基本信息

 

 

李良星,副教授,硕/博士生导师

动力工程多相流国家重点实验室

西安交通大学

研究方向

多相流动与传热的理论和实验研究;

多孔介质内的流动与传热;

流动沸腾及其强化传热;

先进反应堆热工水力;

反应堆严重事故实验和理论研究;

大数据及数据驱动分析

联系方式

兴庆校区:

西安交通大学动力工程多相流国家重点实验室,西209室

陕西省西安市咸宁西路28号, 710049

 

创新港校区

地址:西安交通大学动力工程多相流国家重点实验室/能源科学与技术研究院
            陕西省西咸新区沣西新城中国西部科技创新港,712000

办公地点:敏行楼(1号巨构)1-3161

 

Email:liangxing.li@mail.xjtu.edu.cn

个人主页:http://gr.xjtu.edu.cn/web/liangxing.li

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State Key Laboratory of Multiphase Flow in Power Engineering,Xi'an Jiaotong University

Xianning West Road 28#, Xi'an city, 710049, P.R. China

Email:liangxing.li@mail.xjtu.edu.cn

我的新闻

闹钟10

工作经历

2013.01—至今       副教授                                  西安交通大学动力工程多相流国家重点实验室

2012.062012.12  高级研究员(兼)    Sehgal 咨询公司(瑞典)

2010.062012.12  高级研究员/硕、博导师     瑞典皇家工学院,物理系,核动力安全研究室

2008.062010.05  博士后              瑞典皇家工学院,物理系,核动力安全研究室

教育经历

2001.09-2008.05   硕博连读   动力工程及工程热物理  西安交通大学

1997.09-2001.06   本科           热能工程        湛江海洋大学(今广东海洋大学)

研究工作

面向能源(化石能源和新能源)、动力(常规动力和核动力)领域内关键理论和核心技术,围绕多相流动传热问题开展理论分析、实验研究和数值计算研究工作,研究方向涉及流动沸腾及强化换热、多孔介质内单相/两相流动换热、先进反应堆热工水力及关键部件的优化设计、反应堆严重事故缓解技术等,并积极探索和利用大数据与数据驱动分析技术、低碳经济及可持续发展理论开展学术交叉研究。

                                           

      

                

                                           

                                          

 

 

                                               

                                                

                                            

 

 

 

 

 

 

代表性论文

          已发表学术论文100余篇。节选如下:

 

  1. Xiangyu Li, Liangxing Li*, Weimin Ma. Two-phase flow patterns identification in porous media using feature extraction and SVM [J]. International Journal of Multiphase Flow156:104222, 2022 SCI: 000862876000005
  2. Xiangyu Li, Liangxing Li*, Wenjie Wang, et al., Machine learning techniques applied to identify the two-phase flow pattern in porous media based on signal analysis[J]. Applied Sciences-Basel, 12(17): 8575, 2022 . SCI: 000852503500001
  3. Liangxing Li*, Haoxiang Zhao, Jiayuan Zhao, Xiangyu Li. Single/Multi-Objective Optimi- zation Design and Numerical Studies for Lead-to-Supercritical Carbon Dioxide Heat Exchanger Based on Genetic Algorithm [J]. Applied Sciences-Basel, 12:7656, 2022. SCI: 000838841700001
  4. Haoxiang Zhao, Liangxing Li, Xiangyu Li, Zhengzheng Zhang. Experimental study and analysis on the interfacial drag of two-phase flow in porous media[J]. Annals of Nuclear Energy, 2022, 172: 109085. SCI: 000793300600005
  5. Zhengzheng Zhang, Liangxing Li, Weimin Ma, Yidan Yuan, et al., Experimental and numerical studies on the two-dimensional flow characteristics in the radially stratified porous bed, International Communications On Heat and Mass Transfer, 1331059402022SCI:000806173800006

  6. Xiangyu Li, Liangxing Li, Haoxiang Zhao, Xiaoming Yang, et al., Identification of two-phase flow pattern in porous media based on signal feature extraction, Flow Measurement and Instrumentation, 83:102123, 2022.SCI:000744536000004

  7. Jiayuan Zhao, Liangxing Li, Wei Xie, Haoxiang Zhao. Flow and heat transfer characteristics of liquid metal and supercritical CO2 in a twisted tube heat exchanger. International Journal of Thermal Sciences, 174: 107453, 2022.SCI:000744796700003

  8. Zhang, Shuangbao, Liangxing Li, Zhengzheng Zhang, Shuanglei Zhang. Three-dimensional modeling and loss-of-coolant accident analysis of high temperature gas cooled reactor. Annals of Nuclear Energy 1502021:107840, 2021.SCI:000590396000047

  9. Kailin Wang, Liangxing Li,et al., Design and hydraulic performance studies on an axial lead-bismuth pump for Gen-IV reactors, International Journal of Energy Research, 45: 11822-11836, 202. SCI:000556031800001

  10. Liangxing Li, Zhihao Xu, Wei Xie, Zhengzheng Zhang.A Sensitivity Analysis of Bubble Departure Behavior in Vertical Channel Nucleate Boiling,  International Journal of Thermal Sciences,Vol.157: 106497, 2020.SCI:000565598600010

  11. Liangxing Li, Wei Xie, Zhengzheng Zhang, Shuanglei Zhang.Pressure drop in packed beds with horizontally or vertically stratified structure, Nuclear Engineering and Technology, Vol.52(11):2491-2498, 2020.SCI:000567837500009
  12. Zhengzheng Zhang, Liangxing Li, Wei Xie, Huasheng Wang.Experimental study of bubble formation process on the micro-orifice in mini channels, Experimental Thermal and Fluid Science, Vol.117:110-144,2020.SCI:000537566000006
  13. Liangxing Li, Wei Xie, et al., Experimental investigation on pressure drops in fixed porous beds packed with sands particles, Journal of porous media, 26(3):267-281, 2020. SCI: 000530691100005; EI: 20201508395056
  14. Liangxing Li, Shuangbao Zhang, Kailin Wei, Wei Xie. Pressure Drops and Dryout Heat Fluxes of Packed Beds with Cylindrical Particles, Heat Transfer Engineerung, Vol.41(12):1-12,2019. SCI:000534130600002; EI2019190689 6503
  15. Liangxing Li, Kailin Wang, Shuangbao Zhang, Wei Xie. An experimental study on two-phase flow resistances and interfacial drag in packed porous bed, Nuclear Engineering and Technology ,Vol. 50(6):842-848, 2018.SCIGN8MN EI20180204619320
  16. Liangxing Li, Xumao Zou, Huasheng Wang, Shuangbao Zhang.  Investigations on two-phase flow resistances and its model modifications in a packed  bed. International Journal of Mutiphase of Flow, Vol.101, 24-34, 2018.SCIGB1SD EI20180204619320
  17. Liangxing Li, Huasheng Wang, Xumao Zou,  Liubo Kong. Flow resistancescharacteristics in a particulate bed with the configurations of uniform mixture and stratification. Annals of Nuclear Energy, Vol.112, 62-70, 2018.SCIFR9QV EI20174104243566
  18. Liangxing Li, Liubo Kong, Xumao Zou, Huasheng Wang. Pressure losses and interfacial drag for two-phase flow in porous beds with coarse particles. Annals of Nuclear Energy, Vol.101, 481-488, 2017. SCIEI8OU EI20165203192428
  19. Liangxing Li, Xumao Zou, JiaoJiao Lou, Huixiong Li, Xianliang Lei.  Pressure drops of single/two-phase flows through porous beds with multi-sizes spheres and sands particles. Annals of Nuclear Energy, Vol.85, 290-295, 2015. SCICR5VZ EI20152400941634
  20. Sachin Thakre, Liangxing Li, Weimin Ma. An experimental study on coolability of a particulate bed with radial stratification or triangular shape.  Nuclear Engineering and Design, Vol.276, 54-63, 2014. SCIAO0CM EI20142717884484
  21. N. Chikhi, O. Coindreau, LiangXing. Li, W.. Ma, V. Taivassalo, E. Takasuo, S. Leininger, R. Kulenovic, E. Laurien.  Evaluation of an effective diameter to study quenching and dry-out of complex debris bed. Annals of Nuclear EnergyVol.74, 24-41, 2014. SCIAR1IBEI20151000592919
  22. Sachin Thakre, Weimin Ma, Liangxing Li. A numerical analysis on hydrodynamics deformation of molten droplets in a water pool, Annals of Nuclear Energy, Vol.53, 228-237, 2013. SCI098LG  EI20141517553804
  23. Shengjie Gong, Weimin Ma, Liangxing Li. An experimental study on the effect of liquid film thickness on bubble dynamics, Applied Thermal Engineering, Vol.51, 459-467, 2013. SCI: 104ZV EI20130215874672
  24. Liangxing Li, Weimin Ma, Sachin Thakre. An experimental study on pressure drop and dryout heat flux of two-phase flow in packed beds of multi-sized and irregular particles.  Nuclear Engineering and Design, Vol.242, 369-378, 2012.  SCI 903AH EI20115214645019
  25. Liangxing Li, Shengjie Gong, Weimin Ma. Experimental study of two-phase flow regime and pressure drop in a particulate bed packed with multidiameter particles. Nuclear Technology, Vol.177, 107-118, 2012. SCI: 867HSEI: 20120214676390

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