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副高级职称（按拼音排序）

王晓亮

所在学科：力学

联系电话：13269199223

通讯地址：北京市海淀区中关村南大街5号宇航大楼428

职称：长聘副教授

邮箱：wangxiaoliang36@bit.edu.cn
wangxiaoliang52086@126.com

邮编：100081

教育经历

2009年7月至2015年6月，中国科学院力学研究所，工学博士，导师李家春院士
2005年7月至2009年6月，同济大学，工学学士，导师陈硕教授

工作经历

2023年12月至今，北京理工大学，长聘副教授
2019年4月至2023年11月，北京理工大学，预聘助理教授
2015年7月至2019年3月，中国科学院力学研究所，助理研究员

主要研究领域

1、颗粒多相流（折射率匹配技术、颗粒流变学、颗粒介质流固耦合动力学建模与计算）
2、可压缩多相多介质流（界面压缩方法、激波与界面作用、工程应用）
3、计算流体力学与程序开发（可压缩流动计算、气液两相流计算）

获奖情况

中国安全生产协会第四届科技进步二等奖，2024

社会兼职

1、2019年8月至今，中国力学学会环境力学专业委员会委员
2、Physics of Fluids、Granular Matter、Ocean Engineering、Powder Technology、Engineering Analysis with Boundary Elements、International Journal of Sediment Research、力学学报等多个国内外期刊审稿人

近年来主要发表论文

1、期刊论文(#为通讯作者)

[1] Yunhui Sun, Jiajun Jiao, Yi An, Xiaoliang Wang#, Qingquan Liu. Reconstruction of the internal volume fraction for particle-liquid system from imaging indicators by refractive index matching. Acta Mechanica Sinica. 2024, 40: 323233.

[2] Wangxin Yu, Xiaoliang Wang#, Qingquan Liu, Xuedong Chen, Huaning Wang. Flow pattern of fast granular flow impacting a granular deposit. Powder Technology. 2023, 430: 118989.

[3] Yunhui Sun, Jiajun Jiao, Yi An, Xiaoliang Wang#, Qingquan Liu#. Experimental study on internal flow structure and dynamics of dense liquid-particle flow down inclined channel. Experiments in Fluids. 2023, 64(9): 150.

[4] Can Huang, Chao Hu, Yi An, Chuanqi Shi, Chun Feng, Huaning Wang, Qingquan Liu#, Xiaoliang Wang#. Numerical simulation of the large-scale Huangtian (China) landslide-generated impluse waves by a GPU-accelerated three-dimensional soil-water coupled SPH model. Water Resource Research. 2023, 59, e2022WR034157.

[5] Li Ge, Li Libin, Liu Qingquan, Feng Chun, Wang Xiaoliang#. A unified consistent source term computational algorithm for the γ-based compressible multifluid flow model. Computers and Fluids. 2023, 259: 105899.

[6] Enwei Zhang, Wangxia Wu, Qingquan Liu#, Xiaoliang Wang#. Effects of vortex formation and interaction on turbulent mass transfer over a two-dimensional wavy wall. Physical Review Fluids. 2022, 7:114607.

[7] 李立彬, 喻鑫龙, 刘青泉, 王晓亮#. 基于反应欧拉方程投影算法的广域尺度气体爆炸数值模拟研究. 中国科学:技术科学. 2023. 53(4): 601-614.

[8] Can Huang, Yunhui Sun, Yi An, Chuanqi Shi, Chun Feng, Qingquan Liu, Xiufeng Yang, Xiaoliang Wang#. Three-dimensional simulations of large-scale long run-out landslides with a GPU-accelerated elasto-plastic SPH model. Engineering Analysis with Boundary Elements. 2022, 145: 132-148.

[9] Wang Xiaoliang, Yang S, Yu WX, Yang XF, Liu QQ#. Runout and deflection of granular flow on steep terrains with an array of obstacles. European Journal of Mechanics –B Fluids. 2022, 94: 37-49.

[10] Hu Chao, Wang Xiaoliang#, Liu Qingquan#. Characteristics of iceberg calving-generated waves based on three-dimensional SPH simulations. Coastal Engineering. 2022, 173:104090.

[11] Hu Chao, Liu Qingquan# , Wang Xiaoliang#. Numerical study of waves generated during iceberg calving in sliding mode. Ocean Engineering. 2022, 246:110622

[12] Wang Xiaoliang, Li G, Liu QQ #. An updated critical state model by incorporating inertial effects for granular material in solid-fluid transition regime. Granular Matter 2022, 24: 38.

[13] Zhang EW, Wang XL, Liu QQ#. Numerical investigation on the temporal and spatial statistical characteristics of turbulent mass transfer above a two-dimensional wavy wall. International Journal of Heat and Mass Transfer. 2022, 184: 122260.

[14] 杨肃,张会琴,余王昕,程鹏达,刘青泉,王晓亮#. 基于沿程坐标积分模式的颗粒流与结构物阵列相互作用的数值模拟. 力学学报. 2021, 53(12): 3399-3412.

[15] Sun YH, Zhang WT, An Y, Liu QQ#, Wang XL#. Experimental investigation of immersed granular collapse in viscous and inertial regimes. Physics of Fluids. 2021, 33: 103317.

[16] Liu QQ, Pan MH, Wang XL#, An Y. A two-layer model for landslide generated impulse wave: Simulation of the 1958 Lituya bay landslide impact wave from generation to long-duration transport. Advances in Water Resources 2021, 154: 103989.

[17] Zhang EW, Wang XL, Liu QQ#. Effects of the spanwise heterogeneity of a three-dimensional wavy wall on momentum and scalar transport. Physics of Fluids 2021, 33(5): 055116.

[18] 陈歆怡, 王晓亮#, 刘青泉, 张静. 滚波演化中聚合过程的数值模拟研究.力学学报 2021. 53(5): 1457-1470.

[19] Wang XL, Shi CQ, Liu QQ#, An Y. Numerical study on near-field characteristics of landslide-generated impulse waves in channel reservoirs. Journal of Hydrology 2021, 595: 126012.

[20] Wang XL, Liu QQ#. Modeling shallow geological flows on steep terrains using a specific differential transformation. Acta Mechanica 2021, 232: 2379-2394.

[21] Wang XL #, Zhang Z, Li JC #, Liu QQ. Mesoscale analysis of the suction stress characteristic curve for unsaturated granular materials. Particuology 2021, 56: 183-192.

[22]Chen XY, Wang XL, Liu QQ #. Numerical study of roll wave characteristics based on Navier-Stokes equations: A two-dimensional simulation. Journal Engineering Mechanics 2021,147(2):0402149.

[23] Yang S, Wang XL#, Liu QQ, Pan MH. Numerical simulation of fast granular flow facing obstacles on steep terrains. Journal of Fluids and Structures 2020, 99: 103162.

[24] Sun YH, Zhang WT, Wang XL, Liu QQ #. Numerical study on immersed granular collapse in viscous regime by particle-scale simulation. Physics of Fluids 2020, 32: 073313.

[25] Zhang WT, An Y, Liu QQ #, Wang XL, Sun Y.H. Evolution of Energy in Submerged Granular Column Collapse. Chinese Physics Letters 2020, 37(7): 074502.

[26] 黄灿, 刘青泉, 王晓亮#. 梯级溃坝洪水洪峰增强机制. 力学学报 2020, 52(3): 645-655.

[27] Wang XL #, Zhang Z, Li JC #. Triaxial behavior of granular material under complex loading path by a new numerical true triaxial engine. Advanced Powder Technology 2019, 30 (4): 700-706.

[28] Wang XL, Li JC #. A new solver for granular avalanche simulation: Indoor experiment verification and field scale case study. Science China Physics Mechanics & Astronomy 2017, 60 (12): 124712.

[29] Wang XL, Li JC#. A novel liquid bridge model for estimating SWCC and permeability of granular material. Powder Technology 2015, 275: 121-130.

[30] Wang XL; Li JC#. On the degradation of granular materials due to internal erosion. Acta Mechanica Sinica 2015, 31 (5): 685-697.

[31] Wang XL; Li JC#. Simulation of triaxial response of granular materials by modified DEM. Science China Physics Mechanics & Astronomy 2014, 57 (12): 2297-2308.

[32] Wang XL; Chen S#. Simulation of vapor-liquid coexistence using dissipative particle dynamics. Acta Physica Sinica 2010, 59 (10): 6778-6785.