Brief

Dr. You is an associate professor of the project “One Hundred Talents Plan” at Sun Yat-sen University and also a master's supervisor. She obtained her PhD degree in Tsinghua University. She worked as a postdoctoral fellow in The Hong Kong Polytechnic University during 2018-2020 and as a visiting scholar at the University of California, Berkeley during 2016-2017. She is extensively involved in the research and publication on temperature control technology of infrastructures, energy geo-structures, renewable energy system, and building energy conversation. She has obtained or joined in 7 research and technology development funds. She has published over 20 papers in the top SCI journals, such as Applied Energy (IF=8.426),Energy Conversion and Management (IF=7.181),Journal of Cleaner Production (IF=6.395),Energy (IF=5.537). The citation time is more than 693, h index is 15 and the i10 index is 18. She has also published 1 English book by Springer, over 10 papers in the international conferences and 7 papers in Chinese core journals. She has also obtained 2 patents and 2 software.

 

Education Experiences

09/2014-10/2017, PhD, Department of Building Science, Tsinghua University, China

09/2011-07/2014, Master, Department of Building Science, Tsinghua University, China

09/2007-07/2011, Bachelor, School of Civil Engineering, Northeast Forestry University, China

 

Working Experiences

04/2020-up to now, Associate Professor, School of Civil Engineering, Sun Yat-sen University, China

01/2018-04/2020, Postdoctoral Fellow, Department of Building Services Engineering, The Hong Kong Polytechnic University, Hong Kong, China

02/2016-03/2017, Visiting Scholar, Department of Civil and Environmental Engineering, University of California at Berkeley, USA

 

Teaching

2020 Spring and Autumn, Civil engineering surveying, Undergraduate Student, Lecturer.

2021 Spring, International Construction Management, Undergraduate Student, Lecturer.

 

Projects

[1]     Start-up program of “One Hundred Talents Plan” at Sun Yat-sen University, 2020.04- 2022.03,on-going,PI.

[2]     Project supported by Guangdong Basic and Applied Basic Research Foundation for Young Scholars . (2020.10-2023.9),Completed,PI.

 

Professional services

[1]     SCI & SSCI Journal Sustainability (ISSN: 2071-1050, IF=2.075), Special issue "Renewable Energy and Energy Efficiency Technologies towards Net-Zero Energy Buildings (NZEBs)", Guest Editor.

[2]     EI Journal Energy Engineering (ISSN: 0199-8595), Special issue “Advanced heat pump Technologies for Renewable Energy Utilization”, Guest Editor.

[3]     SCI Journal Applied Energy, Energy, Energy Conversion and Management, Applied Thermal Engineering, Geothermics, International Journal of Refrigeration, Energy and buildings, Reviewer.

[4]     SCI Journal Energy (IF=5.537), Applied Thermal Engineering (IF=4.026), Geothermics (IF=3.470), Outstanding reviewer.

 

Awards and Honors

2020, member of the project “One Hundred Talents Plan” of Sun Yat-sen University

2015, First-class Prize of Construction Science and Technology Progress Award in Henan Province

2016, Third Prize in the REHVA World Student Competition

2016, National Scholarships for PhD students

2015, Jiang Nanxiang Scholarship (First class scholarship of Tsinghua University)

2014, Outstanding Graduate of Tsinghua University

2011, Outstanding Graduate of Northeast Forestry University

2010, National Scholarships for undergraduate students

2008, National Scholarships for undergraduate students

 

English books and journal papers

[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. (English Book)

[2]      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, IF2018=7.181, JCR Q1)

[3]      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, IF2018=1.054, JCR Q4)

[4]      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, IF2018=7.181, JCR Q1)

[5]      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, IF2018=7.181, JCR Q1)

[6]      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, IF2018=7.181, JCR Q1)

[7]      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, IF2018=2.238, JCR Q2)

[8]      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, IF2018=8.426, JCR Q1)

[9]      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, IF2018=4.495, JCR Q1)

[10]    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, IF2018=7.181, 2015 Highly Cited Paper Award, JCR Q1)

[11]    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, IF2018=4.026, JCR Q1)

[12]    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, IF2018=3.177, Cited times: 3, JCR Q1)

[13]    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)

[14]    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, IF2018=7.181, Cited times: 13, JCR Q1)

[15]    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, IF2018=3.177, Cited times: 15, JCR Q1)

[16]    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, IF2018=7.181, Cited times: 40, JCR Q1)

[17]    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, IF2018=8.426, Cited times:54, JCR Q1)

[18]    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.

International conference papers

[19]    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.

[20]    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.

[21]    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.

[22]    T. You, X. Li, W. Wu, et al. The coupled heating optimization of hybrid GCHP system with heat compensation unit, IGSHPA, Denver, USA, 2017.

[23]    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.

[24]    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.

[25]    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.

[26]    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.

[27]    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.

[28]    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