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姓名: 雷海燕
性别:
英文名: Lei Haiyan
人才称号:
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:
邮箱: leihy@tju.edu.cn 办公地点: 天大澳门黄金城在线平台热动力大楼34-336, 300072
传真: +86(0)22 27401830 办公电话: +86(0)22 27401830
主要学历: 2005 –2011, 天津大学环境科学与工程学院供热通风及空调工程专业,获工学博士
2000 –2003, 天津大学澳门黄金城在线平台热能工程系热能工程专业,获工学硕士
1993 –1997, 西安建筑科技大学环境工程系供热通风及空调工程专业,获工学学士

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年入选国家首届“国际清洁能源拔尖创新人才”项目
2017年 瑞典Malardalen University访问学者
2003 –至今, 天津大学,澳门黄金城在线平台热能工程系
2011–2012, 冰岛国家能源局,国家公派访问学者
2004/04-2004/10,冰岛联合国大学地热学院,地热利用研修

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
4、地热井下换热器技术

主要讲授课程: 1、工程传热学
2、能源管理与规范
3、能源与环境
4、能源化学

主要学术兼职: 1、负责天津大学—冰岛雷克雅未克大学双学位硕士交换生项目”
2、 冰岛雷克雅未克大学客座教授


主要学术成就: 2017年入选国家留学基金委首届“国际清洁能源拔尖创新人才”项目
作为负责人承担国家重点研发项目,国家自然科学基金项目4项,参与国家和省部级科研项目10余项, 发表国内外研究论文40多篇。

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),项目负责人
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),项目负责人
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), 项目负责人
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),项目负责人。
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),项目参加人。
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: [1]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, 109546.
[2]Bu S B, Lei H Y*, Dai C S. Experiment of the Influence of Temperature Boundary on the Migration of Underground Contaminants[C]//GRC Transactions (44) 2020.
[3]Lei H Y*, Lu J, Pan L H, Dai C S. T2Well Simulation of Heat Transfer in a Deep Geothermal Single well[C]// GRC Transactions (44) 2020.
[4]Lei H Y, Han J L, Lu J H, Dai C S*. A transient method for measuring the thermal conductivity of a cylindrical rod[J]. Heat Transfer Research, 2019, 51: 407-418.
[5]Lei H Y, Lu J H, Dai C S*. Simulation of Advection-Diffusion Problems with a Unified Lattice Boltzmann Equation[J]. GRC Transactions (43)2019: 969-976.
[6]Li F, Dai C S, Lei H Y*. Review of Groundwater Flow Velocity Measurement Method[J]. GRC Transactions (43)2019: 723-734.
[7]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, Reykjavik, Iceland.
[8]Dai C S, Li J S, Shi Y, Zeng L, Lei H Y*. Experiment on heat extraction from a deep geothermal well using a downhole coaxial open loop design[J]. Applied Energy, 2019, 252: 113447.
[9]Dai C S, Lei H Y*, Li J S. Heat Transfer Experiment of a Deep Downhole Heat Exchanger[C]//Proceedings, 44th Workshop on Geothermal Reservoir Engineering Stanford University, Stanford, California, February 11-13, 2019.
[10]Lu J H, Lei H Y, Dai C S. 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
[11]Lu J H, Lei H Y, Dai C S. Analysis of Henry’s law and a unified lattice Boltzmann equation for conjugate mass transfer problem[J]. Chemical Engineering Science, 199 (2019): 319-331.
[12]Lu J H, Lei H Y, Dai C S. 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(1-1): 013307.
[13]Cheng H J, Lei H Y, Zeng L. 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.
[14]Cheng H J, Lei H Y, Dai C S. Experimental investigation of single-phase natural circulation in a mini-loop driven by heating and cooling fluids[J]. Experimental Thermal and Fluid Science, 103 (2019): 182-190.
[15]Cheng H J, Lei H Y, Dai C S. Lattice Boltzmann equation for mass transfer in multi solvent systems[J]. International Journal of Heat and Mass Transfer 132 (2019): 519-528.
[16]Lei H Y, Cui J, Dai C S, Dong L K. Particle Deposition in Porous Geothermal Reservoir[J]. GRC Transactions, 2018, 42(1): 1799-1805.
[17]Cheng H J, Lei H Y, Dai C S. 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.
[18]Lu J H, Lei H Y, Dai C S. 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.
[19]Lu J H, Lei H Y, Dai C S. A unified thermal lattice Boltzmann equation for conjugate heat transfer problem[J]. International Journal of Heat and Mass Transfer, 2018, 126: 1275-1286.
[20]Lu J H, Lei H Y, Dai C S. 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.
[21]Lu J H, Lei H Y, Dai C S. A lattice Boltzmann algorithm for simulating conjugate heat transfer through virtual heat capacity correction[J]. International Journal of Thermal Sciences, 2017, 116: 22-31.
[22]Lei H Y*, Cui M J, Dai C S, et al. Experimental study of migration of micro particles in porous media[J]. Journal of University of Chinese Academy of Sciences, 2017, 34(2): 251-258.
[23]Li C F, Dai C S, Lei H Y*, et al. Deposition and transportation characteristics of suspended micro particles in water through a heated porous media column[J]. CIESC Journal, 2016, 67(4): 1433-1439.
[24]Dai C S, Li M, Lei H Y*, Wang S X. Numerical simulation of natural convection between hot and cold micro tubes in a cylinder enclosure. International Journal of Thermal Sciences, 2015, 95:115-122.
[25]Cui M J, Lei H Y*, Dai C S. Particle deposition in porous media: A review. Transactions-Geothermal Resources council, 2015, 39(1): 645-649.
[26]Dai C S*, Li Q, Lei H Y. Instability of poiseuille flow in a channel filled with multi-layer porous media. Journal of Porous Media, 2015, 18(2): 165-177.
[27]Lei H Y,Dai C S*. Study of thermal performance of coaxial type borehole heat exchangers with different back fill materials. Transactions-Geothermal Resources council, 2014, 38(1): 221-226.
[28]Wang Q X, Lei H Y, Wang S X, Dai C S*. Natural convection around a pair of hot and cold horizontal micro tubes at low Rayleigh numbers. Applied Thermal Engineering, 2014, 72(1): 114-119
[29]Lei H Y, Zhu J L*. Numerical modeling of exploitation and reinjection of the Guantao geothermal reservoir in Tanggu District, Tianjin, China. Geothermics, 2013, 48, 60-68.
[30]Lei H Y*, Dai C S. Comparative experiment of different back fill grouts for concentric ground heat exchangers. GRC Transactions, 2013, 37(1): 597-600.
[31]Lei H Y*, Liu X Z, Dai C S. Experiment of Heat Transfer in Downhole Heat Exchangers with a Promoter Pipe. GRC Transactions, 2012, 36(1):255-258.
[32]Dai C S*, Liu X Z, Lei H Y. Natural convection modeling in an open-ended square cavity partially filled with porous media. GRC Transactions, 2012, 36(1): 111-114.
[33]Zhu J L, Zhu X M, Lei H Y*. Analysis of impact of pressure compensation between geothermal wells on reinjection efficiency. Acta Energiae Solaris Sinica, 2012, 33(1):56-62.
[34]朱家玲, 朱晓明, 雷海燕*, 地热回灌井间压差补偿对回灌效率影响的分析. 太阳能学报, 2012, 33(1): 56-62.
[35]Lei H Y, Dai C S. Analysis of heat transfer of different utilization ways in shallow geothermal energy applications. GRC Transactions, 2011, 35(1): 1115-1117
[36]Lei H Y*, Zhu N. Analysis of thermal response test in Tianjin, China. GRC Transactions, 2010, 34(1):859-862.
[37]Lei H Y, Zhu J L. Modeling of exploitation and reinjection of porous medium geothermal reservoir. Acta Energiae Solaris Sinica, 2010, 31(12):1633-1638.
[38]雷海燕*,朱家玲, 孔隙型地热采灌开发方案的数值模拟研究. 太阳能学报, 2010, 31(12): 1633-1638.
[39]雷海燕*,朱家玲,滨海新区东营组地热热储回灌优化方案的研究. 太阳能学报,2009, 30(12): 1678-1682.
[40]Lei H Y*, Zhu N., Analysis of phase change materials used for borehole fill materials. GRC Transactions, 2009, 33(1): 83-88.
[41]雷海燕,李惟毅,郑宗和,污泥的太阳能干燥实验研究. 太阳能学报,2004, 25(4): 479-482.
[42]雷海燕, 刘雪玲, 固体吸附式除湿空调系统及其研究进展. 天津理工大学学报, 2005. 21(3):49-51.
[43]雷海燕,李惟毅,李兆力, 地热温室供热节能技术的研究. 河北工业大学学报,2004, 33(6): 98-101.
[44]Lei H Y*, Zhu J L. study of the optimal exploitation and reinjection in the Dongying geothermal reservoir in Tianjin Binhai Area, China. pp1-5, World Geothermal Congress, Bali, Indonesia, April 25-29, 2010.
[45]Lei H Y*, Valdimarsson P. District heating modeling and simulation. 34th Workshop Geothermal Reservoir Engineering, Stanford, USA, Feb. 09-11, 2009.
[46]Lei H Y, Zhu J L*. Simulation of porous medium geothermal reservoir characteristics with exploitation and reinjection in Tianjin, China. TOUGH Symposium, Berkeley, USA, Sept.14-16, 2009.
[47]Zhu J L, Lei H Y*. Analysis of the doublet well distance effects in a porous medium geothermal reservoir in Tianjin, China. TOUGH Symposium, Berkeley, USA, Sept.14-16, 2009.

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