|
主题方向
|
论文信息
|
|
复杂多相流动模型及机理研究
|
1.
Zihao Cheng, Yan Ba, Jinju Sun* et al, A numerical study of droplet dynamic behaviors on microstructured surface with three dimensional color-gradient lattice Boltzmann model, Soft Matter, 1744-683X, 2017 (SCI:10.1039/C7SM02078C, IF3.709)
2.
Yan Ba, Haihu Liu,Qing Li, Qinjun Kang, and Jinju Sun*, Multiple-relaxation-time color-gradient lattice Boltzmann model for simulating two-phase flows with high density ratio, Physical Review E, 2016,94(2), (SCI:WOS:000381492200017, IF 2.313)
3.
Yan Ba, Haihu Liu, Jinju Sun*, et al, Color-gradient lattice Boltzmann model for simulating droplet motion with contact-angle hysteresis, Physical Review E, 2013, 88(4), 043306(1-13). (SCI: 240RE
;
EI: 20134516944120, IF 2.313)
4.
Yan Ba, Qinjun Kang, Haihu Liu, Jinju Sun*, Chao Wang, Three dimensional lattice Boltzmann simulations of microdroplets including contact angle hysteresis on topologically structured surfaces, Journal of Computational Science, 2016, 17 (SCI WOS:0003906258000, IF1.925)
5.
Yan Ba, Haihu Liu, Jinju Sun* et al,Three dimensional simulations of droplet formation in symmetric and asymmetric T-junctions using the color-gradient lattice Boltzmann model, International Journal of Heat and Mass Transfer, Volume 90, November 2015, Pages 931-947 (SCI:CX0BH, IF3.891)
6.
Rongye Zheng, Haihu Liu, Jinju Sun*, et al, Droplet hysteresis investigation on non-wetting striped textured surfaces: A lattice Boltzmann study, Physica A: Statistical Mechanics and its Applications, Volume 411, 1 October 2014, Pages 53-62 (SCI: AN1GI, IF2.132)
7.
Rongye Zheng, Jinju Sun*, haihu Liu, A modeling approach to droplet contact-line motion dynamics in high-density-ratio two-phase flow, Computers and Fluids, Computers and Fluids, 2013, 73(1): 175-186 (SCI: 099GF
;
EI: 20130716026063; IF
:
2.221)
8.
J Sun*
, H Xi, S Huang, 2006, Investigation of airflow and contaminant aerosol distribution in an operation theater with heated-walls, Proceedings of the 3rd Asian Conference on Refrigeration and Air-Conditioning Vols I and II, pp627
(
EI20143418075537
)
|
|
适合高维高非线性复杂问题的全局并行优化方法研究及其在压缩机
/
膨胀机
/
泵等设计中的应用
|
9.
Peng Song, Jinju Sun*, Blade shape optimization for transonic axial flow fan, Journal of Mechanical Science and Technology, 2015 29(3) (SCI:CD7SD, IF1.194)
10.
Peng Song, Jinju Sun*, Ke Wang, Swirling and cavitating flow suppression in a cryogenic liquid turbine expander through geometric optimization, Journal of Power and Energy, 2015, 229(6) (SCI:CQ2CY, IF1.022)
11.
Peng Song, Jinju Sun*, Ke Wang, Axial flow compressor blade optimization through flexible shape tuning by means of cooperative co-evolution algorithm and adaptive surrogate model, Journal of Power and Energy, 2014, 228:782-798 (SCI: AQ5AS, IF1.022)
12.
J Sun
and R L Elder*, Numerical optimisation of a stator vane setting in multistage axial flow compressors, IMech E proceedings, Journal of power and energy, 212 (A4): 247-259, 1998 (SCI: WOS:000076411100005; IF1.022)
13.
Xiaomin Liu* , Bin Zhang , Jinju Sun, An improved implicit reinitialization method for the level set function applied to shape and topology optimization of fluid, Journal of Computational and Applied Mathematics, 2015, 281(6) (SCI
:
WOS:000350529500017
;
IF: 1.63)
14.
B Zhang, X Liu*, J Sun, Topology optimization design of non-Newtonian roller-type viscous micropumps, Structural and Multidisciplinary Optimization, 2016, 53: 409-424 (SCI:WOS000372615400003; IF: 2.876)
15.
Youwei He, Jinju Sun*, Peng Song, et al, Development of a multi-objective preliminary design optimization approach for axial flow compressors, ASME Turbo Expo 2018, GT2018-76155 (EI 20184005895820)
16.
Xuesong Wang, Jinju Sun*, Peng song, et al, Three-dimensional blade shape optimization for a transonic axial flow compressor though incoporating surrogate model and sequential sampling, ASME Turbo Expo 2018, GT2018-75448 (EI20184005897399)
17.
Bin Zhang , Xiaomin Liu* , Jinju Sun, Topology Optimization for Stokes Problem Under Multiple Flow Cases Using an Improved Level Set Method, Proceedings of ASME 2013 Fluids Engineering Division Summer Meeting, FEDSM2013-16155 (EI20140517253214)
18.
Peng Song, Jinju Sun*, Ke Wang, and Zhilong He, 2011, Development of an Optimization Design Method for Turbomachinery by Incorporating the Cooperative Coevolution Genetic Algorithm and Adaptive Approximate Model, ASME Turbo Expo 2011, Paper No. GT2011-45411 (EI20123615387829)
19.
Rongye Zheng, Jianhua Xiang, and Jinju Sun*, 2010, Blade Geometry Optimization for Axial Flow Compressor, ASME Turbo Expo 2010, Paper No. GT2010-22229 (EI20114814562208
)
20.
Elder, R. L*, Sun, J. and P. Wiess, Optimising Variable stator vane setting in multistage axial flow compressors. Seventh European Congress on Fluid Machinery, the Hague, Netherlands, April, 1999
|
|
流固耦合流动模型和机理,以及风扇
/
风机气动
-
振动噪声研究和抑制
|
21.
Chao Wang, Jinju Sun*, Zihao Cheng, Development of a vortex method with penalization for modeling the complex fluid and moving/deforming solid interaction, International Journal of Numerical Methods for Heat & Fluid Flow, Vol. 28 Issue 8
,
2018, pp.1809-1826, https://doi.org/10.1108/HFF-11-2017-0443 (SCI:WOS:000447730300005; IF2.45)
22.
Chao Wang, Jinju Sun*, Yan Ba, A semi-Lagrangian Vortex-In-Cell method and its application to high-Re lid-driven cavity flow, International Journal of Numerical Methods for Heat and Fluid Flow, 2017 27(6) (SCI:000406920500001, IF 2.450)
23.
Xifeng Zhao, Jinju Sun*, Zhi Zhang, Prediction and measurement of axial flow fan aerodynamic and aeroacoustic performance in a split-type air-conditioner outdoor unit, International Journal of Refrigeration, Volume 36, Issue 3, May 2013, Pages 1098-1108 (SCI: 120EE
;
EI: 20131316143172, IF3.233)
24.
Xifeng Zhao, Jinju Sun*, Chao Wang, et al, Experimental and numerical study of electronic module-cooling heat sinks used in a variable frequency air-conditioner outdoor unit, International Journal of Refrigeration, 2014,38(2): 10-21. (SCI: AC8RX, IF3.233)
25.
Xifeng Zhao, Jinju Sun*, Renheng, Gao, Quantitative evaluation of flow-induced fan casing structual vibration and noise radiation of air-conditioner outdoor unit, Proceedings of ASME Turbo Expo 2014, Dusseldorf, Germany, GT2014-25809 (EI20150600496502)
26.
Xifeng Zhao, Jinju Sun*, and Zhi Zhang, 2011, Numerical and Experimental Investigation of Flow Behaviour and Aerodynamic Noise in Axial Flow Fan of Air-conditioner, ASME Turbo Expo 2011, Paper No. GT2011-45280 (EI20123615387816)
27.
Xifeng Zhao, Jinju Sun*, Youwei He, Kang Lin, Numerical and experimental investigation of noise radiation for double-suction centrifugal fans of airconditioner indoor unit, ASME Turbo Expo 2016, GT2016-56773 ( EI20164302940350)
|
|
叶轮机械内流及其影响下的强度及转子动力学分析等研究
|
28.
Ke Wang, Jinju Sun*, Peng Song, Experimental study of cryogenic liquid turbine expander with closed-loop liquefied nitrogen system, Cryogenics, Volume 67, April 2015, Pages 4-14 (SCI:CE9OB, IF1.196)
29.
J Sun*
et al, Investigating multistage axial flow compressor instabilities, Chinese Journal of Mechanical Engineering , 2003, No.1 (CSCD:1273420)
30.
J Sun
and H Tsukamoto*, Off-design performance prediction for diffuser pumps, Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy, Vol 215, Issue 2, pp. 191-201, 2001 (SCI: WOS:000169204000006; IF1.022)
31.
X Hu*, Z Qu, X Yang, J Sun, Theoretical study on frictional losses of a novel automotive swing vane compressor, International Journal of Refrigeration, 2013, 36(3): 1098-1108 (SCI: 120EE; EI20131316143158; IF
:
3.233
)
32.
Xuesong Wang, Jinju Sun*, Changjiang Huo, Guilong Huo, Peng Song, Design and flow analysis of a radial outflow turbo-expander, ASME Turbo Expo 2019, GT2019-90346
33.
Ningbo Yuan, Jinju Sun*, Peng song, et al, Investigation of flow-induced radial force and its influence on rotor dynamics for a cryogenic liquid turbine expander, ASME Turbo Expo 2018, GT2018-75443 (EI20184005898979)
34.
Changjiang Huo, Jinju Sun*, Shan Sun, et al, Flow analysis of an operational natural gas turbo expander, ASME Turbo Expo 2018, GT2018-75211 (EI20183905878135)
35.
Ke wang, Jinju Sun*, Peng Song, Changjiang Huo, Influence of impeller faring cone geometry on cavitation flow behavior in a cryogenic liquid turbine expander, ASME Turbo Expo 2016, GT2016-56778 (EI20164202923369)
36.
Peng Song, Jinju Sun*, Kaiqiang Li, et al, Numerical study of cavitaing flow in two-phase LNG expander, ASME Turbo Expo 2016, GT2016-56780 (EI20164202923370)
37.
K Li, J Sun*, J Fu, P Song, Design and Numerical Flow Analysis of a LNG Power Recovery Turbine, Proceedings of ASME Turbo Expo 2013
,
Paper GT2013-94900 (EI20135117101813)
38.
Zhilong He, Yunzheng Ge, Jinju Sun* et al, Numerical study of cavitating behavior in a cryogenic liquid turbine , ASME Turbo Expo 2012, Paper No. CT2012-68774 (EI20133316600988)
39.
Ke Wang, Jinju Sun*, Zhilong He, and Peng Song, 2011, Prediction of Axial Thrust Load Acting on a Cryogenic Liquid Turbine Impeller, ASME Turbo Expo 2011, Paper No. GT2011-45273 (EI20123615387645)
40.
Yan Ren, Jinju Sun*, Rongye Zheng, Peng Song, and Ke Wang, 2010, Investigation of Impeller Strength For a Cryogenic Liquid Turbine, ASME Turbo Expo 2010, Paper No. GT2010-23125 (EI20114814562148)
41.
Wei Zhao, Jinju Sun*, Hezhao Zhu, et al, 2008, Numerical investigation of a cryogenic liquid turbine performance and flow behavior, ASME Turbo Expo 2008, Paper No. GT2008-50391 (EI20093812311535)
|
