕士 1993-1997, 西安建筑科技大学，供热通风及空调工程专业，本科生，工学学士

【学术经历】

2018-2020,美国劳伦斯伯克利国家实验室，博士后 2017, 瑞典Malardalen University访问学者 2003-至今， 天津大学，机械工程学院热能工程系 2011-2012， 冰岛国家能源局，国家公派访问学者 2004，冰岛联合国大学地热学院，地热利用研修

【讲授课程】

1.《工程传热学》，本科生课程 2.《能源管理与规范》，本科生课程 3.《能源化学》，本科生课程 4.《Numerical Heat Transfer》，留学生课程 5.《Renewable Energy》，留学生课程

【教学成果】

2021年，指导的本科生（安欣然）毕业设计获得优秀奖。

【研究方向】

1.地热能开发利用 2.地热热储数值模拟 3.地源热泵技术 4.多孔介质传热传质 5.地热井下换热器技术3. 液流电池和超级电容器储能

【学术兼职】

1.天津大学—冰岛雷克雅未克大学双学位硕士交换生项目负责人 2.冰岛雷克雅未克大学客座教授 3.国际高水平期刊《Energy》、《Clean Energy》、《Applied Thermal Energy》、《Geothermics》、《International Journal of Energy Research》、《Journal of Building engineering》等的审稿人。

【科研项目及成果】

1.单井换热取热运行策略与地面供热系统匹配技术，国家重点研发项目子课题（2019-2022），负责人 2.深部岩溶热储—井筒流动换热耦合模型及资源评价， 国家重点研发计划子课题（2018-2021），负责人 3.垂直地下埋管外漏污染物在周期性冷热边界影响下的迁移机理，国家自然科学基金（2017-2020）， 负责人 4.微小颗粒在非等温多孔介质界面处的动力学特征研究，国家自然科学基金（2014-2016），负责人 5.滨海咸水储层渗透性变化及储热特性研究，国家自然科学基金（2014-2016），主要参加人 6.吸收增温型卡林那地热发电循环耦合机理与循环效率研究，天津市科学基金（2013-2016），主要参加人 7.微纳米颗粒相在沉积砂岩层内的运移机理及其热效应研究，国家自然科学基金（2010-2012），主要参加人 8.新近系砂岩地热回灌井口配套技术及设备研究，国家科技部863项目（2006-2008），主要参加人 9.高效传热普及模式地热井下换热器，国家科技部863项目（2007-2010），主要参加人 10.含相变微粒流体的内空间自然对流传热及动力学特征研究，国家自然科学基金（2006-2008），主要参加人 11.滨海新区地热资源可循环利用技术开发与规范研究，天津市科技支撑计划项目（2006-2008），主要参加人 12.井下换热器地源热泵空调系统节能特性及示范研究，天津市科技计划项目，（2006-2008），主要参加人。

【代表性论著】

近五年期刊论文 [1]Li J S, Dai C S, Lei H Y*. The influence of thermal boundary conditions of wellbore on the heat extraction performance of deep borehole heat exchangers[J]. Geothermics, 2022, 100: 102325. (2区) [2]Li J S, Dai C S, Lei H Y*. A Novel Analytical Solution of Borehole Heat Exchangers with Seasonal Heat Load. [J]. Geothermics. (2区) [3]Lu J H, Lei H Y, Shu C, Dai C S*. Analyses and reconstruction of the lattice Boltzmann flux solver [J]. Journal of Computational Physics, 2022, 453: 110923. (2区) . [4]李嘉舒，戴传山，雷海燕*，马非. 我国中深层地热开发技术专利分析[J]. 能源研究与信息,2022, 12. [5]李嘉舒，戴传山，雷海燕*, 马非. 地埋管换热器动态热负荷下地层温度场的解析解 [J]. 水文地质工程地质, 2022. [6]朱琳, 雷海燕, 马非, 戴传山*. 井内嵌入同轴多孔与固体圆柱地下水渗流的解析求解与流型分析[J]. 水文地质工程地质, 2021,48(04):25-31. [7]Lu J H, Lei H Y, Shu C, Dai C S*. The more actual macroscopic equations recovered from lattice Boltzmann equation and their applications [J]. Journal of Computational Physics, 2020, 415: 109546. (2区) [8]G M Miao, H Y Lei, C S Dai*, et al. Natural convection heat transfer characteristics of coupled surface tension outside the tube in a closed cavity[J]. Chemical Industry and Engineering Progress, 2020, 39(S2): 26-35. [9]H Y Lei, J L Han, J H Lu, C S Dai*. A transient method for measuring thermal conductivity of a cylindrical rod[J]. Heat Transfer Research, 2020, 51(5):407-418. (4区) [10]Dai C S, Zeng L, Lei H Y*. Heat transfer enhancement based on single phase natural circulation loops[J]. International Journal of Heat and Mass Transfer 153 (2020) 119601:1-10. (2区Top期刊) [11]L Zeng, H Y Lei, C S Dai*. Heat transfer performance of a convection-enhanced heat transfer element--single-phase natural circulation loop [J]. Chemical Industry and Engineering Progress, 2020, 39(4): 1259-1266. [12]J H Lu, H Y Lei, C S Dai*. An optimal two-relaxation-time lattice Boltzmann equation for solid-liquid phase change: The elimination of unphysical numerical diffusion[J]. International Journal of Thermal Sciences, 2019, 135: 17-29. (2区) [13]J H Lu, H Y Lei, C S Dai*. Analysis of Henry’s law and a unified lattice Boltzmann equation for conjugate mass transfer problem[J]. Chemical Engineering Science, 2019, 199: 319-331. (2区) [14]J H Lu, H Y Lei, C S Dai*. Lattice Boltzmann equation for mass transfer in multi solvent systems[J]. International Journal of Heat and Mass Transfer, 2019, 132: 519-528. (2区) [15]J H Lu, H Y Lei, C S Dai*. Analysis of the typical unified lattice Boltzmann models and a comprehensive multiphase model for convection-diffusion problems in multiphase systems[J]. Physical Review E, 2019, 100(1): 013307(15). (2区) [16]H J Cheng, H Y Lei, L Zeng, C S Dai*. Theoretical and experimental studies of heat transfer characteristics of a single-phase natural circulation mini-loop with end heat exchangers[J]. International Journal of Heat and Mass Transfer, 2019, 128: 208-216. (2区) [17]H J Cheng, H Y Lei, L Zeng, C S Dai*. Experimental investigation of single-phase natural circulation in a mini-loop driven by heating and cooling fluids[J]. Experimental Thermal and Fluid Science. 2019, 103: 182-190. (2区) [18]C S Dai, J S Li, Y Shi, L Zeng, H Y Lei*. Experiment on heat extraction from a deep geothermal well using a downhole coaxial open loop design[J]. Applied Energy, 2019, 252: 113447. (1区Top期刊) [19]J H Lu, H Y Lei, C S Dai*. A unified thermal lattice Boltzmann equation based on MRT model for conjugate heat transfer in anisotropic media[J]. International Journal of Thermal Sciences, 2018, 130: 157-167. (2区) [20]J H Lu, H Y Lei, C S Dai*. A unified thermal lattice Boltzmann equation for conjugate heat transfer problem[J]. International Journal of Heat and Mass Transfer, 2018, 126: 1275-1286. (2区) [21]H J Cheng, H Y Lei, C S Dai*. Thermo-hydraulic characteristics and second-law analysis of a single-phase natural circulation loop with end heat exchangers[J]. International Journal of Thermal Sciences, 2018, 129: 375-384. (2区) [22]戴传山，石宇，郭鑫，雷海燕*，卢金画. 地下水渗流速度测量方法研究进展, 河北工业大学学报. 2018,47(05): 106-111. [23]雷海燕，崔明杰，戴传山*，李琪. 微小颗粒在多孔介质中运移的实验研究, 中国科学院大学学报，2017, 34(2): 251-258. [24]C S Dai, H J Cheng, H Y Lei*, Y K Xu. Local exergy loss rate in convective heat transfer. International Journal of Exergy [J], 2017, 24(2-4): 133-150. (4区) [25]J H Lu, H Y Lei, C S Dai*. A simple difference method for lattice Boltzmann algorithm to simulate conjugate heat transfer [J]. International Journal of Heat and Mass Transfer, 2017, 114: 268-276. (2区Top期刊) [26]J H Lu, H Y Lei, C S Dai*. A lattice Boltzmann algorithm for simulating conjugate heat transfer through virtual heat capacity correction [J]. International Journal of Heat and Mass Transfer, 2017, 116: 22-31. (2区Top期刊) 近五年会议论文 [1]Fang H B, Lei H Y, Dai C S*, Ma F, Zhu J. Numerical simulation of heat transfer in an aquifer with production and injection in a deep geothermal single well [C]. GRC Transactions 2022. August 28-31, 2022, Nevada, USA. [2]C S Dai, W J Hou, J S Li, F Ma, H Y Lei*. Thermal analysis of a district heating system coupled with open loop downhole heat exchanger and heat pump. [C]. GRC Transactions 2022. August 28-31, 2022, Nevada, USA. [3]Lei H Y, Fang H B, Dai, C S*, Tong, Y H Miao, Y H. Numerical Simulation of the Effect of aquifer permeability on the heat output of an open loop geothermal single well system [C]. Energy Proceedings：The 14th International Conference on Applied Energy, Aug 08, 2022 - Aug 12, 2022, Bochum, Germany. [4]Dai C S, Hou W J, Lei H Y*. Optimal design and operation of a geothermal district heating system using deep downhole heat exchanger and heat pump [C]. Energy Proceedings. The 14th International Conference on Applied Energy, Aug 08, 2022 - Aug 12, 2022, Bochum, Germany. [5]H J Li, H Y Lei, C S Dai*. Simulation of Contaminant Migration Outside the Borehole Heat Exchanger using Lattice-Boltzmann Method [C]. Energy Proceedings. The 13th International Conference on Applied Energy, Nov. 29 - Dec. 2, 2021, Bangkok, Thailand. [6]D Q Zhang, H Y Lei, C S Dai*. Achievement of simulated formation with high temperature gradient at lab-scale [C]. Energy Proceedings. The 13th International Conference on Applied Energy, Nov. 29 - Dec. 2, 2021, Bangkok, Thailand. [7]Xu S Y, Lei H Y, Ma F, Dai C S*. A new measuring probe of ground water velocity based on heat pulse method [C]. Energy Proceedings. The 13th International Conference on Applied Energy, Nov. 29 - Dec. 2, 2021, Bangkok, Thailand. [8]S B Bu, H Y Lei, C S Dai*. Experiment of the Influence of Temperature Boundary on the Migration of Underground Contaminants[C]//. GRC Transactions, 2020, 44: 235-243. Geothermal Resources Council Annual Meeting 2020, 19-23 October, 2020, USA. [9]H Y Lei, J Lu, L H Pan, C S Dai*. T2Well Simulation of Heat Transfer in a Deep Geothermal Single well[C]//. GRC Transactions, 2020, 44: 1095-1102. Geothermal Resources Council Annual Meeting 2020, 19-23 October, 2020, USA. [10]C S Dai, L Zhu, J H Lu, H Y Lei*, F Ma. A generalized lattice Boltzmann model for solving advection diffusion equations in porous medium[C]//. GRC Transactions, 2020, 44: 1170-1179. Geothermal Resources Council Annual Meeting 2020, 19-23 October, 2020, USA. [11]H Y Lei, S B Bu, C S Dai*. The migration of underground contaminants under the Periodic Operating Conditions of buried Pipes. [C] //. Energy Proceedings. 12th International Conference on Applied Energy (ICAE2020), 1-10, Dec, 2020, Bangkok, Thailand. [12]J Lu, H Y Lei, C S Dai*. Simulation of heat transfer in geothermal reservoir using Lattice-Boltzmann method. [C] //. Energy Proceedings. 12th International Conference on Applied Energy (ICAE2020), 1-10, Dec, 2020, Bangkok, Thailand. [13]Guo W, Lei H Y, Dai C S*. Laboratory experiment of underground contaminants diffusion under the operating conditions of borehole heat exchanger [C]. Proceedings World Geothermal congress 2020. Proceedings World Geothermal Congress 2020+1, April - October 2021, Reykjavik, Iceland. [14]Han J L, Lei H Y, Dai C S*. Numerical Simulation of Migration of Leaked Pollutants in Underground Buried Tube Under Periodic Temperature Boundaries [C]. Proceedings World Geothermal congress 2020. Proceedings World Geothermal Congress 2020+1, April - October 2021 Reykjavik, Iceland. [15]J H LU, C S DAI, H Y LEI*. Measurement of the Groundwater Flow Velocity Based on Heat Pulse Method [C]. Proceedings World Geothermal Congress 2020. Proceedings World Geothermal Congress 2020+1, April - October 2021, Reykjavik, Iceland. [16]C S Dai, J S Li, F Li, J H Lu, H Y LEI*. Experiment and Modeling of Heat Extraction from a Cylindrical Saturated Porous Tank Using a Coaxial Open Loop Design [C]. Proceedings World Geothermal Congress 2020. Proceedings World Geothermal Congress 2020+1, Reykjavik, Iceland, April - October 2021 [17]H Y Lei, W Guo, C S Dai*. Experimental study of a micro-refrigeration system driven by photovoltaic power generation [C]//. Energy Procedia, 2019, 158: 516-521. 10th International Conference on Applied Energy (ICAE2018), 22-25 August 2018, Hong Kong, China [18]C S Dai, Y Shi, L Zeng, J S Li, H Y Lei*. Heat Extraction Performance of a Deep Downhole Heat Exchanger[C]//. Energy Procedia, 2019, 158: 5602-5607. 10th International Conference on Applied Energy (ICAE2018), 22-25 August 2018, Hong Kong, China. [19]F Li, C S Dai, H Y Lei*. Review of groundwater flow velocity measurement method[C]// Transactions - Geothermal Resources Council. 2019, 43(1): 723-734. Geothermal Resources Council Annual Meeting 2019, 15-18 September 2019, Palm Springs, CA, United states. [20]H Y Lei, J H Lu, C S Dai*. Simulation of Advection-Diffusion Problems with a Unified Lattice Boltzmann Equation [C]//. Transactions - Geothermal Resources Council. 2019, 2019, 43(1): 969-976. Geothermal Resources Council Annual Meeting 2019, 15-18 September 2019, Palm Springs, CA, United states. [21]C S Dai, H Y Lei*, J S Li, J L Zhu. Heat Transfer Experiment of a Deep Downhole Heat Exchanger [C]. Stanford Geothermal Workshop. 44th Workshop on Geothermal Reservoir Engineering, Stanford University, Stanford, California, February 11-13, 2019. [22]C S Dai, J S Li, Y Shi, H Y Lei*. An Experimental Test of a Deep Downhole Heat Exchanger in Tianjin, China.[C]// GRC Transactions, 2018, 42: 1909-1913.Geothermal Resources Council Annual Meeting 2018, 14-17 October, 2018,NV, USA. [23]H Y Lei, J Cui, C S Dai*, L K Dong. Particle Deposition in Porous Geothermal Reservoir [C]// GRC Transactions, 2018, 42: 1799-1805. Geothermal Resources Council Annual Meeting 2018, 14-17 October, 2018, NV, USA. [24]石宇, 李嘉舒, 郭威, 雷海燕, 戴传山. 中深层地热井下换热器试验研究. 2018年工程热物理年会传热传质分会，2018年10月12-15日，中国哈尔滨. [25]H Y Lei, M W Li, C S Dai*. Experimental Study of Particle Deposition with Temperature Gradient at the Fluid/Porous Media Interfaces [C]// GRC Transactions, 2017, 41: 155-163. Geothermal Resources Council Annual Meeting 2017, 1-4 October, 2017, Salt Lake City, USA. [26]H Y Lei, L K Dong, C X Ruan, L Y Ren. Study of migration and deposition of micro particles in porous media by Lattice-Boltzmann Method. [C]// Energy Procedia, 2017, 142: 4004-4009. 9th International Conference on Applied Energy (ICAE2017), 21-24 August 2017, Cardiff, UK. [27]H J Cheng, H Y Lei, C S Dai*. Heat Transfer of a Single-Phase Natural Circulation Loop with Heating and Cooling Fluids. [C]// Energy Procedia, 2017, 142: 3926-3931. 9th International Conference on Applied Energy (ICAE2017), 21-24 August 2017, Cardiff, UK. [28]C S Dai, X Guo, J H Lu, H Y Lei*. Thermal Conductivity Measurement of a Bar-like Object. [C]// Energy Procedia, 2017, 142: 3975-3981. 9th International Conference on Applied Energy (ICAE2017), 21-24 August 2017, Cardiff, UK. 发明专利 [1]雷海燕,李嘉舒,张伟,戴传山. 一种采用对流增速管强化换热的中深层单井取热系统[P]. 天津市：CN114294848A,2022-04-08. [2]李嘉舒,雷海燕,戴传山. 中深层地热联合发电系统[P]. 天津市：CN113153673B,2022-09-09. [3]李嘉舒,雷海燕,戴传山. 中深层地热联合发电系统[P]. 天津市：CN113153673A,2021-07-23. [4]戴传山,雷海燕,陈雷,郭鑫,卢金画. 一种高效中深层地热井下取热系统[P]. 天津：CN106322830A,2017-01-11. [5]戴传山,雷海燕,陈雷,郭鑫,卢金画. 一种中深层地热井下取热系统[P]. 天津：CN106247646A,2016-12-21. [6]戴传山,郭鑫,卢金画,雷海燕. 地下水渗流速度及温度的微球测量装置[P]. 天津：CN106199062A,2016-12-07. [7]戴传山,雷海燕. 防止采油井壁结蜡的套管式井下换热器加热系统[P]. 天津：CN103362476A,2013-10-23. 出版专著 [1]《地热发电技术》 参编，华东理工大学出版社 （待出版） [2]《地热能开发与应用技术》，参编，2016年，化学工业出版社 标准修订 参与修订住建部标准《 城镇地热供热工程技术规程CJJ138-2010》。