Publications

专著

1. Liangxing Li, Flow and Heat Transfer Research in Multiphase Flow and Porous Media[M], MDPI, St. Alban-Anlage 66m, 4052 Basel, Switzerland, 2024. ISBN 978-3-7258-1140-3 (PDF), https://doi.org/10.3390/books978-3-7258-1140-3
2. 邵婧，李良星，于汶珊著，能源电力企业碳中和管理[M]，北京：化学工业出版社，2023.12.
3. 邵婧，李良星著，可持续消费促进机制及循环经济[M], 北京：机械工业出版社，2020.12

专利

1. 李良星，许向阳，赵浩翔，向祖涛，液态金属与超临界流体多功能耦合换热实验系统及方法，专利号：ZL202310475509.0，申请日期 2023年04月28日，授权公告日，2025年8月29日. 【发明专利】
2. 李良星，王闻婕，向祖涛，许向阳，基于主成分分析和支持向量机的两相流型智能识别方法，专利号：ZL.202310306889.5，授权公告号：CN116340823B，申请日期 2023年03月27日，授权公告日，2025年08月12日. 【发明专利】
3. 李良星，赵浩翔，恽迪，单建强，苟军利，基于主换热器系统的核反应堆功率主动调控方法及系统，专利号：ZL202210714543.4，授权公告号：CN115116642B，申请日期 2022年06月23日，授权公告日，2025年07月15日. 【发明专利】
4. 李良星，郭译文，桂家彬，一种面向数字孪生的铅冷快堆主泵设计方法及系统，专利号：ZL202411343305.2，授权公告号CN119203419B，申请日期 2024年09月25日，授权公告日，2025年05月13日. 【发明专利】
5. 李良星，李翔宇，王闻婕，赵佳元，赵浩翔，一种多孔介质内气液两相流流型智能识别方法，申请日期 2022年01月27日，授权公告日，2024年01月24日. 【发明专利】
6. 李良星，张双雷，王凯琳，一种铅冷快堆核主泵的水力性能优化设计方法[P]，CN112069619B, 申请日期 2020年09月07日，授权公告日，2021年09月01日. 【发明专利】
7. 李良星，李翔宇，赵浩翔，王凯琳，高温铅铋泵热工水力性能和腐蚀速率测量实验系统及方法[P]，CN112096622B, 申请日期 2020年09月07日，授权公告日，2021年06月28日. 【发明专利】
8. 李良星，赵浩翔，李翔宇，王凯琳，一种液态金属泵叶片表面处液态金属流速测量实验系统[P]，CN112083185B, 申请日期 2020年09月07日，授权公告日，2021年06月22日. 【发明专利】
9. 李良星，谢伟，王文鹏，一种颗粒堆积床内气液两相流含气率测量装置及方法[P]，CN109765334B, 申请日期 2018年12月11日，授权公告日，2020年08月28日. 【发明专利】
10. 王华胜，李良星，王凯琳，张双宝，用于识别高温颗粒-水-蒸汽三相动态变化的可视化装置[P]，CN108169259A, 申请日期 2018年02月10日，授权公告日，2018年10月23日. 【实用新型】
11. 王华胜，王凯琳，张双宝，李良星，李会雄，一种自动控制的液滴释放装置[P]，CN107702887A, 申请日期 2017年10月13日，授权公告日，2018年07月06日. 【实用新型】

软件著作权

      1 李良星，张拯政，王闻婕，多相流相界面形状参数提取软件（v1.0）， 登记号:2022SR0917292，软件开发完成日期:2022年04月15日，登记日期:2022年07月11日, 中华人民共和国国家计算机软件著作权

  2 李良星，许向阳，民用飞机着陆距离计算软件（v1.0）， 登记号:2023SR1755621，软件开发完成日期:2023年06月01，登记日期:2023年12月25日，中华人民共和国国家计算机软件著作权登记证书

国际杂志论文

1. Shang Shi, Liangxing Li, Lijun Jian, Zhenxin Lei, Yidan Yuan, A revised lattice Boltzmann model for simulating solid–liquid phase change with aligned heat flow and buoyancy directions Available, Physics of Fluids, 37:073368, 2025.
2. Lijun Jian, Shang Shi, Peng Yu, Liangxing Li, Xiao Zeng, Rubing Ma, Yidan Yuan, An experimental study of dynamic debris bed remelting process in the lower head of reactor pressure vessel, Annals of Nuclear Energy, 224: 111738, 2025.
3. Yiwen Guo, Liangxing Li, Jiabin Gui, Shurui Hu, Neural network approaches for real-time fatigue life estimation by Surrogating the rainflow counting method, International Journal of Fatigue, 197：108941, 2025.【WOS: 001451843900001; IDS: 0NX1H】 
4. Zhenxin Lei, Liangxing Li, Haoxiang Zhao, Shang Shi, Zutao Xiang, and Xiangyang Xu. "Study on Coupled Heat Transfer Characteristics and Performance Optimization for a Helical Coil Heat Exchanger in the Lead-Cooled Fast Reactor." Progress in Nuclear Energy 2025: 105583. 【SCI:001394859200001】
5. Liangxing Li, Shang Shi, Jiayuan Zhao, and Zhenxin Lei. "Numerical Analysis on the Flow and Heat Transfer Characteristics of Heat Exchanger with Cruciform Tube." Annals of Nuclear Energy 2025: 110875. 【SCI:001301714900001】
6. Zutao Xiang, Liangxing Li, Xiangyang Xu, Zhenxin Lei, Shang Shi, and Jiayuan Zhao. "Two-Way Fluid-Structure Coupling Analysis of Liquid Lead-Bismuth Main Coolant Pump Based on Three Different Blade Materials." Nuclear Engineering and Technology 2024: 103385.【SCI:001453980300001】
7. Zutao Xiang, Liangxing Li, Xiangyang Xu, Shang Shi, and Zhenxin Lei. "Experimental and Numerical Studies on the Hydraulic Performance and the Internal Flow Characteristics of Lead-Bismuth in the Main Coolant Pump of Lfr." Nuclear Engineering and Design 2024: 113618. 【SCI:001331066600001】
8. Liangxing Li，Latest Progress and Applications of Multiphase Flow and Heat Transfer，Applied Science-Basel, 12(8): 3369, 2024. https://doi.org/10.3390/app14083369【WOS: 001211382800001; IDS: PA5W8 】
9. Liangxing Li，Zhao Jiayuan, Shao Jing, Coupled performance evaluation method of heat exchanger in a lead-cooled fast reactor based on life-cycle cost and exergy analysis, Annals of Nuclear Energy, 199: 110355, Sep.1, 2024. 【WOS: 001155947800001; IDS: GX4B6；EI: 20240315406609】
10. Xiao Zeng, Liangxing Li Shuanglei Zhang, Jie Pei, Xiangyu Li, Wei Li, Yong Guo, Fengyang Quan, Yidan Yuan1*, Weimin Ma, A Scoping Study on Remelting Process of a Debris Bed in the Lower Head of Reactor Pressure Vessel, Annals of Nuclear Energy, 189: 109848, Sep.1, 2023.【WOS: 000981969400001; IDS: F4HI4；EI: 20231613889495】
11. Xiangyu Li, Liangxing Li*, Weimin Ma. Two-phase flow patterns identification in porous media using feature extraction and SVM [J]. International Journal of Multiphase Flow. 156:104222, 2022 【SCI: 000862876000005】
12. 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】
13. 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】
14. 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】
15. 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, 133：105940，2022【SCI:000806173800006】

16. 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】

17. 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】

18. 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】

19. 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】

20. 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, 157: 106497, 2020.【WOS:000565598600010】
21. Liangxing Li, Wei Xie, Zhengzheng Zhang, Shuanglei Zhang.Pressure drop in packed beds with horizontally or vertically stratified structure, Nuclear Engineering and Technology,52(11):2491-2498, 2020.【WOS:000567837500009】
22. Zhengzheng Zhang, Liangxing Li, Wei Xie, Huasheng Wang. Experimental channels, Experimental Thermal and Fluid Science, 117:110-144,2020.【WOS:000537566000006】
23. Liangxing Li, Wei Xie, Experimental Investigation on Pressure Drops in Fixed Porous Beds Packed with Sand Particles, Journal of Porous Media, 23(3):267-281,2020. 【WOS:000530691100005】

24. Liangxing Li, Shuangbao Zhang, Kailin Wang, Huasheng Wang, Pressure Drops and Dryout Heat Fluxes of Packed Beds with Cylindrical Particles, Heat Transfer Engineering, 41(12):1-12,2019. 【WOS:000534130600002】

25. Liangxing Li, Kailin Wang, Shuangbao Zhang, Xianliang Lei, An experimental study on two-phase flow resistances and interfacial drag in packed porous bed, Nuclear Engineering and Technology, 50(6):842-848, 2018. (WOS:000439417300004; IDS: GN8MN; EI: 20180204619320)
26. Jialun Liu, Huixiong Li, Xianliang Lei, Kaikai Guo, Liangxing Li, Numerical study on the effect of pipe wall heat storage on density wave instability of supercritical water, Nuclear Engineering and Design, 335:106-115,2018.
27. Jialun Liu, Huixiong Li, Xianliang Lei, Qing Zhang, Liangxing Li, An improved model on flow distributions of supercritical pressure water in parallel heated pipes, Applied Thermal Engineering, 130:793-803, 2018.
28. Liangxing Li, Xumao Zou, Huasheng Wang, Shuangbao Zhang, Kailin Wang, Investigations on Two-phase Flow Resistances and Its Model Modifications in a Packed Bed, International Journal of Multiphase Flow, Vol.101, 24-34, 2018. (WOS: 000428829600003; IDS: GB1SD ; EI: 20180204619320)
29. Liangxing Li, Huasheng Wang, Xumao Zou, Liubo Kong, Flow Resistances Characteristics in a Particulate Bed with Configurations of Uniform Mixture and Stratification [J]. Annals of Nuclear Energy, 112:62-70, 2018. (WOS: 000419409100007; IDS: FR9QV, EI: 20174104243566).
30. 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. (WOS: 000392767800050；IDS: EI8OU；EI:20165203192428)
31. Qing Zhang, Huixiong Li, Weiqiang Zhang, Liangxing Li, Xianliang Lei, Effect of fluid temperature on the frictional coefficient of supercritical pressure water flowing in adiabatic horizontal tube, Experimental Thermal and Fluid Science, Vol.75, 189-198, 2016.【SCI：DK4UY；EI: 20163002624662 】
32. Yongchang Feng, Huixiong Li, Liangxing Li, Yifan Zhang, “Investigation of the effect of magnetic field on melting of solid gallium in a bottom-heated rectangular cavity using the lattice Boltzmann method”, Numerical Heat Transfer Part A-Applications, Vol.69, 1263-1279, 2016. 【SCI：DM9KR； EI：20161902362537】
33. Yuqing Xu, Huixiong Li, Liangxing Li, Tingkuan Chen, A review of studies on the flow patterns of gas-liquid two-phase flow in vertical tubes, Development of Research in Microscale and Nanoscale Thermal and Fluid Sciences, p 153-174, January 1, 2016. [EI: 20182705436225]
34. 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. (WOS: 000361413800029; IDS: CR5VZ；EI: 20152400941634)
35. Qing Zhang, Huixiong Li, Weiqiang Zhang, Liangxing Li, Xianliang Lei, Experimental study on heat transfer to the supercritical water upward flow in a vertical tube with internal helical ribs, International Journal of Heat and Mass Transfer, Vol.89, 1044-1053, 2015. 【SCI：CO3AV； EI：20153001071489】
36. Yongchang Feng, Huixiong Li, Liangxing Li, Lin Bu, Tai Wang, “Numerical investigation on the melting of nanoparticle-enhanced phase change materials (NEPCM) in a bottom-heated rectangular cavity using lattice Boltzmann method”, International Journal of Heat and Mass Transfer, Vol.81, 415-425, 2015. 【SCI：AX5FE； EI：20144700212297】
37. Yifan Zhang, Huixiong Li, Liangxing Li, Tai Wang, Qing Zhang, Xianliang Lei, “A new model for studying the density wave instabilities of supercritical water flows in tubes”, Applied Thermal Engineering, Vol.75, 397-409, 2015. 【SCI：AY0BU； EI：20150400455131】
38. 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. 【SCI：AO0CM； EI：20142717884484】
39. Libo Yan, Huixiong Li, Liangxing Li, Chao Wu, “Bubble behavior of flow boiling in horizontal rectangular channels with inclined ribs”, International Journal of Heat and Mass Transfer, Vol.75, 514-522, 2014. 【SCI：AI8TJ；EI：20144400140949】
40. N. Chikhi, O. Coindreau, L.X. Li, W.M. 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 Energy，Vol.74, 24-41, 2014. 【SCI：AR1IB； EI：20151000592919】
41. Yifan Zhang, Huixiong Li, Liangxing Li, Xianliang Lei, Tai Wang, “Study on two-phase flow instabilities in internally-ribbed tubes by using frequency domain method”, Applied Thermal Engineering, Vol.65, 1-13, 2014. 【SCI：AG0IL； EI：20140617269843】
42. 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. [SCI: 098LG; IF: 0.905； EI：20141517553804]
43. 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; IF: 2.064；EI：20130215874672]
44. 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; EI: 20115214645019]
45. 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: 867HS; EI: 20120214676390]
46. Liangxing Li, Weimin Ma, “Experimental study on the effective particle diameter of a packed bed with non-spherical particles”, Transport in Porous Media, Vol.89, 35-48, 2011. [SCI: 789ZT; EI: 20112814138012]
47. Liangxing Li, Weimin Ma, “Experimental characterization of effective particle diameter of a packed bed with multi-diameter spheres”, Nuclear Engineering and Design, Vol. 241, 1736-1745, 2011. [SCI: 770ZC; EI: 20111713932430] 
48. Liangxing Li, Huixiong Li, Tingkuan Chen, “Experimental investigation on the moving characteristics of molten metal droplets impacting coolant”, Experimental Thermal and Fluid Science, Vol.32, 962-972, 2008. [SCI: 281DH; EI: 080711096161]  
49. Liangxing Li, Huixiong Li, Takeshi Kawai, et al., “Evaluation of the void fraction in the crescent-shape moderator cell of the CARR-CNS”, Physica B, Vol. 403, 2036-2042, 2008. [SCI: 305GC; EI: 081611208420]
50. Liangxing Li, Huixiong Li, Jinfeng Hu, et al., “Study on void fraction distribution in the moderator cell of cold neutron source systems in China Advanced Research Reactor”, Physica B, Vol.393, 336-346, 2007. [SCI: 164OD; EI: 071410533649]
51. Liangxing Li, Huixiong Li, Tingkuan Chen and Weimin Ma, “Dynamic characteristics of molten droplets and hot particles falling in liquid pool”, Frontiers of Energy and Power Engineering in China, Vol. 4, No. 2, pp.246-251, 2010.

中文杂志论文

1. 郭译文，李良星，桂家彬，面向铅冷快堆主泵数字孪生的多输入PINN代理模型，原子能科学技术，59(5)：1085-1093，2025
2. 桂家彬，李良星，郭译文，用于风机疲劳寿命实时追踪的高阶峰谷识别法，西安交通大学学报，59(7): 2025.
3. 许向阳，李良星，向祖涛，机翼近场尾流流动特性的附着涡模型分析，西安交通大学学报，59(4):213-222, 2025.
4. 李良星，许向阳，向祖涛，石尚，雷振欣，冷却条件下液态铅横流管束流动传热特性研究，核动力工程，46(1):116-127, 2025
5. 李良星，石尚，赵浩翔，赵佳元，液态铅-超临界二氧化碳换热器设计及多目标优化研究，核动力工程，45(04), 196-204, 2024. 【EI：20243316886725】
6. 李良星，雷振欣，赵浩翔，石尚，许向阳，向祖涛，铅-超临界二氧化碳换热器耦合流动传热特性研究，西安交通大学学报，58(10)：212-221, 2024.  0411网络首发 [EI: 20244217212580]
7. 李良星, 向祖涛, 赵佳元,铅冷快堆主换热器内冷却剂流动换热特性研究 [J]. 核科学与工程, 2024, 44(04): 853-63.
8. 李良星，许向阳，向祖涛，石尚，雷振欣，冷却条件下液态铅横流管束流动传热特性研究，核动力工程，2025，46(01): 116-27【EI:20250517788218】
9. 李良星，石尚，赵浩翔，赵佳元，液态铅-超临界二氧化碳换热器设计及多目标优化研究，核动力工程，2024，45(04): 196-204【EI:20243316886725】
10. 李良星，雷振欣，赵浩翔，石尚，许向阳，向祖涛，铅-超临界二氧化碳换热器耦合流动传热特性研究，西安交通大学学报，2024, 58(10): 212-21【EI:20244217212580】
11. 张拯政，李良星*，马卫民，元一单，杨小明，马如冰，径向分层碎片床内流动特性研究，原子能科学技术[J]，56(10): 2032-2040, 2022.【EI：20225013249203】

12. 李翔宇，李良星，王闻婕，杨小明，马如冰，元一单，马卫民，基于支持向量机的多孔介质两相流型识别方法研究，工程热物理学报，43(11): 2957-2965, 2022. 【EI：20224613124703】

13. 张双雷，李良星，宋立明，轴流铅铋泵流场分析及优化，核动力工程，43(3):158-164, 2022. 【EI：20222412217599】
14. 张拯政，李良星，张双雷，李翔宇，近壁面液膜层中微孔注气气泡动力学研究，热能动力工程，36(2): 57-66, 2021
15. 王凯琳，李良星，张双雷，张拯政，轴流铅铋泵的设计及其水力性能分析，西安交通大学学报，54（11）：166-174，2020. [EI: 20205009615683]
16. 徐志昊，李良星，张拯政，流动沸腾气泡行为特性的数据驱动分析技术，西安交通大学学报，54（11）：175-184，2020. [EI: 20205009615703]
17. 张双宝，李良星，谢伟，王凯琳，球床式高温气冷堆堆芯三维建模及稳态热工水力分析[J],中国科学院大学学报, 37(2): 186-191, 2020.
18. 李良星，王华胜，王凯琳，张双宝，砂石颗粒堆积床内流动特性研究，动力工程学报, 39(4):109-114, 2019.
19. 李良星，王凯琳，谢伟，张双宝，分层结构颗粒堆积床内的流动阻力特性研究，西安交通大学学报，53(7): 60-66,2019.【EI：20194307574686】
20. 邵一穷，李良星，盛天佑，多尺寸颗粒堆积多孔介质通道内流动特性研究，科技视界, 6:1-4，2018。
21. 邹旭毛，李良星，孔刘波，王华胜，颗粒堆积床内两相流动阻力及相间摩擦力研究，上海交通大学学报，51(3), 63-68 2017. 【EI：20172803930229】
22. 李良星，邹旭毛，孔刘波，不同堆积结构颗粒床内的流动特性研究，西安交通大学学报，50(9), 49-54, 2016.【EI：20163802829253】
23. 郭宇朦，李会雄，雷贤良，李良星，页岩气多裂缝通道中的沉降特性研究，计算机仿真，33(1), 116-121, 2016.
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25. 李良星，李会雄，陈听宽等，熔融液滴与冷却剂相互作用实验中液滴释放控制机构研制[J]，核动力工程， 29(1):42-45，2008。 [EI: 081511195685]
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28. 王为术，李良星，李会雄等，滑行过程中火箭发动机泵系统各构件温度数值模拟[J],推进技术, 26(5), 395-397，2005。 [EI: 05519604625]
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