游田

土木工程学院 副教授



学科方向
基础设施运维



Email
youtian@mail.sysu.edu.cn



个人简介
中山大学“****”副教授，硕士生导师。清华大学博士，香港理工大学博士后，美国加州大学伯克利分校访问****。主要研究方向：基础设施智能温控技术，能源地下结构，可再生能源利用，建筑节能技术。主持或参与科研项目7项。在Applied Energy (IF=8.848)，Energy Conversion and Management (IF=8.208)，Journal of Cleaner Production (IF=7.246)，Energy (IF=6.082)等JCR一区顶级SCI期刊发表论文20余篇，总引用次数超过736次，h因子达16，i10因子达19。发表国内外会议论文10余篇，中文核心期刊论文7篇。授权国家发明专利2项，软件著作权2项，在顶级学术出版社Springer Nature出版英文专著1部。
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教育经历
2014.09-2017.10，? 清华大学 建筑技术科学系? 工学博士
2011.09-2014.07，? 清华大学 建筑技术科学系? 工学硕士
2007.09-2011.07，? 东北林业大学 建筑环境与设备工程专业? 工学学士
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工作经历
2020.04-至今，? ? ? ??中山大学 土木工程学院? 副教授
2018.01-2020.04， ?香港理工大学 屋宇设备工程学系 ?博士后
2016.02-2017.02， ?美国加州大学伯克利分校 土木与环境工程系 访问****
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研究方向
基础设施智能温控技术，能源地下结构，可再生能源利用，建筑节能技术
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教学活动
《土木工程测量》《国际工程管理》（本科生课程）
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主持科研项目
[1]? ? ?广东省基础与应用基础研究基金区域联合基金-青年基金项目. (2020.10-2023.09)，在研，主持.
[2]???? 广东省基础与应用基础研究基金-面上项目. (2021.01-2023.12)，在研，主持.
[3]? ? ?中山大学“****”引进人才科研启动项目. (2020-2022)，在研，主持.
[4]???? 香港理工大学项目, The Hong Kong Polytechnic University Postdoctoral Fellowships Scheme. (2018.04-2020.04)，已结题，主持.
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学术兼职
[1]???? 受邀担任SCI和SSCI检索期刊Sustainability（IF=2.576）的客座编辑
[2]???? 担任Applied Energy, Energy, Energy Conversion and Management, Applied Thermal Engineering, Geothermics, International Journal of Refrigeration, Energy and buildings等多个SCI期刊审稿人
[3]???? 荣获 Energy (IF=5.537), Applied Thermal Engineering (IF=4.725), Geothermics (IF=3.470)等期刊杰出审稿人
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主要获奖及荣誉
[1]???? 2020，入选中山大学“****”引进人才项目
[2]???? 2015，河南省建设科技进步一等奖
[3]???? 2016，世界暖通空调学生竞赛第三名
[4]???? 2016，博士生国家奖学金
[5]???? 2015，蒋南翔奖学金 (清华大学一等奖学金, 全校本硕博共20名)
[6]???? 2015，清峰“前置式”奖学金 (清华大学研究生共30名)
[7]???? 2014，清华大学优秀毕业生
[8]? ? ?2011，东北林业大学优秀毕业生
[9]???? 2010，本科生国家奖学金
[10]???2008，本科生国家奖学金
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主要英文期刊论文著作
[1]????? W Wu, XT Li, T You. Absorption Heating Technologies: Efficient Heating, Heat Recovery and Renewable Energy (ISBN: 978-981-15-0469-3). Springer, Singapore, 2019. (英文专著)
[2]????? T. You, X. Li*, H. Yang*. Modifications to the conventional design methods for borehole heat exchangers based on a novel response factor model. Energy and Buildings, 2021, 238, 110848. (SCI, IF2019=4.867, JCR一区, 中科院二区)
[3]????? T. You, H. Yang*. Feasibility of ground source heat pump using spiral coil energy piles with seepage for hotels in cold regions. Energy Conversion and Management, 2020, 205, 112466. (SCI, IF2019=8.208, JCR一区, 中科院一区)
[4]????? T. You, H. Yang*. Influences of different factors on the three-dimensional heat transfer of spiral energy pile group with seepage. International Journal of Low-Carbon Technologies, 2020, 00, 1-13. (SCI, IF2019=1.622, JCR四区, 中科院四区)
[5]????? T. You*, X. Li, S. Cao, H. Yang*. Soil thermal imbalance of ground source heat pump systems with spiral-coil energy pile groups under seepage conditions and various influential factors. Energy Conversion and Management,?2018, 178: 123-136. (SCI, IF2019=8.208, JCR一区, 中科院一区)
[6]? ? ??T. You, B. Wang, X. Li, et al. A general distributed parameter model for ground heat exchangers with arbitrary shape and type of heat sources. Energy Conversion and Management, 2018, 164: 667-679. (SCI, IF2019=8.208, JCR一区, 中科院一区)
[7]????? T. You, X. Li, W. Wu, et al. Coupled heating of ground-coupled heat pump system with heat compensation unit: Performance improvement and borehole reduction, Energy Conversion and Management, 2017, 148: 57- 67. (SCI, IF2019=8.208, JCR一区, 中科院一区)
[8]????? T. You, W. Shi, B. Wang, et al. A fast distributed parameter model of ground heat exchanger based on response factor. Building Simulation, 2017(10)2: 1-10. (SCI, IF2019=2.472, JCR二区, 中科院四区)
[9]????? T. You, W. Wu, W. Shi, et al. An overview of the problems and solutions of soil thermal imbalance of ground-coupled heat pumps in cold regions. Applied Energy, 2016, 177: 515-536. (SCI, IF2019=8.848, JCR一区, 中科院一区)
[10]????T. You, W. Shi, B. Wang, et al. A new ground-coupled heat pump system integrated with a multi-mode air-source heat compensator to eliminate thermal imbalance in cold regions, Energy and Buildings, 2015, 107: 103-112. (SCI, IF2019=4.867, JCR一区, 中科院二区)
[11]? ??T. You, B. Wang, W. Wu, et al. Performance analysis of hybrid ground-coupled heat pump system with multi-functions, Energy Conversion and Management, 2015, 92: 47-59. (SCI, IF2019=8.208, 2015年高被引论文奖Highly Cited Paper Award, JCR一区, 中科院一区)
[12]? ? T. You, B. Wang, W. Wu, et al. A new solution for underground thermal imbalance of ground-coupled heat pump systems in cold regions: Heat compensation unit with thermosyphon,?Applied Thermal Engineering, 2014, 64(1): 283-292. (SCI, IF2019=4.725, JCR一区, 中科院二区)
[13]? ? W. Wu, T. You, X. Li. Performance Comparisons of NH3/Ionic Liquid Absorption-Compression Heat Pump for Increasing the Utilization of Geothermal Energy, International Journal of Refrigeration, 2019,104:19-33. (SCI, IF2019=3.461, JCR一区, 中科院二区)
[14]? ? Wu W, You T, Leung M. Screening of novel water/ionic liquid working fluids for absorption thermal energy storage in cooling systems. International Journal of Energy Research, 2019. （SCI, IF2019=3.741, JCR一区, 中科院一区)
[15]? ? W. Wu, T. You, J. Wang, et al. A novel internally hybrid absorption-compression heat pump for performance improvement. Energy Conversion and Management, 2018, 168: 237-251. (SCI: GJ8DM, IF2019=8.208,? JCR一区, 中科院一区)
[16]? ? W. Wu, T. You, H. Zhang, et al. Comparisons of different ionic liquids combined with trans-1, 3, 3, 3-tetrafluoropropene (R1234ze (E)) as absorption working fluids. International Journal of Refrigeration, 2018, 88: 45-57. (SCI: GM0NF, IF2019=3.461,? JCR一区, 中科院二区)
[17]? ? W. Wu, T. You, B. Wang, et al. Evaluation of ground source absorption heat pumps combined with borehole free cooling. Energy Conversion and Management, 2014, 79: 334-343. ( SCI: AE4IS,IF2019=8.208,?JCR一区, 中科院一区)
[18]? ? W. Wu, T. You, B. Wang, et al. Simulation of a combined heating, cooling and domestic hot water system based on ground source absorption heat pump. Applied Energy, 2014, 126: 113-122. (SCI: AJ4MS,IF2019=8.848, JCR一区, 中科院一区)
[19]? ? Pan A, McCartney J S, Lu L, YOU T. A novel analytical multilayer cylindrical heat source model for vertical ground heat exchangers installed in layered ground. Energy, 2020: 117545.?(SCI, IF2019=6.082, JCR一区, 中科院一区)
国际会议论文
[20]? ? T. You, H. Yang. The performance analysis of ground source heat pump using spiral coil energy piles with seepage in different climates of cold regions, SET 2019, Kuala Lumpur, Malaysia, 2019.
[21]? ? T. You, X. Li, H. Yang. Modifications to the conventional design methods for borehole heat exchangers based on a novel response factor model, 1st ICCEBE, Cheng Du, China, 2019.
[22]? ? T. You, H. Yang. Influences of different factors on the three-dimensional heat transfer of spiral energy pile groups with seepage, ASIM, Hong Kong, China, 2018.
[23]? ? T. You, X. Li, W. Wu, et al. The coupled heating optimization of hybrid GCHP system with heat compensation unit, IGSHPA, Denver, USA, 2017.
[24]? ? T. You, X. Li, W. Shi, et al. Fast and accurate calculation of the soil temperature distribution around ground heat exchanger based on RF model, IGSHPA, Denver, USA, 2017.
[25]? ? T. You, W. Shi, W. Wu, et al. A Fast Distributed Parameter Model of Ground-coupled Heat Exchanger Based on Response Factor, The 8th International Cold Climate HVAC Conference, Dalian, China, 2015.
[26]? ? T. You, W. Shi, W. Wu, et al. A new ground-coupled heat pump system integrated with multi-mode air-water heat exchanger to eliminate thermal imbalance, ICR 2015, Yokohama, Japan, 2015.
[27]? ? T. You, W. Shi, W. Wu, et al. Optimization of the operating strategy of heat compensation unit for seasonal energy storage in GCHP system, The 13th International Conference on Energy Storage, Beijing, China, 2015.
[28]? ? T. You, W. Wu, B. Wang, et al. Dynamic Soil Temperature of Ground-Coupled Heat Pump System in Cold Region, Proceedings of the 8th International Symposium on Heating, Ventilation and Air Conditioning. Springer Berlin Heidelberg, 2014: 439-448.
[29]? ? T. You, W. Wu, B. Wang, et al. Evaluation of a novel hybrid ground-coupled heat pump system with heat compensation and domestic hot water supply, SET, Hong Kong, 2013
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中文核心期刊论文
[30]? ? 游田, 石文星, 王宝龙. 空气-土壤双源热泵系统在我国北方地区应用效果分析, 暖通空调, 2016, 42(12): 40-45.
[31]? ? 游田, 吴伟, 王宝龙等.复合补热地源热泵系统设计方法研究与应用, 暖通空调, 2015,45(5):34-38.
[32]? ? 游田, 吴伟, 李先庭等.太阳能在夏热冬冷地区土壤源热泵系统中的耦合应用, 建筑科学, 2014,30(12): 20-24.
[33]? ? 蔡之钰, 游 田*, 李先庭. 活体动物运输车厢空气流动及传热特性模拟与优化. 农业工程学报, 2016, 32(20):223-228. (EI)
[34]? ? 纪文杰, 游田, 白绍文等. 埋管设计对寒冷地区土壤源热泵系统性能的影响. 暖通空调, 2015, 03:113-118.
[35]? ? 李炳田, 游田, 王宝龙等. 复合补热地源热泵系统在北方地区的应用效果分析. 建筑科学, 2012, 28(增刊2): 178-183.
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授权专利
[1]? 李先庭, 游田, 王宝龙,等.一种从环境取热的土壤源热泵系统及运行方法, 中国, ZL7.3, 2017.（发明专利授权，导师一作）
[2]? 李先庭，吴伟，?游田?等.一种三用型地源吸收式热泵系统及运行方法. 中国. ZL4.4, 2016.（发明专利授权）
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软件著作权
[1]? 王宝龙, 游田, 李先庭. 地埋管地源热泵系统性能预测软件, 2015SR167968, 原始取得, 全部权利, 2015-05.
[2]? 杨洪兴, 游田, 张文科. 螺旋管能源桩地源热泵系统性能模拟软件[简称：能源桩之星(EP-Star)]V1.0, 2019SR**, 原始取得, 全部权利, 2019-04.
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寄语学生
课题组长期招聘博士后及研究生，欢迎对能源地下结构、可再生能源利用及建筑节能技术感兴趣的有志青年加入。