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姓名: 李君
性別:
英文名: Jun LI
人才稱號:
職稱: 副教授(博士生導師)
職務: 專業: 工程熱物理
所在機構: 能源與動力工程系 個人主頁:
郵箱: lijun79@tju.edu.cn 辦公地點: 天津大學北洋園校區34-A338
傳真: 辦公電話:
主要學歷: 1998/9 - 2002/7,哈爾濱工業大學 熱能與動力工程系,工學學士
2002/9 - 2004/7,哈爾濱工業大學 熱能工程專業,工學碩士
2004/8 - 2009/7,新加坡國立大學 機械工程系,工學博士(PhD)

主要學術經歷: 2012年1月至今,天津大學 機械工程學院 熱能工程系,副教授
2013年, 天津大學 工程熱物理(二級學科),碩士生導師
2014年,天津大學 動力工程(二級學科),碩士生導師
2018年,天津大學 工程熱物理(二級學科),博士生導師

主要研究方向: 1. 微尺度燃燒(micro-scale combustion)
2. 微動力系統(micro power devices)
3. 增強型地熱系統(enhanced geothermal system, EGS)
4. 地下自燃煤火(spontaneous underground coal fires)

主要講授課程: 本科生,《燃燒學》,32學時
研究生,《高等燃燒學》,32學時

主要學術兼職: Applied Thermal Engineering,Energy,Energy Conversion and Management,Heat Transfer Engineering 等期刊的審稿人

主要學術成就: 2013年,入選天津大學 "北洋學者 青年骨干教師”
2016年,天津大學本科生畢業設計優秀指導教師
2017年,天津大學優秀碩士論文指導教師
2017年,天津市第14屆高校青年教師教學競賽校內選拔賽,一等獎

指導學生獲獎:
1. 孟龍,2011級本科生,畢業設計優秀論文(2015年)
2. 王源濤,2013級碩士研究生,“北洋英才獎”(2015年)、國家獎學金(2015年)
3. 李擎擎,2013級碩士研究生,天津大學優秀碩士論文(2017年)、寶鋼獎學金(2017年)
4. 孟龍,2015級碩士研究生,國家獎學金(2017年)

主要科研項目: ————————— 項目負責人 —————————— Principal Investigator —————————
1. 國家自然科學基金外國青年學者基金,Study on the environmental impacts of coal mining and coal fires in China with a multi-criteria decision making approach coupled with remote sensing(51850410504),2019年1月-2019年12月,20萬;
2. 國家自然科學基金(面上項目),微小尺度空間預混過濾燃燒過程中駐定火焰的基本特征和穩定性研究(51776136),2018年1月-2021年12月,60萬;
3. 國家自然科學基金(青年基金),部分填充多孔介質的平板微燃燒器的穩燃特性及耦合傳熱機理研究(51306129),2014年1月-2016年12月,26萬;
4. 教育部博士點基金(新教師類),催化表面在微尺度燃燒中對穩燃的影響以及表面-氣相反應之間的相互作用機理(20130032120039),2014年1月-2016年12月,4萬;
5. 國家自然科學基金外國青年學者基金,Modelling of reactive flows through porous media with application to underground fire safety(51450110438),2015年1月-2015年6月,10萬;
6. 煤炭資源及安全開采國家重點實驗室開放基金,用于地下煤火過程的多孔介質中的復雜反應流模型(14KF01),2015年1月-2016年12月,6萬;
7. 煤燃燒國家重點實驗室開放基金,微小尺度燃燒器中催化燃燒過程及其關鍵控制因素的研究(FSKLCC1411),2014年7月-2016年6月,5萬;
8. 教育部留學回國人員科研啟動基金,多孔介質在微尺度燃燒過程中穩燃和強化換熱作用的數值模擬研究,2013年1月-2013年12月,3萬;


————————— 項目參與人 ————————— Participating Investigator ————————
1. 國家自然科學基金(面上項目),干熱巖人工裂隙滲透特性與多場耦合傳熱傳質機理研究,2013/1-2016/12,76萬元
2. 863項目,干熱巖發電及綜合評價關鍵技術研究,2012/4-2015/3,528萬
3. 863項目,中低溫發電熱力循環系統關鍵技術與部件研制,2012/11-2015/10,950萬

代表性論著: —————————— 2012年1月之后 —————————— After Jan 2012 —————————
[1] Q. Li, J. Li* (李君), J. Shi, X. Liu, Z. Guo. Effects of heat transfer on flame stability limits in a planar micro-combustor partially filled with porous medium. Proc Combust Inst, DOI: 10.1016/j.proci.2018.06.023.
[2] J. Li* (李君), Pengbin Fu, Qiren Zhu, Yandong Mao, Cheng Yang. A lab-scale experiment on low-temperature coal oxidation in context of underground coal fires. Appl Thermal Eng, 141, pp. 333-338, 2018.
[3] L. Meng, J. Li* (李君), Q. Li, J. Shi. Flame stabilization in a planar microcombustor partially filled with anisotropic porous medium. AIChE J, 64, pp. 153-160, 2018.
[4] L. Meng, J. Li* (李君), Q. Li. A miniaturized power generation system cascade utilizing thermal energy of a micro-combustor: Design and modelling. Int J Hydrogen Energ, 42, pp. 17275-83, 2017.
[5] 王聰, 李君*, 付彭賓. 煤自燃過程中的溫升及CO生成特性, 燃燒科學與技術, 23(5): 458-464, 2017.
[6] Q. Li, J. Wang, L. Meng, J. Li* (李君), Z. Guo. CFD Study on stability limits of hydrogen/air premixed flames in planar micro-combustors with catalytic walls. Appl Thermal Eng, 121C, pp. 325-335, 2017.
[7] 陳金星, 李君*, 李擎擎. 多孔介質微燃燒器的穩燃范圍的數值研究, 燃燒科學與技術, 23(3):231-235, 2017.
[8] K. Hooman*, J. Li (李君), M. Dahari. Thermal dispersion effects on forced convection in a porous-saturated pipe. Thermal Sci Eng Prog, 2C, pp. 64-70, 2017
[9] G. Stracher*, Y. White, J. Li (李君). Thermodynamic loop generated pressure-temperature stability diagrams for the nucleation of solids from coal-fire gas. SciTech Connect, Elsevier (online), 2017, http://scitechconnect.elsevier.com/thermodynamic-loop-coal-fire-gas-vents/.
[10] J. Shi*, H. Xiao, J. Li (李君), N. Li, Y. Xia, Y. Xu. Two-dimensional pore level simulation of low-velocity filtration combustion in a packed bed with staggered arrangements of discrete cylinders. Combust Sci Tech, 189, pp. 1260-1276, 2017,
[11] B. Bai*, Y. He, X. Li, J. Li (李君), X. Huang, J. Zhu. Experimental and analytical study of the overall heat transfer coefficient of water flowing through a single fracture in a granite core. Appl Thermal Eng, 116, pp. 79-90, 2017.
[12] B. Bai*, Y. He, X. Li, S. Hu, X. Huang, J. Li (李君), J. Zhu. Local heat transfer characteristics of water flowing through a single fracture within a cylindrical granite specimen. Environ Earth Sci, 75, 1460, 2016.
[13] 朱家玲, 張國偉, 李君*, 白冰. 裂隙通道內流固換熱系數解析解及敏感性分析, 太陽能學報, 37(8):2019-2025, 2016.
[14] J. Li* (李君), Q. Li, J. Shi, X. Liu, Z. Guo. Numerical study on heat recirculation in a porous micro-combustor. Combust Flame, 171, pp. 152-161, 2016.
[15] X. Huang*, J. Zhu, J. Li (李君), C. Lan, X. Jin. Parametric study of an enhanced geothermal system based on thermo-hydro-mechanical modeling of a prospective site in Songliao Basin. Appl Thermal Eng, 105, pp. 1-7, 2016.
[16] X. Huang, J. Zhu, J. Li* (李君), B. Bai, G. Zhang. Fluid friction and heat transfer through a single rough fracture in granitic rock under confining pressure. Int Commun Heat Mass Transfer, 75, pp. 78-85, 2016.
[17] J. Li* (李君), Y. Wang, J. Chen, J. Shi, X. Liu. Experimental study on standing wave regimes of premixed H2-Air combustion in planar micro-combustors partially filled with porous medium. Fuel, 167, pp. 98-105, 2016.
[18] K. Hooman, J. Li* (李君), M. Dahari. Slip flow forced convection through microducts of arbitrary cross-section: heat and momentum analogy. Int Commun Heat Mass Transfer, 71, pp. 176-79, 2016.
[19] J. Li* (李君), Q. Li, Y. Wang, Z. Guo, X. Liu. Fundamental flame characteristics of premixed H2–air combustion in a planar porous micro-combustor. Chem Eng J, 283, pp. 1187-96, 2016.
[20] J. Li* (李君), Y. Wang, J. Chen, X. Liu, Z. Guo. Effects of combustor size and filling condition on stability limits of premixed H2-air flames in planar microcombustors. AIChE J, 61, pp. 2571-80, 2015.
[21] J. Li* (李君), Y. Wang, J. Shi, X. Liu. Dynamic behaviors of premixed hydrogen-air flames in a planar micro-combustor filled with porous medium. Fuel, 145, pp. 70-78, 2015.
[22] Z. Wu*, L. Yue, Z. Li, J. Li (李君), A.S. Mujumdar, J.A. Rehkopf. Pulse combustion spray drying of egg white: energy efficiency and product quality. Food Bioprocess Tech, 8, pp. 148-57, 2015.
[23] X. Huang, J. Zhu, C. Niu, J. Li* (李君), X. Hu, X. Jin. Heat extraction and power production forecast of a prospective Enhanced Geothermal System site in Songliao Basin, China. Energy, 75, pp. 360-70, 2014.
[24] T. Li, J. Zhu, W. Zhang and J. Li* (李君). Thermodynamic optimization of a neoteric geothermal poly-generation system in an oilfield. Int J Energy Res, 37, pp.1939-51, 2013.
[25] W. Fu, J. Zhu, T. Li, W. Zhang and J. Li* (李君). Comparison of a Kalina cycle based cascade utilization system with an existing organic Rankine cycle based geothermal power system in an oilfield. Appl Thermal Eng, 58, pp. 224-33, 2013.

—————————— 2012年1月之前 —————————— Before Jan 2012 —————————
[1] S.K. Chou*, W.M. Yang, K.J. Chua, J. Li (李君) and K.L. Zhang. Development of micro power generators - A review, Appl Energy, 88, pp. 1-16, 2011.
[2] W.M. Yang*, S.K. Chou, K.J. Chua, J. Li (李君) and X. Zhao. Research on modular micro combustor-radiator with and without porous media, Chem Eng J, 168, pp. 799-802, 2011.
[3] S.K. Chou*, W.M. Yang, J. Li (李君) and Z.W. Li. Porous media combustion for micro thermophotovoltaic system applications, Appl Energy, 87, pp. 2862-67, 2010.
[4] W.M. Yang*, S.K. Chou, J.F. Pan, J. Li (李君) and X. Zhao. Comparison of cylindrical and modular micro combustor radiators for micro-TPV system application, J Micromech Microeng, 20, 085003 (8pp), 2010.
[5] W.M. Yang*, S.K. Chou and J. Li (李君). Microthermophotovoltaic power generator with high power density, Appl Thermal Eng, 29, pp. 3144-48, 2010.
[6] J. Li (李君), S.K. Chou*, Z.W. Li and W.M Yang. Development of a 1D model to predict the flame temperature in cylindrical micro combustors, Heat Transfer Eng, 31, pp. 581-91, 2010.
[7] J. Li (李君), S.K. Chou*, Z.W. Li and W.M. Yang. Experimental investigation of porous media combustion in a planar micro-combustor, Fuel, 89, pp. 708-15, 2010.
[8] J. Li (李君), S.K. Chou*, W.M. Yang and Z.W. Li. Experimental and numerical study of the wall temperature of cylindrical micro combustors, J Micromech Microeng, 19, 015019 (11pp), 2009.
[9] J. Li (李君), S.K. Chou*, Z.W. Li and W.M. Yang. Development of 1D model for the analysis of heat transport in cylindrical micro combustors, Appl Thermal Eng, 29, pp. 1854-63, 2009.
[10] J. Li (李君), S.K. Chou*, G. Huang, W.M. Yang and Z.W. Li. Study on premixed combustion in cylindrical micro combustors: transient flame behavior and wall heat flux, Exptl Thermal Fluid Sci, 33, pp. 764-73, 2009.
[11] J. Li (李君), S.K. Chou*, W.M. Yang and Z.W. Li. A numerical study on premixed micro combustion of CH4-air mixture: effects of combustor size, geometry and boundary conditions on flame temperature, Chem Eng J, 150, pp. 213-22, 2009.
[12] J. Li (李君), S.K. Chou*, Z.W. Li and W.M. Yang. A potential heat source for the micro thermophotovoltaic (TPV) System, Chem Eng Sci, 64, pp. 3282-89, 2009.
[13] J. Li (李君), S.K. Chou*, Z.W. Li and W.M. Yang. Characterization of wall temperature and radiation power through cylindrical dump micro-combustors, Combust Flame, 156, pp. 1587-93, 2009.
[14] J. Li (李君), S.K. Chou*, Z.W. Li and W.M. Yang. A comparative study of H2-air premixed flame in micro combustors with different physical and boundary conditions, Combust Theory Modelling, 12, pp. 325-47, 2008.

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