温焕尧 - 华南理工大学

个人简介

温焕尧，男，2017年获批国家优秀青年科学基金项目，曾获聘广东省青年珠江学者(2016-2019)。主要从事流体力学中的非线性偏微分方程的数学理论研究。2014年12月到华南理工大学数学学院工作。2015年1月入选华南理工大学第七批“杰出人才引进计划”--第三层次，并破格评为教授。教育和工作经历 2017/08 -至今，华南理工大学数学学院副院长 2015/02 -至今，华南理工大学，数学学院，教授 2012/09–2014/11，挪威Stavanger大学，石油工程系，博士后，合作导师：Steinar Evje教授 2011/07–2013/07，华中师范大学，数学与统计学学院，博士后，合作导师：朱长江教授 2001年-2011年，华南师范大学，本硕博。硕博导师：丁时进教授学术访问 2019/08/13-2019/09/10 美国佛罗里达大学数学系 2018/1/28-2018/2/20 美国普渡大学数学系，美国匹兹堡大学数学系 2017/05/15-27 香港中文大学数学研究所 2017/04/05-13 香港理工大学数学系 2016/09-2016/09 美国德州大学奥斯汀分校数学系 2016/08-2016/08 挪威Stavanger大学石油工程系 2015/08-2015/09 挪威Stavanger大学石油工程系 2014/10/13-2014/10/15 德国达姆施塔特工业大学数学系 2014/06/26-2014/06/28 挪威奥斯陆大学数学系 2011/01-2011/04 美国肯塔基大学数学系 2010/09-2010/12 华中师范大学数学与统计学学院 2009/10-2009/11 北京大学国际数学中心、数学科学学院主持科研项目国家自然科学基金-面上项目(12071152), 2021.01-2024.12 国家优秀青年科学基金项目(11722104), 2018.01-2020.12 国家自然科学基金-面上项目(11671150), 2017.01-2020.12 国家自然科学基金-青年科学基金项目(11301205), 2014.01-2016.12 2013年获中国博士后科学基金--特别资助项目 2012年获中国博士后科学基金--面上资助项目主讲课程《高等数学》、《线性代数》、《Sobolev空间》、《激波理论》、《数学物理方程》、《非线性发展方程》、《二阶椭圆型偏微分方程》、《论文写作与学术规范》

研究领域

流体力学中的偏微分方程

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

H.Y. Wen, On global solutions to a viscous compressible two-fluid model with unconstrained transition to single-phase flow in three dimensions, Calc. Var. PDEs, 2021, to appear. H.Y. Wen, T. Yang, X.H. Zhao, C.J. Zhu, Optimal convergence rate of the vanishing shear viscosity limit for compressible Navier-Stokes equations with cylindrical symmetry, J. Math. Pures Appl., 146 (2021), 99–126. W.J. Wang, H.Y. Wen, The Cauchy problem for an Oldroyd-B model in three dimensions, Math. Models Methods Appl. Sci.Vol. 30, No. 1(2020), 139-179. H.Y. Wen, X.H. Zhao, On a simplified compressible Navier-Stokes equations with temperature-dependent viscosity, J. Differential Equations, 268 (2020), 1974-2011. Y.Y. Qiao, H.Y. Wen, S. Evje, Viscous two-phase flow in porous media driven by source terms: analysis and numerics, SIAM J. Math. Anal., 51(2019), 5103-5140. A. Vasseur, H.Y. Wen, C. Yu, Global weak solution to the viscous two-fluid model with finite energy, J. Math.Pures Appl., 125(2019), 247-282. M. Hieber, H.Y. Wen, R.Z. Zi, Optimal decay rates for solutions to the incompressible Oldroyd-B model in R3, Nonlinearity, 32(2019), 833-852. J.R. Huang, C.Y. Wang, H.Y. Wen, Time decay rate of global strong solutions to nematic liquid crystal flows in R3, J. Differential Equations, 267(2019), 1767-1804. S. Evje, H.Y. Wen, A Stokes two-fluid model for cell migration that can account for physical cues in the microenvironment. SIAM J. Math. Anal., 50(2018), 86-118. H.Y. Wen, L.M. Zhu, Global well-posedness and decay estimates of strong solutions to a two-phase model with magnetic field, J. Differential Equations, 264(2018), 2377-2406. S.J. Ding, B.Y. Huang, H.Y. Wen, Global well-posedness of classical solutions to a fluid–particle interaction model in R3. J. Differential Equations 263 (2017), no. 12, 8666-8717. S. Evje, H.Y. Wen, C.J. Zhu, On global solutions to the viscous liquid-gas model with unconstrained transition to single-phase flow, Math. Models Methods Appl. Sci., Vol. 27, No. 2 (2017) 323-346. H.Y. Wen, C.J. Zhu, Global solutions to the three-dimensional full compressible Navier-Stokes equations with vacuum at infinity in some classes of large data, SIAM J. Math. Anal., Vol. 49, No. 1, pp. 162-221, 2017. S. Evje, H.Y. Wen, Stability of a compressible two-fluid hyperbolic-elliptic system arising in fluid mechanics, Nonlinear Analysis-Real World Applications, 31 (2016), 610–629. S. Evje, W.J. Wang, H.Y. Wen, Global well-posedness and decay rates of strong solutions to a non-conservative compressible two-fluid model, Arch. Rational Mech. Anal., 221 (2016), no. 3, 1285–1316. S. Evje, H.Y. Wen, On the large time behavior of the compressible gas-liquid drift-flux model with slip, Math. Models Methods Appl. Sci. 25 (2015), no. 11, 2175–2215. S. Evje, H.Y. Wen, Global solutions of a viscous gas-liquid model with unequal fluid velocities in a closed conduit,SIAM J. Math. Anal., 47 (2015), 381–406. S. Evje, H.Y. Wen, Weak solutions of a two-phase Navier–Stokes model with a general slip law. Journal of Functional Analysis, 268(2015), 93-139. H.Y. Wen, C.J. Zhu, Global symmetric classical solutions of the full compressible Navier-Stokes equations with vacuum and large initial data. J. Math. Pures Appl., 102 (2014),498–545. H.Y. Peng, H.Y. Wen, C.J. Zhu, Global well-posedness and zero diffusion limit of classical solutions to 3D conservation laws arising in chemotaxis. Z. Angew. Math. Phys. 65(2014), no. 6, 1167-1188. H.Y. Wen, C.J. Zhu, Blow-up criterions of strong solutions to 3D compressible Navier–Stokes equations with vacuum. Advances in Mathematics, 248 (2013), 534–572. S.J. Ding，J.R. Huang, H.Y. Wen, R.Z. Zi, Incompressible limit of the compressible hydrodynamic flow of liquid crystals.Journal of Functional Analysis. 264 (2013), 1711-1756. T. Huang, C.Y. Wang, H.Y. Wen, Blow up criterion for compressible nematic liquid crystal flows in dimension three. Arch. Rational Mech. Anal. 204 (2012), 285–311. H.Y. Wen, L. Yao, C.J. Zhu, A blow-up criterion of strong solution to a 3D viscous liquid-gas two-phase flow model with vacuum viscosity. J. Math. Pures Appl. 97 (2012) 204–229. S.J. Ding, H.Y. Wen, L. Yao, C.J. Zhu, Global spherically symmetric classical solution to compressible Navier-Stokes equations with large initial data and vacuum. SIAM J. Math. Anal. 44 (2012),1257-1278. T. Huang, C.Y. Wang, H.Y. Wen, Strong solutions of the compressible nematic liquid crystal flow. J. Differential Equations, 252 (2012), 2222-2265.

学术兼职

2020/01-至今广东省青年科学家协会副会长 2020/01-至今华南理工大学党外知识分子联谊会副会长