| 姓名: |
雷海燕 |
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| 性别: |
女 |
| 英文名: |
Lei Haiyan |
| 人才称号: |
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| 职称: |
副教授,硕导,博士生副导师 |
| 职务: |
null |
专业: |
工程热物理 |
| 所在机构: |
null |
个人主页: |
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| 邮箱: |
leihy@tju.edu.cn |
办公地点: |
天大机械工程学院热动力大楼34-336, 300072 |
| 传真: |
+86(0)22 27401830 |
办公电话: |
+86(0)22 27401830 |
| 主要学历: |
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
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| 主要学术经历: |
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
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| 主要研究方向: |
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
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| 主要讲授课程: |
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
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| 主要学术兼职: |
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。
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| 主要学术成就: |
1.2021年,开展了国内首个“取热不取(耗)水“的中深层地热单井开式换热系统现场试验。在井底温度65℃,井深1398米的砂岩储层地热井内,实现了连续循环换热取热,延米取热功率较同等条件下闭式地热单井技术高3倍以上。该技术可突破地热资源限制条件,无传统地热利用中的回灌难问题,无需改造现有地热井,经济性和社会效益良好,有很好的推广应用前景。已申请相关专利10余项。
2.2021年,指导的本科生(安欣然)毕业设计获得优秀奖。
3.重构了传统的LBM方程(MAME),提出了对流扩散方程的统一格式
与传统LBM方法不同,重构方程可以实现非结构化网格,大大减少电脑内存,提高运算速度,同时可借助已有商业软件功能,无需迭代计算,稳定性好。提出的对流扩散方程的统一格式可将以往不同物理问题(渗流、溶质扩散、自然对流、相变等)需采用不同的描述方程归结为对流扩散方程的统一格式,简化编程。
4.自主研发了地热热储-井筒耦合传热数值模拟软件GeoEngineC
目前国内尚无自主研发模型及算法的地热热储模拟的软件/程序框架。以往主要使用国外软件如TOUGH2(美国伯克利实验室),OpenGeosys(德国)等,且大多将地热井作为源项处理,我们开发的GeoEngineC是采用改进的LBM方法(LBFS)自行编程,以地热仿真为载体的多物理场数值仿真软件,包含几何创建、材料指定、模型选择、网格剖分、求解器、后处理六大模块,考虑了井筒(小尺度几何特征)的沿程温度和压力等参数变化,可用于计算抽灌井群工作下含水层的压力分布、 考虑自然对流的单井抽灌数值模拟、地热井筒—热储流动与传热耦合模拟、以及地热对井或井群条件下热储层变化的数值模拟。目前软件在持续研发更新中。
5.2017年,入选国家首届“国际清洁能源拔尖创新人才”项目。
6.2011年,论文“Analysis of Different Heat Transfer of Utilization Methods in Shallow Geothermal Energy Applications”获美国地热年会最佳论文奖。
7.2010年,天津市科技支撑项目“新近系孔隙型地热回灌配套钻井技术与地面设备研究及工程应用“获天津市科学技术进步二等奖。
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| 主要科研项目: |
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。
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| 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》。
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