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姓名: 呂心力
性別:
英文名: Xinli Lu
人才稱號:
職稱: 教授、博導
職務: 專業: 工程熱物理
所在機構: 熱能工程系,中低溫熱能高效利用教育部重點實驗室 個人主頁:
郵箱: xinli.lu@tju.edu.cn 辦公地點: 天津市津南區天大北洋園校區能動大樓244室, 300354
傳真: 辦公電話: +86 18522972804
主要學歷: 2000/03-2004/11,University of Auckland, 工學院機械工程系(多相流專業),博士 (PhD),導師:Prof. Arnold Watson
1998/03-1999/11,University of Auckland, 工學院機械工程系 (傳熱、傳質專業), (杰出) 碩士,導師:K. C. Lee
1997/03-1997/11,University of Auckland,工學院機械工程系(地熱能及其應用技術專業),碩士研究生班
1988/08-1991/07,西安交通大學,能源與動力工程系,碩士, 導師:蔡頤年
1980/08-1984/07,華北電力大學,能源與動力工程系,學士

主要學術經歷: 長期從事熱流體科學及能源與動力工程方面的研究工作。1997年留學新西蘭奧克蘭大學。2004年獲博士學位后為美國伊利諾伊大學博士后研究員及NASA項目合作研究員(2004-2009)。此后為美國伊利諾伊大學地質流體力學及熱能工程研究員(2009-2014)。于2014年10月全職在天津大學機械工程學院熱能工程系工作,任研究員。

主要研究方向: 1. 混合能源系統:包括可再生能源與常規能源的混合系統(目前特別針對太陽能-地熱能耦合系統的研究及優化)
2. 地熱能及其他可再生能源先進應用技術研究:主要包括“創新型”供熱技術和發電技術研究
3. 多相流理論及工程應用:主要針對瞬態氣-液多相流的實驗研究及數值模擬
4. 超臨界流體換熱及熱力循環研究:主要針對用于中低溫發電有機朗肯循環(ORC)的超臨界工質以及用于增強型地熱發電系統(EGS)的超臨界CO2工質

主要講授課程: 《能源與環境》,大四課程(32學時)
《熱能與動力工程概論》,大三課程(32學時)
《Renewable Energy and Technology》,外國研究生全英文課程(32學時)

主要學術兼職:

主要學術成就: 在美國伊利諾伊大學有10年的科研經歷,圓滿地完成了美國國家航空航天局 (NASA) 的兩個重要的科研項目。在本學科領域的貢獻和地位主要表現在: (1) 成功地將工程熱物理理論與地熱學以及多相流領域的研究成果有機的結合起來,將其應用于星球學和天體物理學領域,開創了工程熱物理應用的新領域。(2) 作為主要作者 (第二作者) 在美國出版的 《Science》雜志上發表了論文,題為“A Clathrate Reservoir Hypothesis for Enceladus’South Polar Plume(土星衛星Enceladus南極羽毛狀噴發現象的固態氣體水合物地下儲假說)”。此論文從全新的角度提出了一個新的模型來描述這一壯觀的羽毛狀低溫噴發現象,同時質疑了淺層液態水在 Enceladus的存在。美國多家新聞媒體CNN、FOX新聞和紐約時代周刊等均報道了這一研究成果。(3) 作為國際權威刊物《Annual Reviews》(《年評》) 的特邀作者,于2009年應邀發表了長篇論文,題為“Thermodynamics and Mass Transport in Multi-component, Multiphase H2O Systems of Planetary Interest (星球中多組份、多相H2O系統的熱力學與質量傳遞)”。

主要科研項目: 目前在研項目:
《二氧化碳驅動的湖泊噴發機理研究》, 國家自然科學基金面上項目,2017.01-2020.12,項目負責人
《干熱巖地熱發電資源潛力和關鍵技術問題研究》, 中國工程院咨詢項目,2016.01 - 2017.12, 項目負責人

代表性論著: Lu,X., Zhao,Y., Zhu,J., Zhang,W. Optimization and applicability of compound power cycles for enhanced geothermal systems. Applied Energy, 229, 128–141, 2018

Zhao, Y., Lu, X.*, Zhu. J. Zhang, W., Hu. K., Xin, G., Jiang, F., Qin, Z, Ri, U. A study on selecting optimum flash and evaporation temperatures for four geothermal power generation systems under different geofluid's conditions, Proc. 9th International Conference on Applied Energy, ICAE2017, Cardiff, UK, August 21-24, 2017

Zhu, J., Hu, K., Zhang, W., Lu, X.* A study on generating a map for selection of optimum power generation cycles used for Enhanced Geothermal Systems, Energy, 133, 502-512, 2017

Wang, Q., Zhu, J., Lu, X.* Numerical simulation of heat transfer process in solar enhanced natural draft dry cooling tower with radiation mode, Applied Thermal Engineering, Volume 114, 977-983, 2017

Hu, K., Zhu, J.*, Zhang, W., Liu, K., Lu, X.* Effects of evaporator superheat on system operation stability of an organic Rankine cycle,Applied Thermal Engineering, 111, 793-801, 2016

Hu, K., Zhu, J., Zhang, W., Lu X.* A Selection Method for Power Generation Plants Used for Enhanced Geothermal Systems (EGS), Energies 2016, 9, 597; doi:10.3390/en9080597

Zhu, J., Hu, K., Lu, X.*, Huang, X., Liu, K., Wu, X. A review of geothermal energy resources, development, and applications in China: Current status and prospects, Energy, 93, 466-483, 2015.

Kang, Z., Zhu, J., Lu, X.*, Li, T., Wu, X. Parametric optimization and performance analysis of zeotropic mixtures for an organic Rankine cycle driven by low-medium temperature geothermal fluids, Applied Thermal Engineering, 89, 323-331, 2015.

Yuan, L., Zhu, J., Li, T., Fan, H., Lu, X. Numerical simulation of flow and heat transfer characteristics in Solar Enhanced Natural Draft Dry Cooling Tower, Applied Thermal Engineering, 87, 98-105, 2015.

Zhu, J., Wang, Q., Lu, X. Status and Developments of Drying Low Rank Coal with Superheated Steam in China, Drying Technology, 33, 1086–1100, 2015.

Hu, K., Zhu, J., Li, T., Lu, X., Wei Zhang, W.* Experimental Investigation on Characteristics of Evaporator Vaporization and Pressure Drops in an Organic Rankine Cycle (ORC), Proc. 7th International Conference on Applied Energy, Abu Dhabi, United Arab Emirates, March 28 - 31, 2015,

Lu, X., Larson, D. R., Holm, T. R. Preliminary Feasibility Study of Groundwater Source Geothermal Heat Pumps in Mason County and the American Bottoms Area, Illinois. Proc. 8th International Conference on Energy Sustainability & 12th Fuel Cell Science, Engineering and Technology Conference. Boston, Massachusetts, USA, June 30 – July 2, 2014, No. 6342.

Lu, X., and Rusk, T., Energy and Water Savings with Heat Pump Application in an Industrial Cooling System, Proc. 5th International Conference on Energy Sustainability & 9th Fuel Cell Science, Washington, DC, USA, August 7-10, 2011, No. 54796

Lu, X., Watson, A., and Deans, J. Analysis of the Thermodynamic Performance of Kalina Cycle System 11 (KCS11) for Geothermal Power Plant - Comparison with Kawerau Ormat Binary Plant, Proc. ASME 3rd International Conference on Energy Sustainability, San Francisco, California, USA, July 19-23, 2009, No. 90165

Lu, X. and Kieffer, S.W., Thermodynamics and Mass Transport in Multicomponent, Multiphase H2O Systems of Planetary Interest, Annual Review of Earth & Planetary Sciences, 37, 449–477, 2009 (應邀論文).

Kieffer, S.W., Lu, X., McFarquhar, G., and Wohletz, K.H. A Redetermination of the Ice/Vapor Ratio of Enceladus' Plumes: Implications for Sublimation and the Lack of a Liquid Water Reservoir, Icarus, 203, 238–241, 2009.

Kieffer, S.W., Lu, X., Bethke, C.M., Spencer, J.R., Marshak, S., Navrotsky, A. A Clathrate Reservoir Hypothesis for Enceladus’ South Polar Plume, Science, 314, 1764-1766, 2006.

Lu, X., Watson, A., Gorin, A.V., and Deans, J. Experimental Investigation and Numerical Modeling of Transient Two-phase Flow in a Geysering Geothermal Well, Geothermics, 35, 409-427, 2006.

Lu, X., Watson, A., Gorin, A.V., and Deans, J. Measurements in a Low Temperature CO2-driven Geysering Flow in a Geothermal Well, Viewed in Relation to Natural Geysers, Geothermics, 34, 389-410, 2005.

Lu, X., Watson, A., Gorin, A.V., and Deans, J. The Experimental and Numerical Analysis of a Carbon Dioxide Driven Geothermal Geyser, Proc. 5th International Symposium on Multiphase Flow, Heat Mass Transfer and Energy Conversion, Xi’an, China, July 3-6, 2005, No. 198.

Lu, X., and Watson, A. A Review of Progress in Understanding Geysers, Proc. World Geothermal Congress 2005, Antalya, Turkey, April 24-29, 2005, No. 1171.

Lu, X., and Watson, A. A Review of Geysering Flows, Proc. 24th New Zealand Geothermal Workshop, Auckland, New Zealand, Nov. 13-15, 2002, 267-272.

Lu, X., and Lee, K.C. Air-gap Thermal Insulation for Large Geothermal Pipelines, Proc. World Geothermal Congress 2000, Kyushu-Tohoku, Japan, May 28-June 10, 2000, 3223 – 3228

出版論著:
為以下英文科技圖書《太陽系冰體科學》的聯合作者:
Choukroun, M., Kieffer, S., Lu, X., Tobie, G. Clathrate Hydrates: Implications for Exchange Processes in the outer Solar System. In: The Science of Solar System Ices (M.S. Gudipati and J.C. Castillo-Rogez, Eds), Springer
(2012年 7月網上出版; 2013年 紙質印刷).

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