1. Y. Yu, J.-C. Li, H. Lin, K. Li, F. Yi, Study on ethanol driven by alternating current electroosmosis in microchannels, Sensors and Actuators A: Physical. 351 (2023) 114174. https://doi.org/10.1016/j.sna.2023.114174.
2. Z. Guo, J. Li, K. Li, J. Zhao, W. Hu, Dependency of transition in thermocapillary convection on volume ratio in annular pools of large-Pr fluid in microgravity, International Journal of Heat and Mass Transfer. 208 (2023) 124059. https://doi.org/10.1016/j.ijheatmasstransfer.2023.124059.
3. Wu, Zongyu,Li K,Han, Wei,et al. Simulation Analysis of Liquid Flow in a Vane-type Surface Tension Tank[J]. MICROGRAVITY SCIENCE AND TECHNOLOGY,2022,34(5):8.
4. Wang J,Guo ZY,Jing CJ,Duan L,Li K,Hu WR. Effect of volume ratio on thermocapillary convection in annular liquid pools in space[J]. INTERNATIONAL JOURNAL OF THERMAL SCIENCES,2022,179:9.
5. Li K,Zhao JF,Kang Q,et al. Academician Wen-Rui Hu - Eminent Pioneer and Prominent Leader of Microgravity Science in China[J]. MICROGRAVITY SCIENCE AND TECHNOLOGY, 2,2022,34:19.
6. 郭子漪,赵建福,李凯,等. 基于POD-Galerkin降维方法的热毛细对流分岔分析[J]. 力学学报,2022,54(05):1186-1198.
7. Li JC,Guo B,Zhao JF,Li K,Hu WR. On the Space Thermal Destratification in a Partially Filled Hydrogen Propellant Tank by Jet Injection[J]. MICROGRAVITY SCIENCE AND TECHNOLOGY,2022,34(1):25.
8. 郭斌,赵建福,李凯,等. 零重力条件下低温射流抑制大尺寸液氢储罐热分层的数值研究[J]. 力学学报,2021,53(04):1170-1182.
9. 郭子漪,李凯,康琦,等. 界面张力梯度驱动对流向湍流转捩的研究[J]. 力学进展,2021,51(01):1-28.
10. 赵建福,王双峰,刘强,何振辉,张伟,李凯等. 中国微重力科学研究回顾与展望[J]. 空间科学学报,2021,41(01):34-45.
11. 郭斌,赵建福,李凯,等. 低温射流抑制空间液氢储罐温度分层的数值研究[J]. 空间科学学报,2020,40(6):1052-1065.
12. Li JC,Lin H,Li K,et al. Dynamic Behavior in a Storage Tank in Reduced Gravity Using Dynamic Contact Angle Method[J]. MICROGRAVITY SCIENCE AND TECHNOLOGY,2020,32:1039–1048.
13. Li JC,Lin H,Li K,et al. Liquid Sloshing in Partially Filled Capsule Storage Tank Undergoing Gravity Reduction to Low/Micro-Gravity Condition[J]. MICROGRAVITY SCIENCE AND TECHNOLOGY,2020,32:587–596.
14. Li JC,Lin H,Zhao JF,Li K,Hu WR. Dynamic Behaviors of Liquid in Partially Filled Tank in Short-term Microgravity[J]. MICROGRAVITY SCIENCE AND TECHNOLOGY,2018,30(6):849-856.
15. Yu Y,Li K,Lin H,et al. The Study of the Mechanism of Protein Crystallization in Space by Using Microchannel to Simulate Microgravity Environment[J]. CRYSTALS,2018,8(11):Ar-400.
16. Li K,Xun B,Hu WR,et al. Some bifurcation routes to chaos of thermocapillary convection in two-dimensional liquid layers of finite extent[J]. PHYSICS OF FLUIDS,2016,28(5):54106.
17. Li K,Matsumoto S,Imaishi N,et al. Marangoni flow in floating half zone of molten tin[J]. INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER,2015,83:575-585.
18. Xun B,Li K,Hu WR,et al. Instability of thermocapillary flow in liquid layers under microgravity[J]. SCIENCE CHINA-PHYSICS MECHANICS & ASTRONOMY,2012,55(4):684-692.
19. Li K,Tang ZM,Hu WR,et al. Coupled thermocapillary convection on Marangoni convection in liquid layers with curved free surface[J]. INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER,2012,55(9-10):2726-2729.
20. Li K,Tang ZM,Hu WR,et al. Influence of the heating rate on the critical Marangoni number of oscillatory thermocapillary convection in the floating half zone[J]. Science China-Physics Mechanics & Astronomy,2012,55(1):102-107.
21. A Y,Li K,Cao ZH,et al. Aspect-ratio dependent oscillatory thermocapillary convection in the floating half zone[J]. Science China-Physics Mechanics & Astronomy,2011,54(2):338-341.
22. Xun B,Li K,Hu WR,et al. Effect of interfacial heat exchange on thermocapillary flow in a cylindrical liquid bridge in microgravity[J]. International Journal of Heat and Mass Transfer,2011,54(9-10):1698-1705.
23. 胡文瑞,唐泽眉,李凯. 矩形液池中热毛细对流起振过程的数值模拟[J]. 中国科学. 技术科学,2010,40(4):370-377.
24. A Y,Li K,Tang ZM,et al. Period-doubling bifurcations of the thermocapillary convection in a floating half zone[J]. Science China-Physics Mechanics & Astronomy,2010,53(9):1681-1686.
25. Hu WR,Tang ZM,Li K. Numerical study on onset of oscillatory thermocapillary flow in rectangular liquid pool[J]. Science China-Technological Sciences,2010,53(4):1069-1076.
26. Xun B,Li K,Hu WR,et al. Effect of volume ratio on thermocapillary flow in liquid bridges of high-Prandtl-number fluids[J]. Physical Review E,2010,81(3):36324.
27. 胡文瑞,唐泽眉,李凯,等. 浮区热毛细对流[J]. 力学进展,2009,39(3):360-377.
28. Xun B,Li K,Chen PG,et al. Effect of interfacial heat transfer on the onset of oscillatory convection in liquid bridge[J]. International Journal of Heat and Mass Transfer,2009,52(19-20):4211-4220.
29. Li K,Xun B,Imaishi N,et al. Thermocapillary Flows In Liquid Bridges Of Molten Tin With Small Aspect Ratios[J]. International Journal of Heat and Mass Transfer,2008:1190-1196.
30. Tang ZM,Li K,Hu WR,et al. Influence Of Free Surface Curvature Of A Liquid Layer On The Critical Marangoni Convection[J]. International Journal of Heat and Mass Transfer,2008:5102-5107.
31. Xun B,Chen PG,Li K,et al. A Linear Stability Analysis Of Large-Prandtl-Number Thermocapillary Liquid Bridges[J]. Advances In Space Research,2008:2094-2100.
32. Hu WR,Tang ZM,Li K,et al. Thermocapillary Convection in Floating Zones[J]. Applied Mechanics Reviews,2008,61(1):010803-1(15pages).
33. Li K,Imaishi N,Jing CJ,et al. Proper orthogonal decomposition of oscillatory Marangoni flow in half-zone liquid bridges of low-Pr fluids[J]. Journal of Crystal Growth,2007,307(1):155-170.
34. K. Li, S. Yasuhiro, N. Imaishi, S. Yoda. Marangoni Flow in Half-Zone Liquid Bridge of Molten Tin under Ramped Temperature Difference. Journal of Crystal Growth, 280 (2005), 620-631.
35. N. Imaishi, K. Li, S. Yasuhiro, S. Yoda. Oscillatory Marangoni Flow in Half-Zone Liquid Bridge of Molten Tin. JAXA Research and Development Report, JAXA-RR-04-027 (2005), 95-111.
36. K. Li, B.Q. Li, J. Handa, H.C. de Groh. Three-dimensional Numerical Simulation of G-jitter Induced Convection and Solute Transport in Magnetic Fields. International Journal of Numerical Methods for Heat and Fluid Flow, 15 (2005), 872-893.
37. S. Yasuhiro, K. Li, N. Imaishi, Y. Akiyama, H. Natsui, S. Matsumoto, S. Yoda. Oscillatory Marangoni Flow in Half-Zone Liquid Bridge of Molten Tin. Journal of Crystal Growth, 266 (2004), 152-159.
38. B.Q. Li, Y. Shu, K. Li, H.C. de Groh. Fluid Flow and Solidification under Combined Action of Magnetic Fields and Microgravity. Materials and Manufacturing Processes, 19 (2004), 679-694.
39. K. Li, B.Q. Li, H.C. de Groh. Effect of Magnetic Field on G-jitter Induced Convection and Solute Striation during Solidification in Space. International Journal of Heat and Mass Transfer, 46 (2003), 4799-4811.
40. K. Li, B.Q. Li, H.C. de Groh. Three-dimensional Gravity-jitter Induced Melt Flow and Solidification In Magnetic Fields. Journal of Thermophysics and Heat Transfer, 17 (2003), 498-508.
41. K. Li, B.Q. Li, H.C. de Groh. Numerical Analysis of Double-Diffusive Convection/ Solidification Under G-Jitter/Magnetic Fields. Journal of Thermophysics and Heat Transfer, 17 (2003), 199-209.
42. Li K,Hu WR.Influence of Local Magnetic Fields on P-Doped Si Floating Zone Melting Crystal Growth in Microgravity[J]. Crystal Growth & Design,2003,3(1):73-78.
43. K. Li, B.Q. Li, H.C. de Groh. Finite Element Study of Double Diffusive Convection and Solidification under the Combined Influence of Microgravity and Magnetic fields. IMECE (2002), 33881.
44. Li K,Hu WR,Hu, WR . Effect of non-uniform magnetic field on crystal growth by floating-zone method in microgravity[J]. Science in China Series A-Mathematics Physics Astronomy,2001,44(8):1056-1063.
45. Li K,Hu WR,Hu, WR . Numerical simulation of magnetic field design for damping thermocapillary convection in a floating half-zone[J]. Journal of Crystal Growth,2001,222(3):677-684.
46. Li K,Hu WR,Hu, WR . Magnetic field design for floating zone crystal growth[J]. Journal of Crystal Growth,2001,230(1-2):125-134.
47. 李凯,徐自亮. 微重力环境和外加磁场对晶体生长中杂质分凝的影响[J]. 力学进展,1999,29(2):221. 48. 李凯 (编译),空间站的工业应用, 863航天科技通讯,第11卷 (1996),52-56
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