2004-2009, Shanghai Jiao Tong University / Technical University of Berlin, Doctor
2007-2008, Technical University of Berlin (sandwich program), Master
2000-2004, Shanghai Jiao Tong University, Bachelor

2009-2011 Postdoctor Shanghai Jiao Tong University
2011-2012 Assistant researcher Shanghai Jiao Tong University
2011- Associate professor Shanghai Jiao Tong University

Solid desiccant air conditioning system
Heat and mass transfer in adsorption process
Enhanced heat and mass transfer
Conversion and utilization of low grade energy
Green Building

As Principal Investigator
(1) 2016-2019 National Natural Science Foundation of China (No. 51576121) Mechanism investigation on semi-decoupled desiccant heat pump cycle with temperature decreasing dehumidification and staged cooling under high evaporation temperature
(2) 2016-2019 hanghai science and Technology Committee of the star project. (No. 14QA1402200) Investigation on hybrid desiccant cooling system
(3) 2013-2015 National Natural Science Foundation of China (No. 51206104) Mechanism investigation on novel self-cooled solid desiccant cooling cycle with temperature decreasing dehumidification
(4) 2013-2015 Doctoral Fund of Ministry of Education of China (No. 20120073120057) Mechanism investigation on inner-cooling solid desiccant cooling cycle
(5) 2012-2013 Cooperation project with Huawei Company (No. YB2012100200) Voiding condensation technology in passive outdoor cabinet
(6) 2011-2015 Major National Scientific Instrument and Equipment Development Project (No. 2011YQ03013901) Cooling and control of thermo electrical cooling technology adopted in IEF and PAGE electrophoresis meter
(7) 2010-2013 Cooperation project with Daikin Company Research of Energy Saving of Independent Temperature and Humidity Control: Modeling and Real Tests
(8) 2009-2011 Chinese Postdoctoral Science Foundation (No. 20090460617) Research on coated desiccant layer to heat exchanger and principle of enhanced heat and mass transfer
(9) 2009-2011 Shanghai Postdoctoral Science Foundation (No. 10R21414200) Research on solar heat pump system with independent temperature and humidity control
(10) 2007-2008 Cooperation project with German ZWP Design company Performance comparision of desiccant cooling system between China and Germany

As Co-Principal Investigator
(1) 2014-2018 Major Program of National Natural Science Foundation of China (No. 51336004) Study on the high efficient heat pump cycle with integrated desiccant dehumidification and evaporation cooling
(2) 2012-2015 National Key Technology R&D Program (No. 2012BAA05B04) Application and demonstration of high efficient cooling system based on solar energy of medium temperature
(3) 2011-2014 Major Program of National Natural Science Foundation of China (No. 51036001) New separately handling sensible and latent heat load air conditioning system based on solid desiccant
(4) 2011-2014 Advanced Doctoral Fund of Ministry of Education of China (No. 20110073130010) Investigation on hybrid heat pump system driven by low grade energy
(5) 2010-2012 Shanghai Municipal Science and Technology Commission, Magnolia fund cooperation projects High-efficient solar collecting technology
(6) 2010-2012 Shanghai science and Technology Committee of the star tracking project. (No. 10QH1401200) Investigation on performance of desiccant coated heat exchanger.
(7) 2009-2011 International cooperation projects of Shanghai science and Technology Commission. (No. 9160702300) Investigation on solar cooling technology.

(8) 2007-2010 National High Technology R&D Program of China (No. 2008AA05Z420) Solar powered one-rotor two-stage rotary desiccant cooling system

Involved in scientific book:
(1) Solar cooling. Chapter1,2 and 5. Edited by Ruzhu Wang, Yanjun Dai. Published by Chemical Publisher.(in Chinese)
(2) Advances in Adsorption Technology. Chapter 11: Desiccant Materials and their Applications. Edited by Bidyut Baran Saha, Kim Choon Ng. Published by Nova Science Publishers Inc. 01/08/2010.

Scientific publication (first author)：
[1] T.S. Ge, Y.J. Dai, R.Z. Wang, Y. Li. Performance of two-stage rotary desiccant cooling system with different regeneration temperatures. Energy 2015, 80(1): 556-566.
[2] T.S. Ge, Y.J. Dai, R.Z. Wang. Review on solar powered rotary desiccant wheel cooling system. Renewable and Sustainable Energy Reviews 2014, 39: 476-497.
[3] T.S. Ge, Y.J. Dai, R.Z. Wang, Y. Li. Feasible study of a self-cooled solid desiccant cooling system based on desiccant coated heat exchanger. Applied Thermal Engineering2013, 58: 281-290.
[4] T.S. Ge, Y.J. Dai, Y. Li, R.Z. Wang. Simulation investigation on solar powered desiccant coated heat exchanger cooling system. Applied Energy 2012, 93:532-540.
[5] T.S. Ge, Y.J. Dai, R.Z. Wang. Performance study of silica gel coated fin-tube heat exchanger cooling system based on a developed mathematical model. Energy Conversion and Management 2011, 52(6): 2329-2338.
[6] T.S. Ge, Y.J. Dai, R.Z. Wang, Z.Z. Peng. Experimental comparison and analysis on silica gel and polymer coated fin-tube heat exchangers. Energy 2010, 35(7): 2893-2900.
[7] T.S. Ge, F. Ziegler, R.Z. Wang. A mathematical model for predicting the performance of a compound desiccant wheel. Applied Thermal Engineering 2010, 30: 1005-1015.
[8] T.S. Ge, F. Ziegler, R.Z. Wang, H. Wang. Performance comparison between desiccant cooling system and vapor compression system. Applied Thermal Engineering 2010, 30(6-7):724-731.
[9] T.S. Ge, Y. Li, Y.J. Dai, R.Z. Wang. Investigation on a novel two-stage solar driven rotary desiccant cooling system using composite desiccant materials. Solar Energy 2010, 84(2):157-159.
[10] T.S. Ge, Y. Li, R.Z. Wang, Y.J. Dai. Experimental study on a two-stage rotary desiccant cooling system. International Journal of Refrigeration 2009, 32:498-508.
[11] T.S. Ge, Y.J. Dai, R.Z. Wang, Y. Li. Experimental investigation on an one-rotor two-stage rotary desiccant cooling system. Energy 2008, 33(12):1807-1815.
[12] T.S. Ge, Y. Li, R.Z. Wang, Y.J. Dai. A review of the mathematical models for predicting rotary desiccant wheel. Renewable and Sustainable Energy Reviews 2008, 12(6):1485-1528.
[13] T.S. Ge, Y.J. Dai, R.Z. Wang. Novel self-cooled solid desiccant cooling system with integrated desiccant coated heat exchanger and regenerative evaporative cooler. In the 2014 International Sorption Heat Pump Conference. March 31- April 2, 2014, Washington, USA. Paper ID: 59.
[14] T.S. Ge, Y.J. Dai, R.Z. Wang. Study of self-cooled solid desiccant cooling system based on desiccant coated heat exchanger. In the Cryogenics and Refrigeration-Proceedings of ICCR2013. April 6-9, 2013, Hangzhou, China. Paper ID: B-2-14.
[15] T.S. Ge, Y.J. Dai, R.Z. Wang. Simulation investigation on solar driven desiccant coated heat exchanger cooling system. In the 6th Asian Conference on Refrigeration and Air Conditioning. August 26-28, 2012, Xi’an, China.
[16] T.S. Ge, Y.J. Dai, R.Z. Wang. Simulation investigation on low grade energy powered two-stage desiccant wheel cooling system. In the International Conference on Sustainable Energy Technologies 2012. September4-7, 2012, Ottawa, Canada. Paper ID: 646.
[17] T.S. Ge, Y.J. Dai, R.Z. Wang. Experimental study on a silica gel coated heat exchanger cooling system. In the International Sorption Heat Pump Conference. Padua, Italy, April 6-8, 2011. Paper ID: I49.
[18] T.S. Ge, Y.J. Dai, R.Z. Wang. Simulation Investigation on Solar Driven Desiccant Coated Heat Exchanger Cooling System. In The Yellow Sea Rim International Exchange Meeting on Building Environment and Energy. January 21-23, 2011, Busan, Korea.
[19] T.S. Ge, Y.J. Dai, R.Z. Wang. Performance study of silica gel coated fin-tube heat exchanger cooling system based on a developed mathematical model. In the International Conference on Sustainable Energy Technologies 2010. August24-27, 2010, Shanghai, China. Paper ID: AR-089
[20] T.S. Ge, Y.J. Dai. Investigation on solar powered solid desiccant cooling system. In The Global Climate Chang-approaches to international cooperation. May 20, 2010, Bonn, Germany.
[21] T.S. Ge, Y.J. Dai, R.Z. Wang. Performance comparison of solar driven desiccant cooling system between China and Germany. 2nd International Symposium Solar and Renewable Cooling (Clean Energy Power Conference), 2010 March 01-04; Stuttgart, Germany.
[22] T.S. Ge, Y. Li, R.Z. Wang, Y.J. Dai. Experimental study on a novel two-stage desiccant cooling system. In the 22nd IIR International Congress of Refrigeration. August 21-26, 2007, Beijing, China. Paper ID: ICR07-E1-826.
[23] T.S. Ge, R.Z. Wang, Y.J. Dai, Y. Li. Investigation of a novel one-rotor two-stage desiccant cooling system. In the 5th International Symposium on Heating, Ventilating and Air Conditioning (ISHVAC 2007), September 7-8, 2007, Beijing, China. Paper ID: C158.

Scientific publication (non-first author)：
[1] X. Zheng, T.S. Ge, Y. Jiang, R.Z. Wang. Experimental study on silica gel-LiCl composite desiccants for desiccant coated heat exchanger. International Journal of Refrigeration. 2015, 51, 24-32.
[2] X. Zheng, T.S. Ge, L.M. Hu, R.Z. Wang. Development and characterization of mesoporous silicate-LiCl composite desiccants for solid desiccant cooling systems [J]. Industrial & Engineering Chemistry Research, 2015, 54 (11), 2966-2973.
[3] X. Zheng, R.Z. Wang, T.S. Ge, L.M. Hu. Performance study of SAPO-34 and FAPO-34 desiccants for desiccant coated heat exchanger systems. Energy, 2015, 93, Part 1: 88-94.
[4] L.M. Hu, T.S. Ge, Y. Jiang, R.Z. Wang. Performance study on composite desiccant material coated fin-tube heat exchangers. International Journal of Heat and Mass Transfer, 2015. 90: p. 109-120.
[5] Jiang, Y., et al. (2014). "Comparison study of a novel solid desiccant heat pump system with EnergyPlus." Building Simulation 7(5): 467-476.
[6] Jiang, Y., et al. (2014). "Experimental investigation on a novel temperature and humidity independent control air conditioning system – Part II: Heating condition." Applied Thermal Engineering 73(1): 773-781.
[7] Jiang, Y., et al. (2014). "Experimental investigation on a novel temperature and humidity independent control air conditioning system – Part I: Cooling condition." Applied Thermal Engineering 73(1): 782-791.
[8] Jiang, Y., et al. "Experimental investigation and analysis of composite silica-gel coated fin-tube heat exchangers." International Journal of Refrigeration.
[9] R.Z. Wang, T.S. Ge, C.J. Chen, Q. Ma, Z.Q. Xiong. Solar sorption cooling systems for residential applications: Options and guidelines. International Journal of Refrigeration 2009, 32(4): 638-660.
[10] Y. Zhao, T.S. Ge, Y.J. Dai, R.Z. Wang. Experimental investigation on a desiccant dehumidification unit using fin-tube heat exchanger with silica gel coating.Applied Thermal Engineering 2013, 63(1), 2014: 52-58.
[11] X. Zheng, L.W. Wang, R.Z. Wang, T.S. Ge, T.F. Ishugah, Thermal conductivity, pore structure and adsorption performance of compact composite silica gel, International Journal of Heat and Mass Transfer 68 (2014) 435-443.
[12] X. Zheng, T.S. Ge, R.Z. Wang. Recent progress on desiccant materials for solid desiccant cooling systems. Energy, 2014. 74: p. 280-294.
[13] X. Zheng, T.S. Ge, R.Z. Wang, L.M. Hu. Performance study of composite silica gels with different pore sizes and different impregnating Hygroscopic salts. Chemical Engineering Science, 2014. 120(16): p. 1-9.
[14] Y. Jiang, T.S. Ge, R.Z. Wang.Performance simulation of a joint solid desiccant heat pump and variable refrigerant flow air conditioning system in EnergyPlus. Energy and Buildings2013, 65: 220-230.
[15] R.Z. Wang, X. Yu, T.S. Ge, T.X. Li. The present and future of residential refrigeration, power generation and energy storage. Applied Thermal Engineering 2013, 53: 256-270.
[16] D. La, Y. Li,Y.J. Dai, T.S. Ge, R.Z. Wang.Effect of irreversible processes on the thermodynamic performance of open-cycle desiccant cooling cycles. Energy Conversion and Management 2013, 67: 44-56.
[17] U.Eicker, U.Schürger, M.Köhler, T.S.Ge, Y.J. Dai, H. Li, R.Z. Wang. Experimental investigations on desiccant wheels. Applied Thermal Engineering 2012, 42:71-80.
[18] D. La, Y. Li,Y.J. Dai, T.S. Ge, R.Z. Wang.Development of a novel rotary desiccant cooling cycle with isothermal dehumidification and regenerative evaporative cooling using thermodynamic analysis method. Energy 2012, 44: 778-791.
[19] D. La, Y.J. Dai, Y. Li, T.S. Ge, R.Z. Wang. Use of regenerative evaporative cooling to improve the performance of a novel one-rotor two-stage solar desiccant dehumidification unit. Applied Thermal Engineering 2012, 42: 11-17.
[20] D. La, Y.J. Dai, Y. Li, T.S. Ge, R.Z. Wang.Case study and theoretical analysis of a solar driven two-stage rotary desiccant cooling system assisted by vapor compression air-conditioning. Solar Energy2011, 85: 2997-3009.
[21] D. La, Y.J. Dai, Y. Li, T.S. Ge, R.Z. Wang. Study on a novel thermally driven air conditioning system with desiccant dehumidification and regenerative evaporative cooling. Building and Environment 2010, 45 (11): 2473-2484.
[22] U. Eicker, D. Schneider, J. Schumacher, T.S. Ge, Y.J. Dai. Operational experiences with solar air collector driven desiccant cooling systems. Applied Energy 2010, 87: 3735-3747.
[23] X. Zheng, L.W. Wang, R.Z. Wang, T.S. Ge, T.F. Ishugah, Thermal conductivity, pore structure and adsorption performance of compact composite silica gel. International Journal of Heat and Mass Transfer 2014, 68: 435-443.
[24] D. La, Y.J. Dai, Y. Li, Z.Y. Tang, T.S. Ge, R.Z. Wang.An experimental investigation on the integration of two-stage dehumidification and regenerative evaporative cooling. Applied Energy 2013, 102: 1218-1228.
[25] D. La, Y.J. Dai, Y. Li, R.Z. Wang, T.S. Ge.Technical development of rotary desiccant dehumidification and air conditioning: A review. Renewable and Sustainable Energy Reviews 2010, 14: 130-147.

Engineering of thermaldyanmics (English) Undergraduate students 51 credit hours 3 credits
Introduction of Enginnering Undergraduate students 68 credit hours 4 credits
Introduction of renewable energy Undergraduate students 51 credit hours 3 credits
Conversion and utilization of renewable enrgy Undergraduate students 54 credit hours 3 credits
New energy system/technology Master students 54 credit hours 3 credits

(1) Solar powered one-rotor two-stage rotary desiccant cooling system．No：200710045902．
(2) Two-stage rotary desiccant cooling system driven by low grade erngy．No：200710045901．
(3) Novel self-cooled desiccant cooling system. No:ZL 201210232592.0
(4) Heat dissipation equipment for IEF componet. No:ZL 201210232782.2
(5) Preventing condensation of metal equipment. No:

2009- Shanghai solar association member
2011- Chinese refrigeration association member
2009- Energy reviewer
2009- Applied Thermal Enginnering reviewer
2010- Solar Energy reviewer
2010- International Journal of Refrigeration reviewer
2010- Energy Conversion and Management reviewer
2011- Dry Technology reviewer
2012- Heat and Mass Transfer -Fundamentals and Applications reviewer
2012- Refrigeration technology reviewer
2009-2010 9th International conference on sustainable energy technologies Organization member, sectary
2010-2010 Annual meeting of national renewable energy Organization member

2015 International Institute of Refrigeration “Carrier H. William” Young researcher award.
2014 Shanghai “rising star award” for young researcher
2014 Shanghai “Teaching Achievement Award”
2013 National Excellent Doctoral Dissertation Award nomination
2012 Shanghai Excellent Doctoral Dissertation Award
2014 Daikin cooperation “Excellent cooperation project” award
2013 Huawei cooperation “Golden prize” award
2010 1st international symposia on climate protection "the Best report" award
2009 "Xia'anshi-Heatcraft" scholarship
2012 Nominated "Shanghai Jiao Tong University Youth post expert"
2011 Nominated “Excellent post doctor”
2007 Chinese Scholarship council“high-level university construction" scholarship