Tao Jiang

Possui mestrado em computational mathematics - Harbin Institute Of Technology (2007) e doutorado em Computational fluid dynamics - Northwestern Polytechnical University - China (2012). Atualmente é university teacher - Yangzhou University. Tem experiência na área de Engenharia Mecânica, com ênfase em Mecânica dos Fluídos NOS últimos Anos, minha equipe e EU já publicou Mais de trinta Livros de ficção científica no Campo Da mecânica de fluidos computacional, 16 DOS quais saiu com o primeiro autor correspondente identidade.Algumas Das referidas Obras foram publicadas EM revistas académicas internacionais, tais Como o computador de física computacional aplicada a mecânica, comunicações, modelagem matemática, Journal of computational physics e International Journal of heat and mass transfer.

Informações coletadas do Lattes em 21/08/2024

Acadêmico

Formação acadêmica

Doutorado em Computational fluid dynamics

2007 - 2012

Northwestern Polytechnical University - China, NPU/China
Título: Simulations of Polymer Free Surface Flow using Corrected Symetric SPH Method
Orientador: Jie Ouyang

Mestrado em computational mathematics

2005 - 2007

Harbin Institute Of Technology
Título: The numerical stability analysis of delay differential equation,Ano de Obtenção: 2007
Orientador: Jingjun Zhao
Coorientador: Jingjun Zhao.

Pós-doutorado

2017 - 2018

Pós-Doutorado. , Universidade Federal do Paraná, UFPR, Brasil. , Bolsista do(a): Coordenação de Aperfeiçoamento de Pessoal de Nível Superior, CAPES, Brasil.

Idiomas

Inglês

Compreende Razoavelmente, Fala Razoavelmente, Lê Razoavelmente, Escreve Razoavelmente.

Chinês

Compreende Bem, Fala Bem, Lê Bem, Escreve Bem.

Áreas de atuação

Grande área: Engenharias / Área: Engenharia Mecânica / Subárea: Fenômenos de Transporte/Especialidade: Mecânica dos Fluídos.

Produções bibliográficas

JIANG, TAO ; CHEN, ZHEN-CHAO ; LU, WEI-GANG ; YUAN, JIN-YUN ; WANG, DENG-SHAN . An efficient split-step and implicit pure mesh-free method for the 2D/3D nonlinear Gross-Pitaevskii equations. COMPUTER PHYSICS COMMUNICATIONS , v. 18, p. 101-122, 2018.
ZHANG, TONG ; QIAN, YANXIA ; JIANG, TAO ; YUAN, JINYUN . Stability and convergence of the higher projection method for the time-dependent viscoelastic flow problem. JOURNAL OF COMPUTATIONAL AND APPLIED MATHEMATICS , v. 338, p. 1-21, 2018.
ZHANG, TONG ; JIANG, TAO ; YUAN, JINYUN . One-level and two-level finite element methods for the Boussinesq problem. MATHEMATICAL METHODS IN THE APPLIED SCIENCES , v. 41, p. 2748-2768, 2018.
JIANG, T. ; LU, W. G. ; XU, B. . A corrected particle method with high-order Taylor expansion for solving the viscoelastic fluid flow. ACTA MECHANICA SINICA , v. 33, p. 20-39, 2017.
JIANG, TAO . Simulation of three-dimensional transient heat conduction problem with variable coefficients based on the improved parallel smoothed particle hydrodynamics method. ACTA PHYSICA SINICA , v. 66, p. 130201-1-130201-12, 2017.
REN, JINLIAN ; JIANG, TAO ; LU, WEIGANG ; LI, GANG . An improved parallel SPH approach to solve 3D transient generalized Newtonian free surface flows. Computer Physics Communications , v. 205, p. 87-105, 2016.
REN, JIN-LIAN ; JIANG, TAO . Simulation of the 3D viscoelastic free surface flow by a parallel corrected particle scheme. Chinese Physics B , v. 25, p. 020204, 2016.
JIANG, T. ; LU, W. ; REN, J. ; XU, L. ; LU, L. . Simulation of polymer filling process by an improved smoothed particle hydrodynamics method based on higher-order Taylor expansion. ACTA PHYSICA SINICA , v. 65, p. 220202, 2016.
REN, JINLIAN ; OUYANG, JIE ; JIANG, TAO . An improved particle method for simulation of the non-isothermal viscoelastic fluid mold filling process. International Journal of Heat and Mass Transfer , v. 85, p. 543-560, 2015.
REN, J. ; LU, WEI-GANG ; JIANG, TAO . Simulation and prediction of the weld-line in the filling process using a corrected smoothed particle hydrodynamics method. ACTA PHYSICA SINICA , v. 64, p. 080202-1-080202-12, 2015.
REN, JINLIAN ; LU, WEIGANG ; JIANG, TAO . Numerical Simulation of the Generalized Newtonian Free Surface Flows by a Density Reinitialization SPH Method. MATHEMATICAL PROBLEMS IN ENGINEERING , v. 2015, p. 1-17, 2015.
JIANG, TAO ; LU, LIN-GUANG ; LU, WEI-GANG . The numerical investigation of spreading process of two viscoelastic droplets impact problem by using an improved SPH scheme. Computational Mechanics , v. 53, p. 977-999, 2014.
JIANG, T. ; TANG, Y. ; REN, J. . A Corrected 3D Parallel SPH Method for Simulating the Polymer Free Surface Flows Based on the XPP Model. Computer Modeling in Engineering & Sciences (Print) , v. 101, p. 249-297, 2014.
JIANG, TAO ; REN, J. ; XU, L. ; LU, L. . A corrected smoothed particle hydrodynamics approach to solve the non-isothermal non-Newtonian viscous fluid flow problems. ACTA PHYSICA SINICA , v. 63, p. 210203-1-210203-13, 2014.
XU, XIAOYANG ; OUYANG, JIE ; JIANG, TAO ; LI, QIANG . Numerical analysis of the impact of two droplets with a liquid film using an incompressible SPH method. JOURNAL OF ENGINEERING MATHEMATICS , v. 85, p. 35-53, 2014.
JIANG, T. ; LU, L. ; LU, W. . Numerical study of collision process between two equal diameter liquid micro-droplets using a modified smoothed particle hydrodynamics method. ACTA PHYSICA SINICA , v. 62, p. 224701-1-224701-12, 2013.
JIANG, T. ; OUYANG, J. ; LI, X. ; REN, J. ; WANG, X. . Numerical study of a single drop impact onto a liquid film up to the consequent formation of a crown. Journal of Applied Mechanics and Technical Physics , v. 54, p. 720-728, 2013.
LI, XUEJUAN ; OUYANG, JIE ; JIANG, TAO ; YANG, BINXIN . Integration modified wavelet neural networks for solving thin plate bending problem. Applied Mathematical Modelling , v. 37, p. 2983-2994, 2013.
JIANG, TAO ; OUYANG, JIE ; REN, JIN-LIAN ; YANG, BIN-XIN ; XU, XIAO-YANG . A mixed corrected symmetric SPH (MC-SSPH) method for computational dynamic problems. Computer Physics Communications , v. 183, p. 50-62, 2012.
REN, JINLIAN ; OUYANG, JIE ; JIANG, TAO ; LI, QIANG . Simulation of complex filling process based on the generalized Newtonian fluid model using a corrected SPH scheme. Computational Mechanics , v. 49, p. 643-665, 2012.
REN, JINLIAN ; OUYANG, JIE ; JIANG, TAO ; LI, QIANG . A corrected symmetric SPH method to simulate viscoelastic free surface flows based on the PTT model. International Journal for Numerical Methods in Fluids (Print) , v. 70, p. 1494-1517, 2012.
JIANG, TAO ; OUYANG, JIE ; ZHANG, LIN ; REN, JIN-LIAN . The SPH approach to the process of container filling based on non-linear constitutive models. ACTA MECHANICA SINICA , v. 28, p. 407-418, 2012.
XU, XIAOYANG ; OUYANG, JIE ; JIANG, TAO ; LI, QIANG . Numerical simulation of 3D-unsteady viscoelastic free surface flows by improved smoothed particle hydrodynamics method. Journal of Non-Newtonian Fluid Mechanics (Print) , v. 177-178, p. 109-120, 2012.
WANG, XIAODONG ; OUYANG, JIE ; YANG, BINXIN ; REN, JINLIAN ; JIANG, TAO . Simulating free surface flow problems using hybrid particle element free Galerkin method. ENGINEERING ANALYSIS WITH BOUNDARY ELEMENTS , v. 36, p. 372-384, 2012.
JIANG, TAO ; OUYANG, JIE ; LI, QIANG ; REN, JINLIAN ; YANG, BINXIN . A corrected smoothed particle hydrodynamics method for solving transient viscoelastic fluid flows. Applied Mathematical Modelling , v. 35, p. 3833-3853, 2011.
ZHANG, LIN ; OUYANG, JIE ; JIANG, TAO ; RUAN, CHUNLEI . Variational multiscale element free Galerkin method for the water wave problems. Journal of Computational Physics (Print) , v. 230, p. 5045-5060, 2011.
JIANG, TAO ; OUYANG, JIE ; ZHANG, LIN ; LI, XUEJUAN . Improved SPH Approach to Branched Polymer Free Surface Flows Based on the XPP Model. POLYMER-PLASTICS TECHNOLOGY AND ENGINEERING , v. 50, p. 203-215, 2011.
LI, QIANG ; OUYANG, JIE ; YANG, BINXIN ; JIANG, TAO . Modelling and simulation of moving interfaces in gas-assisted injection moulding process. Applied Mathematical Modelling , v. 35, p. 257-275, 2011.
REN, JINLIAN ; OUYANG, JIE ; YANG, BINXIN ; JIANG, TAO ; MAI, HONGYAN . Simulation of container filling process with two inlets by improved smoothed particle hydrodynamics (SPH) method. INTERNATIONAL JOURNAL OF COMPUTATIONAL FLUID DYNAMICS , v. 25, p. 365-386, 2011.
JIANG, TAO ; OUYANG, JIE ; LI, XUEJUAN ; ZHANG, LIN ; REN, J. . The first order symmetric SPH method for transient heat conduction problems. ACTA PHYSICA SINICA , v. 60, p. 090206, 2011.
JIANG, T. ; OUYANG, JIE ; Zhao, XK ; REN, J. . The deformation process of viscous liquid drop studied by using kernel gradient corrected SPH method. ACTA PHYSICA SINICA , v. 60, p. 054701, 2011.
JIANG, TAO ; OUYANG, JIE ; YANG, BINXIN ; REN, JINLIAN . The SPH method for simulating a viscoelastic drop impact and spreading on an inclined plate. Computational Mechanics , v. 45, p. 573-583, 2010.
YANG, BIN-XIN ; OUYANG, JIE ; JIANG, TAO . Modeling and simulation of fiber reinforced polymer mold filling process by Level Set method. CMES-COMPUTER MODELING IN ENGINEERING & SCIENCES , v. 63, p. 191-222, 2010.
LI, XUEJUAN ; OUYANG, JIE ; YANG, BINXIN ; JIANG, TAO . Warpage Optimization in Injection Molding Using MPSO−HNN and MPSO Algorithm. POLYMER-PLASTICS TECHNOLOGY AND ENGINEERING , v. 49, p. 1247-1256, 2010.

Projetos de pesquisa

2016 - Atual

Multiscale algorithm simulation study for polymer molding process, Descrição: Projected by the National Natural Science Foundation of China (NSFC) (No. 11501495). (First Participant). , Situação: Em andamento; Natureza: Pesquisa.
2015 - Atual

Numerical simulations of polymer molding process using the Coupling multi-scale method, Descrição: Projected by the Natural Science Youth Foundation of Jiangsu Province, China ( Grant No. BK20150436 ). (First Participant). , Situação: Em andamento; Natureza: Pesquisa.
2014 - 2015

Numerical studies of the turbulent fluid flow using a corrected SPH, Descrição: Projected by the Postdoctoral Science Foundation of China (Grant No. 2014M550310). , Situação: Concluído; Natureza: Pesquisa.
2013 - 2016

Numerical studies of non-Newtonian multiphase flow using the Smoothed particle dynamics method, Descrição: Projected by the Natural Science Youth Foundation of Jiangsu Province, China ( Grant No. BK20130436 ).. , Situação: Concluído; Natureza: Pesquisa.
2013 - 2014

Numercial simulations of non-Newtonian fluid flow using SPH, Descrição: Projected by the Innovation Cultivation Funds of Yangzhou University, China (Grant No. 2013CXJ003 and No. 2014CXJ001). , Situação: Concluído; Natureza: Pesquisa.

Prêmios

2015

Associate Professor, Yangzhou University.

2014

The outstanding doctoral dissertation in shaanxi province, Northwestern Polytechnical University, Xi′ an, China.

Histórico profissional

Endereço profissional

Yangzhou University, School of Mathematics. , School of Mathematical Sciences, Yangzhou University, Yangzhou, Siwang Ting Road no.180, 225002 - Yangzhou, - China, Telefone: (86) 87975384

Experiência profissional

2012 - Atual

Yangzhou University

Vínculo: Formal labor contract, Enquadramento Funcional: University Teacher