赵欣_北京理工大学宇航学院

力学系

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中级及其他教工人员（按拼音排序）

赵欣

所在学科：力学

联系电话：

通讯地址：北京市海淀区中关村南大街5号北京理工大学宇航楼425室

职称：副研究员/助理教授

邮箱：6120160101@bit.edu.cn

邮编：100081

教育经历

2011年9月-2014年12月，在美国克拉克森大学获得土木与环境工程专业博士学位
2004年9月-2007年7月，在中国科学院力学研究所获得流体力学专业硕士学位
2000年9月-2004年7月，在清华大学获得工程力学专业学士学位

工作经历

2016年8月，北京理工大学，副研究员/预聘助理教授
2014年12月-2016年6月，美国克拉克森大学，博士后研究员
2010年3月-2011年9月，北京天润新能投资有限公司，工程师
2009年6月-2010年3月，北京鉴衡认证中心，工程师
2007年7月-2009年3月，中国科学院力学研究所，研实员

主要研究领域

1、极区海浪模型
2、海冰海浪相互作用
3、气液两相流
4、流动噪声
5、湍流

获奖情况

社会兼职

1、中国力学学会会员
2、美国物理学会会员（APS）
3、美国地球物理学会会员（AGU）
4、SCI期刊审稿人：Acta Mechanica Sinica、Applied Ocean Research、Journal of Atmospheric and Oceanic Technology、Journal of Fluids and Structures、Ocean Engineering、Ocean Modelling、Physics of Fluids、Ships and Offshore Structures、Theoretical and Applied Mechanics Letter、Ultrasonics Sonochemistry

近年来主要发表论文

[1] X. Zhao* “A three-dimensional robust volume of fluid solver based on the adaptive mesh refinement”, Theoretical and Applied Mechanics Letters, 2021, submitted.

[2] Q. Zhang, H. Ren, X. Zhao* “Numerical investigation on water-skipping of spheres with and without spin”, Ocean Engineering, 2021, submitted.

[3] J. Chen, B. Huang, X. Zhao*, J. Huang “Numerical investigation of cavitation-vortex structures around a sphere with boundary data immersion method”, Ocean Engineering, 2021, submitted.

[4] Y. Qu, Q. Wu*, X. Zhao, B. Huang, X. Fu, G. Wang “Numerical investigation of flow structures around the DARPA SUBOFF model”, Ocean Engineering, 2021, 239: 109866.

[5] H. Ren and X. Zhao* “Numerical simulation for ice breaking and water entry of sphere”, Ocean Engineering, 2021, Accept.

[6] T. Zhao, X. Zhao*, X. Ma, B. Huang “Numerical investigations of the bubble collapse near an elastic plate”, Journal of Fluids and Structures, 2021, 106:103372.

[7] C. Zhang and X. Zhao* “Theoretical method for calculating the sea ice elastic modulus in an ocean wave model”, Applied Ocean Research, 2021, 114:102800.

[8] J. Huang and X. Zhao*, H. Jiang “Numerical simulation of the atomization of liquid transverse jet in supersonic airflow”, Physics of Fluids, 2021, 33: 052114.

[9] C. Zhang and X. Zhao* “Theoretical model for predicting the break-up of ice covers due to wave-ice interaction”, Applied Ocean Research, 2021,112: 102614.

[10] H. Ren, C. Zhang, X. Zhao* “Numerical simulations on the fracture of a sea ice floe induced by waves”, Applied Ocean Research, 2021, 108:102527.

[11] X. Zhao* and C. Zhang “A theoretical model of the wave growth induced by the wind over an ice-covered sea”, Boundary Layer Meteorology, 2020, 178:1-19.

[12] D. Li, X. Zhao* et al. “Numerical investigation of the water entry of a hydrophobic sphere with spin”, International Journal of Multiphase flow, 2020, 126: 103234.

[13] J. Shentu, T. Zhao, D. Li, and X. Zhao* “Numerical simulations for water entry of hydrophobic objects”, Ocean Engineering, 2019, 190: 106485.

[14] J. Huang and X. Zhao* "Numerical simulation on the atomization and evaporation in the liquid jet flows", International Journal of Multiphase flow, 2019, 119: 180-193.

[15] X. Ma, X. Zhao*, B. Huang, and G. Wang "Physical investigation on the non-spherical bubble collapse near a rigid boundary", Journal of Hydrodynamics, 2019.

[16] X. Zhao* and H.-H. Shen “A three-layer viscoelastic model with eddy viscosity effect for flexural-gravity wave propagation through ice covers ”, Ocean Modelling, 2018, 131: 15-23.

[17] X.Ma, B. Huang*, X. Zhao* et al. "Comparisons of spark-charge bubble dynamics near the elastic and rigid boundaries", Ultrasonics Sonochemistry, 2018, 43: 80-90.

[18] X. Zhao, S.-K. Cheng and H.-H. Shen* “Physical nature of wave modes in the viscoelastic layer model”, ASCE Journal of Engineering Mechanics, 2017, 143 (10): 04017114..

[19] X. Zhao* and H.-H. Shen “A diffusion approximation for wave scatterings by randomly distributed ice floes”, Ocean Modeling, 2016, 107: 21-27.

[20] X. Zhao and H.-H. Shen* “Ocean wave transmission and reflection by viscoelastic ice covers”, Ocean Modeling, 2015, 92:1-10.

[21] X. Zhao and H.-H. Shen* “Wave propagation in frazil/pancake, pancake and fragmented ice covers”, Cold Regions Science and Technology, 2015, 113: 71-80.

[22] X. Zhao*, H.-H. Shen and S.-K. Cheng “Modeling ocean wave propagation under sea ice covers”, Acta Mechanica Sinica, 2015, 31 (1): 1-15.

[23] X. Zhao and H.-H. Shen* “Ocean wave transmission and reflection between two connecting viscoelastic ice covers: an approximate solution”, Ocean Modeling, 2013, 71:102-113.

[24] X. Zhao* “Time frequency spectrum of atmospheric turbulence and sweeping hypothesis”, Theoretical and Applied Mechanics Letters, 2011, 1:022005.

[25] X. Zhao and G.-W. He* “Space-time correlation of fluctuating velocities in turbulent shear flows”, Physical Review E, 2009, 79:046316.

[26] G.-W. He*, G.-D. Jin and X. Zhao “Scale-similarity model for Lagrangian velocity correlations in isotropic and stationary turbulence”, Physical Review E, 2009, 80: 066313.

[27] 赵体豪,赵欣* “边界数据浸入法在弱可压缩流动中的应用”，哈尔滨工业大学学报，2020, 52：7.

[28] 吕亚飞, 张孟杰, 刘涛涛*, 陈杰, 赵欣 “平板近壁面双孔通气气液两相流场的数值模拟研究”，数字海洋与水下攻防，2021, 4(4): 279-287.