2006.03-2009.03    上海交通大學(xué)、柏林工業(yè)大學(xué)    博士
2004.09-2006.03    上海交通大學(xué)（碩博連讀）    碩士
2000.09-2004.06    上海交通大學(xué)    學(xué)士

2009.03-2011.03  上海交通大學(xué)   核科學(xué)與工程流動(dòng)站     師資博士后
2011.05-2012.12  上海交通大學(xué)   制冷與低溫工程研究所   助理研究員
2012.12-2019.12  上海交通大學(xué)   制冷與低溫工程研究所   副研究員
2016.12-2017.11  新加坡國立大學(xué)   訪問副教授
2020.12-2024.06        上海交通大學(xué)   制冷與低溫工程研究所   教授

2024.07-                        上海交通大學(xué)   制冷與低溫工程研究所   特聘教授

固體除濕空調(diào)
吸附劑中的耦合熱質(zhì)傳遞過程
空氣CO2直接捕捉 (DAC)
低品位能源（太陽能）的高效轉(zhuǎn)換和利用

2016-      中國工程熱物理學(xué)會(huì)傳熱傳質(zhì)分會(huì)青年委員會(huì)   委員
2019-      上海市制冷學(xué)會(huì)      常務(wù)理事、國際化辦公室主任
2018-      Energy期刊     助理編輯
2009-2010  第九屆國際可持續(xù)能源技術(shù)大會(huì)                   組委會(huì)成員，大會(huì)秘書
2010-2010  可再生能源學(xué)會(huì)熱利用委員會(huì)年會(huì)               組委會(huì)成員
2015       國際能源署IEA Task48、53 2015年會(huì)             組委會(huì)成員

作為項(xiàng)目負(fù)責(zé)人主持項(xiàng)目：
2020-2022   國家自然科學(xué)基金優(yōu)秀青年科學(xué)基金項(xiàng)目 - 熱驅(qū)動(dòng)除濕空調(diào)
2020-2023   上海市“科技創(chuàng)新行動(dòng)計(jì)劃”國際科技合作項(xiàng)目 - 基于碳循環(huán)鏈的太陽能輔助生物質(zhì)氣化發(fā)電研究
2020-2023   科技部政府間國際科技創(chuàng)新合作重點(diǎn)專項(xiàng) - 低碳社區(qū)，建筑清潔能源冷熱電聯(lián)供關(guān)鍵技術(shù)及示范 （任務(wù)二 高溫綠色及自然工質(zhì)電動(dòng)熱泵及負(fù)荷特性）
2020-2023   科技部重點(diǎn)研發(fā)計(jì)劃  醇類重整制氫及冷熱電聯(lián)供的燃料電池系統(tǒng)集成技術(shù)（子課題 - 吸附制冷和除濕空調(diào)復(fù)合系統(tǒng)的參數(shù)匹配與運(yùn)行優(yōu)化）
2018-2020   國家自然科學(xué)基金 中俄國際合作項(xiàng)目 - 高效開式除濕換熱器空調(diào)循環(huán)中新型吸附劑的研究
2018-2020   國防項(xiàng)目 
2016-2019   國家自然科學(xué)基金面上基金項(xiàng)目 - 一種半解耦式高蒸發(fā)溫度下降溫除濕與分級(jí)冷卻的除濕熱泵循環(huán)機(jī)理研究
2014-2016   上海市青年科技啟明星項(xiàng)目 - 高溫蒸發(fā)冷卻除濕和冷凝熱再生的除濕熱泵循環(huán)機(jī)理研究
2013-2015   國家自然科學(xué)基金青年基金項(xiàng)目 - 一種自冷式固體干燥劑降溫除濕空調(diào)循環(huán)機(jī)理研究
2013-2015   教育部博士點(diǎn)基金新教師基金  - 基于除濕換熱器的內(nèi)冷式固體除濕空調(diào)循環(huán)機(jī)理研究
2012-2013   華為公司合作科研項(xiàng)目 - 無源室外機(jī)柜防凝露技術(shù)
2011-2015   國家重大科學(xué)儀器設(shè)備開發(fā)專項(xiàng)項(xiàng)目任務(wù) - IEF半導(dǎo)體制冷、散熱與溫度控制、以及PAGE電泳散熱與控制
2011-2013   日本大金公司合作科研項(xiàng)目 - Research of Energy Saving of Independent Temperature and Humidity Control: Modeling and Real Tests
2009-2011   中國博士后科學(xué)基金項(xiàng)目  - 除濕換熱器干燥劑涂層及其強(qiáng)化吸濕機(jī)理研究
2009-2011   上海市博士后科學(xué)基金項(xiàng)目  - 一種基于環(huán)境濕度控制的太陽能熱泵空調(diào)系統(tǒng)
2007-2008   德國ZWP設(shè)計(jì)公司合作科研項(xiàng)目 - Performance comparision of desiccant cooling system between China and Germany
2013-2015   上海交通大學(xué)SMC優(yōu)秀青年晨星學(xué)者項(xiàng)目 -降溫除濕空調(diào)循環(huán)理論研究

作為項(xiàng)目第二負(fù)責(zé)人主持項(xiàng)目：
2014-2019   國家自然科學(xué)基金重點(diǎn)項(xiàng)目 "基于干燥劑除濕和蒸發(fā)制冷耦合的高效熱泵循環(huán)研究, 51336004"
2013-2016   國家自然科學(xué)基金面上項(xiàng)目 "點(diǎn)、線耦合聚焦復(fù)合菲涅爾反射式太陽能集熱轉(zhuǎn)換機(jī)理研究，51276112"
2012-2015   國家科技支撐計(jì)劃項(xiàng)目課題 "基于中溫的高效太陽能制冷裝置及應(yīng)用示范，2012BAA05B04"  
2012-2014   教育部博士點(diǎn)基金優(yōu)先發(fā)展領(lǐng)域項(xiàng)目 "熱濕獨(dú)立控制熱泵能源系統(tǒng)循環(huán)的理論和試驗(yàn)研究"  
2011-2015   國家自然科學(xué)基金重點(diǎn)項(xiàng)目子課題 "基于固體除濕的建筑熱濕解耦環(huán)境控制原理及方法研究，51036001"  
2010-2011   上海市科委白玉蘭基金合作交流項(xiàng)目 "高效太陽能收集與應(yīng)用技術(shù)研究"  
2010-2012   上海市科學(xué)技術(shù)委員會(huì)啟明星跟蹤項(xiàng)目 "采用金屬基干燥劑涂層方法的除濕換熱器強(qiáng)化吸濕機(jī)理研究，10QH1401200"  
2009-2011   上海市科學(xué)技術(shù)委員會(huì)非政府間國際合作項(xiàng)目 "太陽能熱驅(qū)動(dòng)制冷空調(diào)技術(shù)，09160702300"  
2007-2010   國家863高技術(shù)研究發(fā)展計(jì)劃項(xiàng)目 "單步兩級(jí)式太陽能復(fù)合除濕空調(diào)系統(tǒng)，2008AA05Z420"

參與編寫的論著:
(1) T.S. Ge, Y.J. Dai, R.Z. Wang. 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.
(2)《太陽能制冷》王如竹 代彥軍 等編著，化學(xué)工業(yè)出版社（北京），2007年1月第一版. 主要負(fù)責(zé)第一章、第二章和第五章的編寫。

發(fā)表的主要學(xué)術(shù)論文(第一作者)：
[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.
[24] 葛天舒,李勇,王如竹,代彥軍. 三種固體轉(zhuǎn)輪除濕系統(tǒng)的模擬比較. 工程熱物理學(xué)報(bào) 2008, 29(1): 22-24.
[25] 葛天舒,李勇,代彥軍,王如竹. 新型兩級(jí)固體轉(zhuǎn)輪除濕空調(diào)系統(tǒng)的參數(shù)分析. 化工學(xué)報(bào) 2006, 57(s): 85-90.

發(fā)表的主要學(xué)術(shù)論文(非第一作者)：
[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.K?hler, 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.

獲得授權(quán)的專利：
自冷式干燥劑降溫除濕空調(diào)系統(tǒng)，ZL 201210232592.0
再生式蒸發(fā)冷卻空調(diào)，ZL 201010579618.X
可利用低品位熱源的兩級(jí)轉(zhuǎn)輪除濕空調(diào)裝置，ZL 200710045901.2
太陽能驅(qū)動(dòng)的單個(gè)轉(zhuǎn)輪兩級(jí)除濕空調(diào)器，ZL 200710045902.7
生物電泳儀用制冷散熱裝置，ZL 201210232782.2