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李凌

(上海理工大學能源與動力工程學院副院長、工程熱物理研究所所長)

鎖定
李凌,女,漢族,1976年4月出生,籍貫陝西商洛,在職研究生,工學博士,教授,1997年10月加入中國共產黨,1998年7月參加工作。 [2] 
現任上海理工大學能源與動力工程學院副院長、工程熱物理研究所所長。 [1] 
中文名
李凌
國    籍
中國
民    族
漢族
性    別
籍    貫
陝西商洛

目錄

  1. 1 人物經歷
  2. 教育背景
  3. 工作經歷
  1. 2 研究方向
  2. 3 主講課程
  3. 4 所獲榮譽
  1. 5 科研項目
  2. 6 代表論文

李凌人物經歷

李凌教育背景

1994/09-1998/07,西安交通大學,熱能工程,學士
2000/09-2003/03,上海交通大學,熱能工程,碩士
2004/09-2008/06,上海理工大學,工程熱物理,博士

李凌工作經歷

2003/03-至今,上海理工大學,能源與動力工程學院,講師/副教授/教授
2007/03-2008/03,美國密蘇里大學,訪問學者

李凌研究方向

微尺度傳熱、電子設備熱管理、能源的高效利用

李凌主講課程

【本科生課程】工程熱力學、傳熱學、工程熱應用與分析
【研究生課程】高等傳熱學、熱環境工程學

李凌所獲榮譽

1、2021年上海市教衞工作黨委系統優秀共產黨黨員·師德標兵
2、2021年上海市教衞工作黨委系統優秀共產黨黨員
3、上海理工大學教學成果獎特等獎(參加)
4、上海理工大學教學成果獎特等獎(參加)
5、2018年上海市教育系統巾幗建功標兵
6、2014上海市教學成果一等獎(參加)
7、2014年中國機械工業科技二等獎(參加)
8、2014、2006年海理工大學“同學心目中的好老師”
9、2014、2015、2016、2017年上海理工大學教學質量優秀獎一等獎

李凌科研項目

1、熱力系統優化算法研究,上海汽輪機廠有限公司,2021-2022,負責人
2、電廠熱力性能在線評估關鍵技術研究,上海電氣電站設備有限公司,2019-2020,負責人
3、脈衝激光加熱的微尺度導熱和熔化耦合傳熱問題研究,國家自然科學基金,2015-2018,負責人
4、發電機組汽輪機冷端系統優化研究,寶山鋼鐵股份有限公司,2016~2017,負責人
5、3號機組供熱測試與熱平衡特性分析,上海金藝檢測技術有限公司,2017,負責人
6、汽車散熱器性能測試,德朗汽車零部件有限公司,2014~2016,負責人
7、能源審計,日泰(上海)汽車標準間有限公司,2014,負責人
8、具有非傅里葉效應的微納米顆粒固液相變傳熱研究,國家自然科學基金,2011~2013,負責人
9、能源審計,上海宏力半導體有限公司,2013,負責人
10、納米流體非常規熱物理特性的分子動力學研究,高等學校博士點專項基金,2010~2011,負責人
11、蒸汽冷卻器計算分析,中國船舶重工集團公司第719研究所,2010~2011
12、金屬材料表面加工中的相變傳熱研究,上海市科委自然基金,2009~2011,負責人
13、能源利用狀況分析,上海海立鑄造有限公司,2008,負責人
14、週期性通道內的流動與換熱研究,上海市教委發展基金,2006~2007,負責人

李凌代表論文

1. Wang, Z., Li, L*., Regulation of rapid boiling of nanofluids on the hybrid wall: A molecular dynamics simulation, International Journal of Heat and Mass Transfer 183 (2022) 122059
2. Wang, Z., Li, L*., Molecular dynamics simulation of explosive boiling of the H2O-Cu nanofluid, Journal of Molecular Liquids 332 (2021) 115847
3. Wang Q., Li, L*., Yang M., Melting characteristics and dynamic evolution of microstructure of single-crystal gold film irradiated by laser under the non-Fourier effect, Molecular Crystals and Liquid Crystals, 2021.2
4. Yi Liu, Ling Li⁎, Jianli Wang, A novel relation for heat flow using Maxwell thermoelectricity analogy, International Communications in Heat and Mass Transfer 117 (2020) 104745
5. Yi Liu, Ling Li⁎, Yuwen Zhang, Numerical simulation of non-Fourier heat conduction in fins by lattice Boltzmann method, Applied Thermal Engineering 166 (2020) 114670
6. Zhao Wang, Ling Li ⁎, Mo Yang, Molecular dynamics simulation of the wetting characteristics of a nanofluid droplet on rough substrate, Journal of Molecular Liquids 319 (2020) 114204
7. Bo Wang, Yi Liu, Ling Li⁎, Nanofluid double diffusive natural convection in a porous cavity under multiple force fields, Numerical Heat Transfer, Part A, 2020, 77(4): 343–360.
8. Yi Liu, Ling Li⁎, Qin Lou, A hyperbolic lattice Boltzmann method for simulating non-Fourier heat conduction, International Journal of Heat and Mass Transfer 131 (2019) 772–780
9. Yi Liu, Ling Li⁎, Lattice Boltzmann simulation of non-Fourier heat conduction with phase change, Numerical Heat Transfer, Part A, 2019, 76(1): 19–31.
10. Ling Li⁎, Mingyang Wu, Ling Zhou, Lattice Boltzmann Simulations for Melting and Resolidification of Ultrashort Laser Interaction with Thin Gold Film, Int J Thermophys (2018) 39:88
11. Li, L*., Zhao, Sh.,Thermal ablation of thin gold films irradiated by ultrashort laser Pulses,Appl. Phys. A (2016) 122:437
12. Li, L*., Zhou, L., Yang,M., An Expanded Lattice Boltzmann Method for Dual Phase Lag model,International Journal of Heat and Mass Transfer, 93 (2016) 834–838
13. Li, L*., Zhou, L., Shan,Y., Yang, M., Analysis of Rapid Melting and Resolidification in FemtosecondLaser Interaction with Nanoparticle, Numerical Heat Transfer, Part A,2016, Volume: 69, Issue: 08, pages 859 -873
14. H. Zhang, Y.G. Shan, L.Li, M. Lu, R. Li, Modeling the self-assembly of nanoparticles into branchedaggregates from a sessile nanofluid droplet, Applied Thermal Engineering, 94(2016) 650–656
15. Li, L*., Zhou, L., Shan,Y., Zhang, Y., Investigation on Heat Transfer Mechanism of Ultrashort LaserInteraction with Metals, Int J Thermophys (2015) 36:183–203
16. Zhou, L., Li, L*., Zhang,Y., and Shan, Y., Source Distribution Based on Mie's Scattering Theory for HeatConduction in Nanoparticle Subject to Ultrashort Laser Irradiation, NumericalHeat Transfer, Part A, 2014, 66: 605–621.
17. Zhou, L., Li, L*.,Melting and resolidification of gold film irradiated by laser pulses less than100 fs, Appl. Phys. A (2014) 116:2157-2165.
18. Li, L*., Zhou, L., Zhang,Y., Thermal Wave Superposition and Reflection Phenomena during FemtosecondLaser Interaction with Thin Gold Film, Numerical Heat Transfer, Part A:Applications , 2014, Volume: 65, Issue: 12, pages 1139 – 1153.
19. Kang, H., Zhang, Y.,Yang, M., and Li, L., 2012, “Molecular Dynamics Simulation on Effect ofNanoparticle Aggregation on Transport Properties of a Nanofluid,” ASME Journalof Nanotechnology in Engineering and Medicine, 3(2), 021001.
20. Wang, Z., Yang, M., Li,L., and Zhang, Y., 2012, “Oscillation and Chaos in Combined Heat Transfer byNatural Convection-Conduction and Surface Radiation in an Open Cavity,” ASMEJournal of Heat Transfer, 134(9), 094501.
21. Kang, H., Zhang, Y.,Yang, M., and Li, L., 2012, “Nonequilibrium Molecular Dynamics Simulation ofCoupling between Nanoparticles and Base-Fluid in a Nanofluid,” Physics LettersA, 376(4), 521-524.
22. Wang, Z., Yang, M., Li,L., and Zhang, Y., 2011, “Combined Heat Transfer by NaturalConvection-Conduction and Surface Radiation in an Open Cavity under ConstantHeat Flux Heating,” Numerical Heat Transfer, Part A: Applications, 60(4),289-304.
23. Li, L., Zhang, Y., Ma, H.B., and Yang, M., 2010, “Molecular Dynamics Simulation of Effect of LiquidLayering around the Nanoparticle on the Enhanced Thermal Conductivity ofNanofluids,” Journal of Nanoparticle Research, 12(3), 811-821.
24. Zhang, Y., Li, L., Ma, H.B., and Yang, M., 2009, “Effect of Brownian and Thermophoretic Diffusions ofNanoparticles on Nonequilibrium Heat Conduction in a Nanofluid Layer withPeriodic Heat Flux,” Numerical Heat Transfer, Part A, 56(4), 325-341.
25. Li, L., Zhang, Y., Ma, H.B., and Yang, M., 2008, “An Investigation of Molecular Layering at theLiquid-Solid Interface in Nanofluids by Molecular Dynamics Simulation,” PhysicsLetters A, 372(25), 4541–4544.
26. Li, L., Yang, M., andZhang, Y., 2008, “Numerical Study of Periodically Fully-Developed Convection inChannels with Periodically Grooved Parts,” Int. J. Heat Mass Transfer, Vol. 51,No. 11-12, 3057-3065, 2008.
27. N.Y. Zhan, M. Yang, Z.Y.Wang, L. Li and Z.Z. Zheng, Three-dimensional simulation of Rayleigh-Bénardconvection in a rectangular cavity, Progress in Computational Fluid Dynamics,Vol. 8, 2008, pp. 526-535
參考資料