【工作经历】

2019年4月至今，北京理工大学，助理教授, 长聘副教授

2015年7月至2019年3月，中国科学院力学研究所，助理研究员

【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

【研究方向】

多相流体力学

计算流体力学

流固耦合力学

【教学工作】

流体力学、计算流体力学、水波动力学、固体本构关系、数学物理方程

【学术兼职】

2019.08至今，中国力学学会环境力学专业委员会委员

【科研项目】

国家自然科学基金面上项目，陡峭地形薄层颗粒流非静水效应与垂向积分模式研究，2022-2025，61万，主持

国家自然科学基金青年项目，泥石流流变特性及其传播过程的高分辨率数值模拟研究，2017-2019，26万，主持

国家自然科学基金科技活动项目，第十七届亚洲流体力学大会，2023.08-2023.12，8万，参加

国家自然科学基金重点项目，稠密颗粒-液体混合流的流变特征、动力学模型及其应用研究，2021-2025，310万，参加

空天飞行空气动力科学与技术全国重点实验室课题，高速喷流与砂质床面耦合作用机理与计算方法研究，2024-2026,30万，主持

横向项目，多介质爆炸冲击波欧拉方法程序开发与应用，2023-2025，60万，主持

横向项目，复杂地形地质体运动成灾及泛滥分析，2019-2020，20万，主持

横向项目，京津冀典型降雨山洪泥石流数值模拟程序开发及应用，2020-2022，15万，主持

【代表论文、专著及专利】

[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 -based compressible multifluid flow model. Computers and Fluids. 2023, 2

59: 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.