研究成果

Journal papers*为通讯作者)

 

2019

1.     Yanqin SHANGGUAN, Xian WANG*, Hu ZHANG, Yueming LI. LBM study on unsteady flow and heat-transfer behaviors of double-row film cooling with various row spacings[J]. International Journal of heat and mass transfer 2019, 138 :1251-1263.

 2.      夏京京,张超,王娴*,微重力下舱内混合对流传热高性能数值研究[J],热力发电,2019 (录用)

 

2018

1.      Xian WANG*, Yanqin SHANGGUAN, Hu ZHANG, Yueming LI. Numerical study on the near-wall characteristics of compound angled film cooling based on hybrid thermal lattice Boltzmann method, Applied Thermal Engineering 2018, 129:1670-1681.

2.      Yanqin SHANGGUAN, Xian WANG*, Hu ZHANG, Yueming LI. Further investigation on the flow and heat transfer mechanism of single-jet film cooling based on hybrid thermal lattice Boltzmann method, Communications in Computational Physics2018, 23(4), 1094-1115.

3.      Haoran HU, Chao ZHANG, Xian WANG*. Numerical acoustic simulation of flow around circular cylinders based on Lattice Boltzmann method and Ffowcs Williams-Hawkings acoustic equation[J]. International Journal of Computational Materials Science and Engineering, 2018, 1850010, 1-16. (DOI: 10.1142/S2047684118500100)

4.      Hu ZHANG*, Xian WANG, Yue-Ming LI, Measuring radiative properties of silica aerogel composite from FTIR transmittance test using KBr as diluents [J]. Experimental Thermal and Fluid Science, 2018, 91: 144-154.

5.      Hu ZHANG*, Chao ZHANG, Wen-Tao JI, Xian WANG, Yue-Ming LI, Wen-Quan TAO, Experimental characterization of the thermal conductivity and microstructure of opacifier-fiber-aerogel composite [J]. Molecules 201823(9): 2198-12.

6.      张虎*, 马奕新, 王娴, 冀文涛, 李跃明, 陶文铨. 添加物对氧化硅凝胶隔热性能影响的实验研究[J].工程热物理学报, 2018, 39(5):1039-1043.

 2017

1.     Yanqin SHANGGUAN, Xian WANG*, Hu ZHANG, Yueming LI. Analysis on the mechanism of evolutionary process of counter-rotating vortex pair in film cooling based on hybrid thermal lattice Boltzmann method, International Communication of heat and mass transfer 2017, 87:72-83.

2.      Hu ZHANG*,Wenzhen Fang,  Xian WANG, Yueming LI, Wenquan TAO, Thermal conductivity of fiber and opacifier loaded silica aerogel composite. International Journal of Heat and Mass Transfer, 2017,115(B):21-31. 

3.      Zhen LI,  Xian WANG, Yueming LI. The band gap variation of a two dimensional binary locally resonant structure in the thermal environment.  AIP Advances, 2017, 7, 015002.  doi: 10.1063/1.4973723

4.    张保雷,上官燕琴,王娴*,陈刚,李跃明。低雷诺数下横流-射流中剪切涡的实验研究[J]航空学报2017387):120831,   DOI: 10.7527/S1000-6893.2016.0305.

2016

1.    Yanqin SHANGGUAN,  Xian WANG*, Yueming LI. Investigation on the mixing mechanism of single-jet film cooling with various blowing ratios based on hybrid thermal lattice Boltzmann method. International Journal of Heat and Mass Transfer2016, 97: 880-890.

2.    Yijun CHAI, Lin CHEN, Xian WANG, Yueming LI. Study on stress development in the phase transition layer of thermal barrier coatings. Materials2016, 9(9): 773.

2015

1.   Yanqin SHANGGUAN,  Xian WANG*, Yueming LI. Large-scaled simulation on the coherent vortex evolution of a jet in cross-flow based on lattice Boltzmann method. Thermal Science2015, 19(3), 977-988.

2.    Jiang LEI, Xian WANG*, Gongnan XIE. Turbulent Flow Field Analysis of a Jet in Cross Flow by DNS. Journal of Engineering Thermophysics2015, 24(3): 259-269. DOI: 10.1134/S1810232815030078.

3.    Jiang LEI, Xian WANG*, Gongnan XIE. High Performance Computation of a Jet in Crossflow by Lattice Boltzmann Based Parallel Direct Numerical Simulation. Mathematical Problems in Engineering2015, 956827, 1-11.

4.    上官燕琴王娴*, 李跃明. 基于格子Boltzmann方法的平板射流大涡模拟计算物理2015, 32(6): 669-676.

5.    上官燕琴王娴*, 李跃明. 气膜冷却掺混机理的高性能数值研究气体物理2015, 10(3): 76-83.

2014

1.    Xian WANG*, Yanqin SHANGGUAN, Naoyuki ONODERA, Hiromichi KOBAYASHI, Takayuki AOKI. Direct Numerical Simulation and Large Eddy Simulation on a Turbulent Wall-Bounded Flow Using Lattice Boltzmann Method and Multiple GPUs. Mathematical Problems in Engineering2014, 742432, 1-10.

2.    Gang CHEN, Xian WANG*, Yueming LI. Reduced-Order-Model-Based Placement Optimization of Multiple Control Surfaces for Active Aeroelastic Control. International Journal of Computational Methods2014, 11(6), 1350081, 1-19. ( DOI: 10.1142/S0219876213500813)

3.    Gang CHEN, Xian WANG, Yueming LI. A reduced-order-model-based multiple-in multiple-out gust alleviation control law design method in transonic flow.Science China Technological Sciences2014, 57(2): 368-378. (DOI: 10.1007/s11431-013-5416-x)

2013

1.     Xian WANG*, Hiroyuki Hirano, Gongnan Xie, Ding Xu. VOF Modeling and Analysis of the Segmented Flow in Y-Shaped Microchannels for Microreactor Systems. Advances in High Energy Physics2013, 732682, 1-6. (http://dx.doi.org/10.1155/2013/732682)

2.     Xian WANG*, Hiroyuki Hirano, Gongnan Xie. A PLIC-VOF-Based Simulation of Water-Organic Slug Flow Characteristics in a T-Shaped Microchannel. Advances in Mechanical Engineering2013, 987428, 1-8. (http://dx.doi.org/10.1155/2013/987428)

3.     Ding XU, Xian WANG* and Gonang XIE. Spectral Fixed Point Method for Nonlinear Oscillation Equation with Periodic Solution. Mathematical Problems in Engineering, 2013, 538716, 1-9.

4.     Gang CHEN, Xian WANG and Yueming LI. Active Aeroelastic Control Using Multiple Control Surfaces Based on High-fidelity Reduced Order Model. Transactions of the Japan Society for Aeronautical and Space Sciences2013, 56(5): 261-268.

5.     许丁, 陈刚王娴*, 李跃明. 基于多GPU 的格子Boltzmann 法对槽道湍流的直接数值模拟应用数学和力学2013, 34(9): 956-964.

6.     郭欣王娴, 许丁, 谢公南. 混合层无粘稳定性分析的Legendre 级数解应用数学和力学2013, 34(8): 782-794.

2012

1.     Xian WANG*, Takayuki AOKI. High performance computation by multi-node GPUcluster-TSUBAME2.0 on the air flow in an urban city using lattice Boltzmann method. International Journal of Aerospace and Lightweight Structures2012, 2 (1): 77-86.

2.     Takahito MIKI, Xian WANG, Takayuki AOKI. Patient-specific modeling of pulmonary air flow using GPU cluster for the application in medical practice. Computer Methods in Biomechanics and Biomedical Engineering, 2012, 15 (7): 771-778.

3.     Hiroki Matsuno, Hiroyuki Hirano, Tomohiro Nakagawa, Xian WANG and Naotaka Okamoto, Alternating Flow of Immiscible Liquids in Microchannel, Asia-Pacific Journal of Chemical Engineering2012, 7: S48–S53.

 

2011及以前

1.     Xian WANG*, Takayuki AOKI. Multi-GPU performance of incompressible flow computation by lattice Boltzmann method on GPU cluster. Parallel Computing, 2011, 37: 521-535.

2.     Xian WANG*, Hiroyuki HIRANO, Naotaka OKAMOTO. Numerical investigation on the liquid-liquid two phase flow in a Y-shaped microchannel, ANZIAM J. (The Australian and New Zealand Industrial and Applied Mathematics Journal)2008, 48 (C): C963--C976, MR2399323.

3.     Xian WANG, Hiroyuki HIRANO, Toshio TAGAWA, and Hiroyuki OZOE. Water mist flow in a super-conducting magnet inclined at various angles. Chemical engineering communications2007, 194: 835-848.

4.     Xian WANG, Hiroyuki HIRANO, Toshio TAGAWA, Hiroyuki OZOE, and Qiuwang WANG. The behavior of micro-scaled Brownian particles in a cylinder under natural and magnetic convection flow field of air. Numerical Heat Transfer, Part A: applications,2005, 47(4): 353-373. 

5.     Xian WANG, Hiroyuki HIRANO, Toshio TAGAWA, Hiroyuki OZOE, and Qiuwang WANG. Numerical computation for clustering of carbon particles with various sizes under both natural and magnetizing convections. Chemical Engineering Science2005, 60: 5105-5117.

6.     Xian WANG, Toshio TAGAWA, Hiroyuki OZOE, Hiroyuki HIRANO, and Qiuwang WANG. The behavior of a water droplet in a flow field of natural convection in a cubic enclosure with magnetic field. Progress in Computational Fluid Dynamics2005, 5(3/4/5): 271-280.

7.     Xian WANG, Shushen LU, Hiroyuki HIRANO, Toshio TAGAWA, and Hiroyuki OZOE. Experimental and computational studies on the water mist flow in a horizontal bore of a super-conducting magnet: example of magnetic force application on micron-sized objects. Japanese Journal of Applied Physics2005, 44(11): 8189-8195.

8.     Xian WANG, Hiroyuki HIRANO, Toshio TAGAWA, Hiroyuki OZOE, and Qiuwang WANG. The behavior of diamagnetic Brownian particles in the presence of a gradient magnetic field.  Journal of Chemical Engineering of Japan2005, 38(1): 24-33. 

9.     Shushen LU, Xian WANG, Hiroyuki HIRANO, Toshio TAGAWA, and Hiroyuki OZOE. Water mist flow in a vertical bore of a super-conducting magnet. Journal of Applied Physics2005, 98, 114906: 1-9.

10.     Qunwu HE, Qiuwang WANG, Xian WANG, and Laiqin LUO. DSMC simulation of low-speed gas flow and heat transfer in 2D rectangular micro-channel. Progress in Computational Fluid Dynamics2005, 5(3/4/5): 230-235. 

11.     王娴, 王秋旺, 陶文铨, 傅游, 康继昌. 直接模拟蒙特卡罗方法的并行方案设计西安交通大学学报2003, 37(1): 105-107.

12.     王秋旺王娴, 陶文铨, 郑平. 稀薄气体二维外部柱体绕流特性研究工程热物理学报2003, 24(2): 298-300.

13.     柏巍, 王秋旺王娴, 陶文铨. 矩形微通道内滑移区气体流动换热的数值模拟上海理工大学学报2003, 25(1): 1-4.  

14.     Xian WANG, Qiuwang WANG, Wenquan TAO and Ping Chueng. Simulation of rarefied gas flow and heat transfer in microchannels. Science in China, Series E- Technological Sciences2002, 45 (3): 321-327.

15.     王娴, 王秋旺, 陶文铨, 郑平. 直接模拟蒙特卡罗方法在微通道流动模拟中的应用工程热物理学报2002, 3S: 125-128.

16.     王娴, 宋富强, 屈治国, 李明秀, 王秋旺, 陶文铨. 场协同理论在椭圆型流动中的数值验证工程热物理学报2002, 23(1): 59-62.

17.     王娴, 王秋旺, 陶文铨. 三维方腔内层流自然对流特性的数值研究东北大学学报(自然科学版)2001, 22 (S2): 61-63.

Conferences & symposiums:

2019

1.   张智慧, 夏京京, 邓雄, 王娴*, 罗振兵. 合成双射流雾化冷却机理数值研究[C]. 中国力学大会-20192019/8/25-2019/8/28, 中国杭州。

2.      Shao-zhen Guo, Guang-ming Xiao, Yan-xia Du, Xian Wang*, A study on thermal characterization of a square LHTS module with both copper foam and multiple PCMs [C]. 5th International Workshop on Heat/Mass Transfer Advances for Energy Conservation and Pollution Control, August 13-16, 2019, Novosibirsk, Russia.

3.     Chao Zhang, Xian Wang*, Hu Zhang, Simulation of natural convection coupling with radiation in a square cavity by lattice Boltzmann method [C]. The 7th Asian Symposium on Computational Heat Transfer and Fluid Flow- 2019, September 3-7, 2019, Tokyo, Japan.

4.     Chen-Yang Shang, Zhuo-Ran Liu, Hu Zhang*, Xian Wang , Yue-Ming Li, Thermal insulation performance characterization of thermal protection material under large temperature difference and its thermal conductivity identification [C]. 5th International Workshop on Heat/Mass Transfer Advances for Energy Conservation and Pollution Control, August 13-16, 2019, Novosibirsk, Russia.

5.       Hu Zhang*, Xian Wang, Yue-Ming Li, Gui-Hua Tang, Influence of participating Thermal radiation within translucent insulation materials on the thermal conductivity measured by hot strip method [C]. The 7th Asian Symposium on Computational Heat Transfer and Fluid Flow- 2019, September 3-7, 2019, Tokyo, Japan.

6.      Yi-Xin Ma, Hu Zhang*, Xian Wang, Yue-Ming Li, Gui-Hua Tang, A numerical study of the uncertainty analysis of TCi method [C]. The 7th Asian Symposium on Computational Heat Transfer and Fluid Flow- 2019, September 3-7, 2019, Tokyo, Japan.

2018

1.    Jingjing XIA, Chao ZhANG, Xian WANG*, Hu. ZHANG, High Performance Numerical Study of Flow and Heat Transfer in Simplified Models of Spacecraft Cabin under Various Ventilation Angles. XI-th International Conference on Computational Heat, Mass and Momentum Transfer (ICCHMT 2018), May 20-24, 2018, Cracow, Poland.

2.    Hu ZHANG, Yixin MA, Xian WANG, Yueming LI, Wenquan TAO, Influence of radiative heat transfer on measuring thermal conductivity of semi-transparent materials with hot wire method. XI-th International Conference on Computational Heat, Mass and Momentum Transfer (ICCHMT 2018), May 20-24, 2018, Cracow, Poland.

2017

1.    Yanqin SHANGGUAN, Xian WANG*, Yueming LI. Large-scaled numerical investigation on film cooling with cascaded double jets. 4th           International Workshop on Heat Transfer, IWHT2017, April 2-5, 2017, Las Vegas, NV, USA (paper no. TFEC-IWHT2017-17494)

2016

1.     上官燕琴王娴*, 李跃明. 气膜冷却中反对称涡生成机制的大规模高性能数值研究. 第九届全国流体力学学术会议, 2016/10/20-2016/10/23, 中国南京, 文章编号: CSTAM 2016-P56-B9068.

2.     张保雷王娴*, 陈刚,李跃明. 不同吹风比下横向流中平板单孔射流涡结构的实验研究. 第九届全国流体力学学术会议, 2016/10/20-2016/10/23, 中国南京, 文章编号: CSTAM 2016-P56-B0823.

3.     王娴*. GPU高性能计算及其在计算流体力学中的应用。中核核反应堆热工水力技术重点实验室学术交流会,2016/11/16-2016/11/18,中国成都。(特邀报告)

4.    Zhen LI, Xian WANG, Yueming LI. The study of periodic of beam band gap charateristics when considering thermal effect, 035-01, The Chinese Conference on Computational Mechnaicw'2016 in conjunction with the 4th Qian Ling-Xi Computational Mechanics Awarding Ceremony, The International Symposium on Computaional Mechanics'2016. (CCCM-ISCM 2016), 中国计算力学大会2016暨第四届钱令希计算力学奖颁奖大会,国际华人计算力学大会20162016/10/16-2016/10/20,中国杭州。

5.    Yanqin SHANGGUAN, Xian WANG*, Yueming LI. Further investigation on the mixing mechanism of single-jet film cooling based on hybrid thermal lattice Boltzmann method. The 25th International Conference on Discrete Simulation of Fluid Dynamics (DSFD 2016). 2016/07/03-07/08, ShenZhen, China.

6. Yanqin SHANGGUAN, Xian WANG*, Yueming LI. GPU-based parallel simulation of film cooling by hybrid thermal lattice Boltzmann method. European Congress on Computational Methods in Applied Sciences and Engineering (ECCOMAS 2016). 2016/06/05-06/10, Crete, Greece.

7.   王娴*.气膜冷却掺混机理的大规模数值研究。四校航空航天及力学学术论坛 20162016/05/13-2016/05/15, 浙江,舟山。

8.   王娴*. GPU高性能计算在计算流体力学中的应用。Tesla GPU如虎添翼神州巡展2016-GPU技术与科学计算应用研讨会,2016/06/24,中国西安。(特邀报 告)

2015

1.     赵鑫王娴, 李跃明. 潮湿环境下正交各向异性圆柱壳的声振响应研究. 第十二届军事海洋战略与发展论坛, 2015/11/04-   2015/11/06, 中国长沙, 论文集 pp 949-956.

2.     上官燕琴王娴*, 李跃明. 气膜冷却掺混机理的大规模数值研究.中国力学大会-2015, 2015/8/15-2015/8/18, 中国上海, 文章编号: CSTAM2015-A34-8821.

3.     王娴*, 上官燕琴, 李跃明. 基于格子Boltzmann方法的气膜冷却掺混机理大规模高性能数值研究, 第九届全国流体力学青年研讨会, 2015/5/9-2015/5/10, 中国长沙, 论文集 pp 152-159.

4.   Yanqin SHANGGUAN, Xian WANG*, Yueming LI. Large-scale numerical study on the mixing mechanism of film cooling based on LBM-LES with GPU acceleration. The 2nd Mechanical Engineering Seminar, 2015/03/25-27, Suwa, Japan.

5.    Xian WANG*. Numerical investigation on the mixing mechanism of double-jet film cooling. The 2nd KAIST-XJTU Joint Workshop on Mechanical and Aerospace Engineering. 2015/10/09-10, Xi’an, China.

2014

1.     上官燕琴王娴*, 陈刚, 李跃明. 基于格子Boltzmann方法的平板射流高性能数值模拟. 第八届全国流体力学学术会议, 2014/9/18-2014/9/21, 中国兰州,文章编号: CSTAM 2014-A26-S09063.

2.     雷蒋, 上官燕琴王娴*, 陈刚, 李跃明. 平板射流格子Boltzmann方法数值模拟. 第八届全国流体力学学术会议, 2014/9/18-2014/9/21, 中国兰州, 文章编号: CSTAM 2014-B01-0255.

3.    Xian WANG*. High performance computation of incompressible flow by lattice Boltzmann method on GPU cluster. The 1st KAIST-XJTU Joint Workshop on Mechanical and Aerospace Engineering. 2014/08/18-19, Daejeon, Korea.

2013

1.     Yanqin SHANGGUAN, Gang CHEN,Xian WANG*,Yeming LI. Large eddy simulation of high Reynolds number turbulent flowsusing lattice Boltzmann method and CUDA-GPU, 24th International Symposium on Transport Phenomena (ISTP24), 2013/11/1-2013/11/5, Yamaguchi, Japan.

2.   Gang CHEN,Xian WANG,Yueming Li. A Reduced-Order-Model-Based Multiple-in Multiple-out Gust Alleviation ControlLaw Design for Transonic Aeroelastic wings, Asia-Pacific Congress for Computational Mechanics(APCOM2013),2013/12/11-2013/12/14, Singapore.

3.    上官燕琴, 陈刚王娴*,李跃明. 基于GPU格子-Boltzmann法的湍流大涡模拟,中国力学大会-2013, 2013/8/18-2013/8/19, 中国西安, 文章编号: CSTAM2013-A31-1095.

4.    王娴*, 陈刚, 李跃明. 基于多GPU并行的湍流数值模拟, 第八届全国流体力学青年研讨会,2013/5/18-2013/5/19,中国上海, 论文集pp 145-151.

2012

1.   Hiroyuki HIRANOXian WANG. Dimensionless Correlation in Alternating Flow of Immiscible Liquids in Microchannel, the 14th Asia Pacific Confederation of Chemical Engineering Congress (APCChE 2012), 2012/02/21-2012/02/24, Singapore , pp 429-430.

2011年及以前

1.   Xian WANG*and Takayuki AOKI. Simulation of air flow in an urban city by lattice Boltzmann method on multi-node GPU cluster. Second International Conference on Computational Methods for Thermal Problems, 2011/9/5-2011/9/7, Dalian, China.

2.  Xian WANG and Takayuki AOKI. Application of Multi-GPU on the Simulation of Air Flow in an Urban City by Lattice Boltzmann Method. International Workshop of GPU Solutions to Multiscale Problems in Science and Engineering, 2011/7/18-2011/7/21, Lanzhou, China.

3.  Takahito MIKI, Xian WANG, Takayuki AOKI, Yohsuke IMAI, Takuji ISHIKAWA, Kei TAKASE, and Takami Yamaguchi. Subject-specific pulmonary airflow simulation by lattice Boltzmann method on GPU cluster. SIAM Conference on Computational Science and Engineering (SIAM CSE11), 2011/3/3, Reno, Nevada, America.

4.    Xian WANG and Takayuki AOKI. High performance of lattice Boltzmann method on multi-node GPU cluster and its application on incompressible flow computation. Joint International Conference on Supercomputing in Nuclear Applications and Monte Carlo 2010 (SNA + MC2010), 2010/10/21, Tokyo, Japan.

5.  Takayuki AOKI, Marlon Arce ACUNA, Xian WANG, Satoi OGAWA. Large-scale CFD applications on multi-node GPU cluster. Fifth European Conference on Computational Fluid Dynamics (ECCOMAS CFD 2010), Proceedings, 2010/6/17, Lisbon, Portugal, P.697.

6.   王嫻, 青木尊之, GPGPU を用いた格子ボルツマン法による非圧圧性流体計算計算工学講演会, 2010/05/14-2010/05/14, 福岡, 日本, pp 311-314.

7.  Xian WANG,Takayuki AOKI. Comparison on the performance of Lattice Boltzmann method solver executed onmulti-node GPU cluster by multi-dimensional domaindecompositions, 15回計算工学講演会, 2010/05/26-2010/05/28, Fukuoka, Japan, pp 141-144.

8.   Hiroyuki HIRANO,Xian WANG. Alternating Flow of Immiscible Liquids inMicrochannel, the 13th Asia Pacific Confederation of Chemical Engineering Congress (APCChE 2010), 2010/10/05-2010/10/08, Taipei, Taiwan.

9.   Xian WANG, Hiroyuki HIRANO, Qiuwang WANG, Shushen LU, Toshio TAGAWA,and Hiroyuki OZOE. Numerical computation on the combined effect of magnetic force and natural convection for clustering and levitating of Brownian particles. 13th International Heat Transfer Conference, 2006/8/13-2006/8/18, Sydney, Australia, NCV-18.

10.  Xian WANG, Hiroyuki HIRANO, Toshio TAGAWA, and Hiroyuki OZOE. Magnetic effect on the water mist flow and numerical simulation on the Brownian motion. The 16th International Symposium on Transport phenomena, 2005/8/29-2005/9/1, Prague, Czech Republic.

11.  Xian WANG, Hiroyuki HIRANO, Toshio TAGAWA, and Hiroyuki OZOE. The effect of natural and magnetic convection on the behavior of Brownian particles. The 10th Asian Pacific Confederation of Chemical Engineering (APCCHE) Congress, 2004/10/17-2004/10/21, Kitakyushu, Japan.

12.  Qiuwang WANG, Xian WANG, Toshio TAGAWA, and Hiroyuki OZOE. Numerical investigation on natural convection of water in porous layer under magnetic field. The 6th International Symposium on Heat Transfer, 2004/6/15-2004/6/19, Beijing, China, pp 281-285.

13.  Xian WANG, Toshio TAGAWA, Hiroyuki HIRANO, Hiroyuki OZOE, and Qiuwang WANG. Numerical study for the behavior of particles with 5µm diameters in natural and magnetic convection fields. The 15th International Symposium on Transport phenomena, 2004/5/9-2004/5/13, Bangkok, Thailand, pp 309-313. 

14.  Qunwu HE, Qiuwang WANG, Xian WANG and Hiroyuki OZOE. Computational investigation of low-speed gas flow and heat transfer in micro-channel using DSMC with pressure boundary condition. Heat Transfer 2004 – Eighth International Conference on Advanced Computational Methods in Heat Transfer, 2004/3/24-2004/3/26, Lisbon, Portugal, pp 463-469.

15.  Xian WANG, Toshio TAGAWA, and Hiroyuki OZOE. Numerical computation of the levitation of a water droplet in a strong magnetic field. Proceedings of the International Conference on Fluid and Thermal Energy Conversion, 2003/12/7-2003/12/11, Bali, Indonesia, no.19, 1-7.

16.  Xian WANG, Toshio TAGAWA and Hiroyuki OZOE. Numerical simulation of the movement of Brownian water droplets in both the natural convection flow field and magnetic field. The 16th Symposium on Chemical Engineering, 2003/12/5-2003/12/6, Daejeon, Korea, pp 188-189.

17.  Xian WANG, Toshio TAGAWA, Hiroyuki OZOE and Qiuwang WANG. Numerical computation for particles separation with a magnetic field. Symposium on New Magneto-Science, Proceedings of the 7th Meeting, 2003/11/5-2003/11/7, Tsukuba, Japan, pp 253-257.

18.  Xian WANG, Qiuwang WANG and Wenquan TAO. Parallel implementation of microchannel gas flow by direct simulation of Monte Carlo. International Symposium on “Micro/Nanoscale Energy Conversion and Transport”, 2002/4/14-2002/4/19, Antalya, Turkey. 

 

科技获奖

(1)    陕西省科学技术奖二等奖 (排名2)

获奖名称: 热流固耦合非线性响应及其高效算法
获奖人员: 李跃明、王娴、陈刚、陈花玲、耿谦、杨雄伟
获奖时间:  2017年12
(2)    陕西省高等学校科学技术一等奖 (排名3)

获奖名称: 热流固耦合非线性响应及其高效算法
获奖人员: 李跃明、陈刚、王娴、陈花玲、耿谦、杨雄伟
获奖时间:  20162
(3)   日本-超算研讨会最优秀赏20个展示作品中位列第一)(排名1)
获奖名称:Peta-scale Large-Eddy Simulation for Wind Blowing in a Wide Area of Tokyo with 2-m Resolution by Using GPU-based Lattice Boltzmann Method on TSUBAME2.0
获奖人员:Xian Wang, Takayuki Aoki, Tatsuji Miyashita
获奖时间:20126
 

 

 

发明专利及软件著作权

 

          专利名称              
专利类型
发明人
国别
专利号
授权日期
 マイクロリアクターを用いてスラグ流を形成する方法

发明

平野博之,王娴
日本
 

5504526

 

2014.3.28

一种用于流动显示、测量的实验装置及方法

发明

王娴,张保雷,李跃明

中国

 201710214627.0
(申请号)

 2017.4.1

(申请日)
 一种用于流动显示、测量的实验装置

实用新型

王娴,张保雷,李跃明

中国

ZL 2017 2 0342563.8

 2017.12.08

一种用于平板射流气膜冷却的试验装置实用新型王娴,王幸遇,张虎,李跃明中国ZL 2017 2 1455064.62018.07.06
一种用于平板射流气膜冷却的试验装置及方法发明王娴,王幸遇,张虎,李跃明中国201711072142.9(申请号)2017.11.3(申请日)

 

 

 

 

软件著作权名称发明人著作权人登记号证书号   日期     
CPU/GPU并行系统下基于格子-Boltzmann方法的流动仿真软件

王娴,上官燕琴

西安交通大学2016SR353691软著登字第1532307号2016年12月5日
CPU/GPU并行系统下基于混合热格子-Boltzmann方法的湍流流动传热仿真软件

王娴,上官燕琴

西安交通大学2017SR036800软著登字第1622084号2017年2月9号
CPU/GPU并行系统下基于混合热格子-Boltzmann方法的混合热对流直接数值模拟软件V1.0王娴,夏京京,上官燕琴西安交通大学2017SR542040软著登字第2127324号2017年9月25日

 

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