闻炳海 博士 教授 博士生导师
电子邮箱: oceanwen@gxnu.edu.cn
实验室: 广西师范大学育才校区文二楼301室
通讯地址: 广西区桂林市育才路15号广西师范大学银河集团:198net
邮政编码: 541004
学习工作经历 | |||||
2007年7月 - 至今,广西师范大学,计算机科学与工程学院,讲师、副教授、教授 | |||||
2010年9月 - 2013年6月,中国科学院大学,高性能计算,博士 | |||||
2006年7月 - 2007年6月,北方电信(Nortel)广州研发中心,工程师 | |||||
2004年9月 - 2006年6月,暨南大学,信息科学学院,计算机软件与理论,硕士 | |||||
1997年7月 - 2004年8月,华夏证券公司石家庄营业部,程序员 | |||||
1994年9月 - 1997年6月,河北科技大学,计算机应用 | |||||
研究兴趣 | |||||
高性能计算、GPU并行计算、晶格Boltzmann方法 | |||||
讲授课程 | |||||
本科课程: 《并行计算》 《数据库原理》 | |||||
荣获奖项 | |||||
2018年06月,明德教师奖 | |||||
主要研究项目: | |||||
[1]基于晶格Boltzmann方法研究纳米气泡的超常稳定机理,国家自然科学基金面上项目,编号:12272100,2023.01~2026.12,主持; [2] 基于晶格Boltzmann方法研究亚微米颗粒可调控的惯性聚集和分选,国家自然科学基金项目,编号:11862003,2018.01~2021.12,主持; [3] 用晶格Boltzmann方法研究液滴蒸发中的自组装现象,国家自然科学基金项目,编号:11362003,2014.01~2017.12,主持; [4] 基于晶格Boltzmann方法研究亚微米颗粒的惯性聚集和分选,广西自然科学基金重点项目,编号:2017GXNSFA198038,2017.11~2020.10,主持; [5] 用晶格Boltzmann 方法研究电润湿现象,国家自然科学基金项目,编号:11162002,2012.01~2015.12,参加,排名第二; [6] 借助学科竞赛培养计算机专业学生计算思维和创新能力的研究与实现,广西高等教育本科教学改革工程项目,编号:2015JGB167,2015.07~2017.06,主持; [7] 用晶格玻尔兹曼方法研究液滴蒸发中的颗粒自组装现象,广西自然科学基金项目,编号:2014GXNSFAA118018,2014.06~2017.05,主持; [8] 咖啡环效应中颗粒自组装现象的数值模拟研究,广西高校科学技术研究重点项目,编号:KY2015ZD017,2015.01~2017.12,主持; [9] 基于GPU并行计算的晶格Boltzmann方法研究,广西多源挖掘与安全重点实验室主任基金项目,批准号:15-A01-02,2015.12~2017.11,主持; | |||||
主要学术论文: | |||||
[1] Bing He,Quanying Li, Yongcai Pan, and Binghai Wen. Droplet splitting on chemicallyheterogeneous surface: A 3D lattice Boltzmann study. Computers and Fluids, 270: 106149, 2024.【SCI三区】 [2] Dian Gong, Binghai Wen, LuWang, Hongxuan Zhang, Huiling Chen, Jingrui Fan, Zhi Li, Long Guo, GuoshengShi, Zhigao Zhu, Xing Liu, and Gaofeng Zeng. Alkadiyne–Pyrene ConjugatedFrameworks with Surface Exclusion Effect for Ultrafast Seawater Desalination. Journal of the American Chemical Society: 2024.【SCI一区】 [3] Qin Xu, Zijian Zhuang,Yongcai Pan, and Binghai Wen. Super-resolution reconstruction of turbulentflows with a transformer-based deep learning framework. Physics of Fluids, 35(5): 055130, 2023.【SCI二区】 [4] Zhangrong Qin, Wenbo Chen,Chunyan Qin, Xin Xu, and Binghai Wen. Spurious currents suppression by accuratedifference schemes in multiphase lattice Boltzmann method. Computers and Fluids, 261: 105917, 2023.【SCI三区】 [5] Weiyin Liang, ChengliangXuan, Zhangrong Qin, and Binghai Wen. Inertial migration of rigid red bloodcell particles in Poiseuille flow. Computers and Fluids, 260(4): 105914, 2023.【SCI三区】 [6] Xingguo Zhong, Yangsha Liu,Yichen Yao, Bing He, and Binghai Wen. Improved contact angle measurement inmultiphase lattice Boltzmann. Chinese Physics B, 32(5): 054701, 2023.【SCI四区】 [7] Xingguo Zhong, Yuhao Huang,Qilin Liu, Zhangrong Qin, and Binghai Wen. Comparative analysis andcomputational optimization of potential-based multiphase lattice Boltzmannmodels. Physics of Fluids, 35(12): 2023.【SCI二区】 [8] Xin Xu, Fei Wang, ZhangrongQin, and Binghai Wen. Electrowetting lattice Boltzmann method for micro- andnano-droplet manipulations. Physical Review E, 107(4): 045305, 2023.【SCI三区】 [9] Yangsha Liu, Yichen Yao,Quanying Li, Xingguo Zhong, Bing He, and Binghai Wen. Contact Angle Measurementon Curved Wetting Surfaces in Multiphase Lattice Boltzmann Method. Langmuir, 39(8): 2974-2984, 2023.【SCI二区】 [10] Quanying Li, Yangsha Liu,Bing He, and Binghai Wen. Sliding Behavior of Droplets on a Tilted Substratewith a Chemical Step. Langmuir, 39(41): 14487-14499, 2023.【SCI二区】 [11] Huajie Zhou, Wenbo Chen,Chengliang Xuan, Zhangrong Qin, and Binghai Wen. Three-dimensional simulationof red blood cell particle sedimentation. Proceedingsof the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 237(1): 064103, 2022.【SCI三区】 [12] Yichen Yao, Yangsha Liu,Xingguo Zhong, and Binghai Wen. Multiphase curved boundary condition in latticeBoltzmann method. Physical Review E, 106(1): 015307, 2022.【SCI三区】 [13] Chengliang Xuan, WeiyinLiang, Bing He, and Binghai Wen. Active control of particle position byboundary slip in inertial microfluidics. Physical Review Fluids, 7(6): 064201, 2022.【SCI三区】 [14] Binghai Wen, Yongcai Pan, Lijuan Zhang, Shuo Wang, Limin Zhou, Chunlei Wang, and Jun Hu. State transitionof stable nanobubbles to unstable microbubbles on homogeneous surfaces. Physical Review Fluids, 7(10) : 103601, 2022. 【SCI三区】 [15] Fei Wang, Zijian Zhuang,Zhangrong Qin, and Binghai Wen. Movable and Focus-Tunable Lens Based onElectrically Controllable Liquid: A Lattice Boltzmann Study. Entropy, 24(12): 1714, 2022.【SCI三区】 [16] Zhangrong Qin, Jianfei Zhu,Wenbo Chen, Chengsheng Li, and Binghai Wen. An effective pseudo-potentiallattice Boltzmann model with extremely large density ratio and adjustablesurface tension. Physics of Fluids, 34(11): 113328, 2022.【SCI二区】 [17] Yongcai Pan, Limin Zhou, andBinghai Wen. The stability and morphology of nanobubbles on homogeneous surfaces with different wettability. Physics of Fluids, 34(7): 072007, 2022.【SCI二区】 [18] Bing He, Chunyan Qin, WenboChen, and Binghai Wen. Numerical simulation of pulmonary airway reopening bythe multiphase lattice Boltzmann method. Computers& Mathematics with Applications, 108(1): 196-205, 2022.【SCI二区】 [19] Bing He, Chunyan Qin, Wenbo Chen, and Binghai Wen*. Numerical simulation of pulmonary airway reopening by the multiphase lattice Boltzmann method. Computers & Mathematics with Applications, 108, 2022. 【SCI二区】 [20] Yutong Ye, Hongyin Zhu, Chaoying Zhang, Binghai Wen*. Efficient graphic processing unit implementation of the chemical-potential multiphase lattice Boltzmann method. International Journal of High Performance Computing Applications, 35(1):78-96, 2021.【SCI三区】 [21] 邵玉馥, 季婷婷, 姚怡辰, 闻炳海*. 基于晶格Boltzmann方法研究曲面上接触角的测量算法. 广西师范大学学报(自然科学版), 39:1-11, 2021.【核心期刊】 [22] 管羿鸣, 季婷婷, 杨鑫宇, 闻炳海*. 液滴在化学异构表面上侧向弹跳的计算机模拟研究. 广西师范大学学报(自然科学版), 39: 1-12,2021.【核心期刊】 [23] Bing He, Chunyan Qin, Sihao Zhou, and Binghai Wen*. Analysis of depinning behavior of drop on chemically heterogeneous surface. Physical Review Fluids, 5(11):114003, 2020.【SCI二区】 [24] Binghai Wen*, Liang Zhao, Wen Qiu, Yong Ye, and Xiaowen Shan*. Chemical-potential multiphase lattice Boltzmann method with superlarge density ratios. Physical Review E, 102(1): 013303, 2020.【SCI三区】 [25] Hongyin Zhu, Xin Xu, Gang Huang, Zhangrong Qin*, and Binghai Wen*. An Efficient Graphics Processing Unit Scheme for Complex Geometry Simulations Using the Lattice Boltzmann Method. IEEE Access, 8:185158-185168, 2020. 【SCI二区】 [26] Binghai Wen, Hui Chen, Zhangrong Qin, Bing He*, and Chaoying Zhang*. Lateral migration and nonuniform rotation of suspended ellipse in Poiseuille flow. Computers & Mathematics with Applications, 78(4), 2019. 【SCI一区】 [27] Sihao Zhou, Wen Qiu, Yong Ye, Bing He*, Binghai Wen*. The Effects of Wettability on Primary Vortex and Secondary Flow in Three-Dimensional Rotating Fluid. Communications in Theoretical Physics, 71(12): 1480-1484, 2019. 【SCI三区】 [28] 邱文, 叶勇, 周思浩, 闻炳海*. 基于晶格Boltzmann方法研究微液滴形变中的接触角变化. 广西师范大学学报(自然科学版), 37(2):27-37, 2019. 【核心期刊】 [29] Binghai Wen, Bingfang Huang, Zhangrong Qin, Chunlei Wang*, and Chaoying Zhang*. Contact angle measurement in lattice Boltzmann method. Computers & Mathematics with Applications, 76(7):1686-1698, 2018.【SCI一区】 [30] Zhangrong Qin, Wanling Zhao, Yanyan Chen, Chaoying Zhang*, and Binghai Wen*. A pseudopotential multiphase lattice Boltzmann model based on high-order difference. International Journal of Heat Mass Transfer, 127:234-243, 2018. 【SCI一区】 [31] 黄兵方, 闻炳海*, 邱文, 陈燕雁. 基于晶格Boltzmann方法的接触角实时测量研究, 广西师范大学学报(自然科学版), 36(1): 66~76, 2018.【核心期刊】 [32] Binghai Wen, Xuan Zhou, Bing He, Chaoying Zhang*, and Haiping Fang. Chemical-potential-based lattice Boltzmann method for nonideal fluids. Physical Review E, 95(6):063305, 2017.【SCI三区】 [33] Bing He, Sucui Yang, Zhangrong Qin, Binghai Wen*, and Chaoying Zhang*. The roles of wettability and surface tension in droplet formation during inkjet printing. Scientific Reports, 7(1):11841, 2017.【SCI三区】 [34] 闻炳海, 张超英, and 方海平*. 晶格Boltzmann方法中流体力的计算. 中国科学: 物理学 力学 天文学, 47(7):2017.【核心期刊】 [35] Binghai Wen, Zhangrong Qin, Chaoying Zhang*, and Haiping Fang. Thermodynamic consistent lattice Boltzmann model for nonideal fluids. Europhysics Letters, 112(4): 44002, 2015. 【SCI三区】 [36] Binghai Wen, Chaoying Zhang, and Haiping Fang*. Hydrodynamic Force Evaluation by Momentum Exchange Method in Lattice Boltzmann Simulations. Entropy, 17(12): 27, 2015. 【SCI三区】 [37] Chunlei Wang, Binghai Wen, Yusong Tu, Rongzheng Wan, and Haiping Fang*. Friction Reduction at a Superhydrophilic Surface: Role of Ordered Water. Journal of Physical Chemistry, 119(21): 11679-11684, 2015. 【SCI二区】 [38] Binghai Wen, Chaoying Zhang, Yusong Tu, Chunlei Wang, and Haiping Fang*. Galilean invariant fluid–solid interfacial dynamics in lattice Boltzmann simulations. Journal of Computational Physics, 266(6): 161-170, 2014. 【SCI二区】 [39] Renliang Zhang, Yousheng Xu, Binghai Wen, Nan Sheng, and Haiping Fang*. Enhanced Permeation of a Hydrophobic Fluid through Particles with Hydrophobic and Hydrophilic Patterned Surfaces. Scientific Reports, 4(7): 5738, 2014. 【SCI二区】 [40] Liang Zhao, Chunlei Wang, Jian Liu, Binghai Wen, Yusong Tu, and Haiping Fang*. Reversible State Transition in Nanoconfined Aqueous Solutions. Physical Review Letters, 112(7): 078301, 2014.【SCI一区】 [41] Binghai Wen, Yanyan Chen, Renliang Zhang, Chaoying Zhang*, and Haiping Fang. Lateral Migration and Nonuniform Rotation of Biconcave Particle Suspended in Poiseuille Flow. Chinese Physics Letters, 30(6): 064701, 2013. 【SCI三区】 [42] 闻炳海. 咖啡环和咖啡盘——边缘上的物理. 物理, 42(8): 573, 2013.【核心期刊】 [43] Binghai Wen, Huabing Li, Chaoying Zhang, and Haiping Fang*. Lattice type dependent momentum-exchange method for moving boundaries. Physical Review E, 85(1): 016704, 2012.【SCI三区】
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