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姓    名:     张家忠          
职    称:     教授、博导

学    位:     博士 
办公电话:  029-82664177       

传    真:     029-82668723 
所在系所:  流体机械及工程       

E-mail:    jzzhang@mail.xjtu.edu.cn 
 

Customization(Multiple times)

  1. 1986、09-1993、05,于西安交通大学能源与动力学院流体机械及流体动力工程学科进行本科生、硕士研究生学习;
  2. 1994、09-1997、12,在西安交通大学建筑工程与力学学院获得博士学位;
  3. 1998、10-2001、02,应邀赴Eindhoven University of Technology进行博士后研究工作和学习;
  4. 2001、03-现在,西安交通大学能源与动力工程学院,教师。

Customization(Multiple times)

  1. 研究生课程:《非线性动力系统(流体、固体、流-固耦合等)的运动稳定性、分岔及其数值方法》; 
  2. 留学生课程:《Stability, Bifurcation and Numerical Analysis for the Nonlinear Dynamic Systems》; 
  3. 本科生课程:《透平压缩机的强度与振动》。 

Customization(Multiple times)

一、研究小组承担项目

  • 承担973计划、863计划、国家科技支撑计划、创新探索等项目,研究小组成员有8名博士生、11名硕士生,共同研究所列内容。

 

二、学术任职

  • 担任International scientific committee and organizing committee for Nonlinear Science and Complexity、Committee for Chaos, Complexity and Transport、Committee for Analysis and Control of Chaotic Systems、Committee for Chaotic Modeling and Simulation、Committee member for Topical Problems of Nonlinear Wave Physics等组织委员。
  • 担任中国机械工程学会流体工程分会第六届委员会委员、中机企协标委会委员、转子动力学学会常务理事等职务。
  • 担任《Journal of Applied Nonlinear Dynamics》、《推进技术》、《航空动力学报》、《天然气与石油》、《风机技术》等杂志编委,担任《Advances in Aerodynamics》副主编,担任《Journal of Environmental Accounting and Management》主编。

 

三、对外合作

  • 与俄罗斯科学院远东分院太平洋海洋学院签订了合作协议,与著名Sergey Prants教授的团队进行合作,包括互派博士生,主要研究方向为海洋及大气空气动力学的Lagrangian动力学、复杂流动的物质传输、非线性动力学分析等内容,同时与法国Aix-Marseille University、日本Tokushima University、美国Southern Illinois Univeristy Edwardsville、加拿大University of Regina等建立了合作关系。
  • 博士生国外合作导师:Xavier Leoncini, Sergey Prants, Yoshihiro Deguchi, Liming Dai, Albert C. J. Luo.
  • 担任2014年第五届国际非线性科学及复杂性大会(5th Conference on Nonlinear Science and Complexity)主席,网址:http: //nsc2014.xjtu.edu.cn。

Customization(Multiple times)

  1. 入选2007年教育部“新世纪优秀人才支持计划”;
  2. 流体机械多平行轴-滑动轴承-齿轮耦合转子系统动力学分析软件;
  3. 大型流体机械离心叶轮振动模态局部化疲劳破坏、寿命分析及优化设计;
  4. 流体动力学中的非连续、非光滑、突变动力学行为分析方法;
  5. 基于惯性流形及多级阶谱有限元的流体动力学数值降维方法;
  6. 非定常流动分离的Lagrangian拟序结构数值分析方法;
  7. 流动的Lagrangian斑图动力学及数值方法;
  8. 连续介质动力系统流-固耦合或气动弹性问题的CBS有限元方法;
  9. 基于局部柔性结构的高效流动控制机制。 

Customization(Multiple times)

一、基础研究

  1. 无穷维非线性动力系统的不变集、降维方法与同步等行为研究、多分枝解的跟踪与跃迁行为,以及相应的数值方法;
  2. N-S方程、湍流中的奇异性、非线性行为和建模, 以及通向湍流的途径、相应的数值分析方法;对流混沌;宏观量子行为;
  3. 流体流动及燃烧的Pattern动力学、Lagrangian拟序结构、Lobe动力学及基于该结构的流动稳定性分析;流形上的流体动力学和几何理论研究;
  4. 激波、等离子体、汽蚀或空化、孤立子等连续介质中的奇异现象的建模、动力学分析及控制;
  5. 多相流激波增压;微空泡边界层流动中的Stick-slip现象及其在减阻、空化气泡的聚能机制、气幕降噪中的应用;微空化射流;
  6. 高空、高超声速流动的建模、低密度等效应及数值方法;非线性非平衡大气热力动力学;流动的多尺度数值分析方法;低雷诺数效应;
  7. 非线性连续介质动力系统中的惯性流形、分数微积分、多尺度分析、非光滑分析、临界自组织现象分析及应用;
  8. 非定常空气动力学的本征结构(Lagrangian拟序结构)动力学描述及稳定性分析方法;波-涡耦合分析方法、靶向动量和物质输运、能量局部化;非定常气动设计方法;
  9. 流-固耦合或气动弹性稳定性数值分析方法、多孔介质中的微尺度流动;
  10. 非定常分离流的基本Lagrangian拟序结构型谱、分离模式的普适判据;非定常分离流LCSs中的精细功能结构及其调控性。

 

 二、应用研究

  1. 大气及海洋中极端或奇异现象的动力学机理、斑图动力学及其形成机制和控制;基于非平衡态跃迁的能量捕获机制;
  2. 透平机械及飞行器中的流-固耦合或气弹问题、流动稳定性分析及扩稳、结构气弹自适应流动控制;适应低雷诺数效应的透平机械的扩稳研究;
  3. 高效、气动自适应低风速风力机机组的研究;透平压缩机多功能集成的关键理论及技术,可实现流程工业能质流传递与转化中的节能降耗;
  4. 飞行器增升减阻、气动加热、动态失速分析及数值方法;低雷诺数效应及超音速流动的基础研究;
  5. 转子动力系统中的运动稳定性分析、转子动力学软件(基于有限元方法的转轴、滑动轴承、挤压油膜阻尼器等数值分析方法);
  6. 薄壁结构的动力屈曲、结构的静力学及动力学分析;周期性对称结构的振动局部化等非线性动力学行为分析和控制;
  7. 运动物体绕流问题(机车等)的主动气动弹性及水弹减阻、减振及降噪;
  8. 深海Sea-air耦合能量输运机制;海上风电高效捕获风能途径。

Customization(Multiple times)

期刊论文:

  1. Zeming Wei, Jiazhong Zhang*, Ruidong Jia and Jingsheng Gao. An improved method for coherent structure identification based on mutual K-nearest neighbors. Journal of Turbulence, 2022, 23(11-12) , 655-673.
  2. Zheng Han, Zhihui Li, Zhiyong Bai, Xuguo Li and Jiazhong Zhang. Study on Numerical Algorithm of the N-S Equation for Multi-Body Flows around Irregular Disintegrations in Near Space. Aerospace 2022, 9, 347.
  3. Xinyao Zheng, Zhizhe Chen, Zhiyu Chen, Lianjie Chai, Jiazhong Zhang*. Analysis of Pollutant Transport Around a Circular Cylinder in Subcritical Regime Using Lagrangian Coherent Structures. Journal of Environmental Accounting and Management, 2022, 10(3): 321-333.
  4. Nannan Dang, Wei Wang, Jiazhong Zhang* and Yan Liu. Bifurcation analysis of combustion instability in a Rijke burner with an improved third-order saturated flame model. Journal of Mechanical Science and Technology, 2022, 36 (8): 4289-4301.
  5. Wei Wang, Jiazhong Zhang*, Zhi-Yu Chen, and Zhi-Hui Li. Quantitative analysis of fluid transport in dynamic stall of a pitching airfoil using variational Lagrangian coherent structures and lobe dynamics. Physics of Fluids, 2022, 34, 075112.
  6. Nannan Dang, Wei Wang, Shengli Cao, Jiazhong Zhang*, Yoshihiro Deguchi, and Zhihui Li. Lagrangian identification of coherent structures and mass transport in a buoyant jet diffusion flame. Combustion Science and Technology, 2022, https://doi.org/10.1080/00102202.2022.2101105.
  7. Wei Wang, Jiazhong Zhang*, Zhihui Li, Chunxue Wang, Dalei Wang. Study on Transports of Atmospheric Pollutants under Global Wind by Dynamical System Approach. Journal of Environmental Accounting and Management, 2022, 10(4): 345-360.
  8. Xu Sun, Shuai Li, Gang-Gui Lin, Jia-Zhong Zhang. Effects of flow-induced vibration on forced convection heat transfer from two tandem circular cylinders in laminar flow. International Journal of Mechanical Sciences, 195 (2021), 106238.
  9. Shengli Cao, Xu Sun, Jiazhong Zhang, Yixin Zhang. Forced convection heat transfer around a circular cylinder in laminar flow: an insight from Lagrangian coherent structures. Physics of Fluids. 2021, 33: 067104. 
  10. Nannan Dang, Jiazhong Zhang* and Yoshihiro Deguchi. Numerical Study on the Route of Flame-Induced Thermoacoustic Instability in a Rijke Burner. Applied Sciences, 2021, 11, 1590
  11. Shengli Cao, Peihua Feng, Wei Wang, Yayun Shi, Jiazhong Zhang. Small-world effects in a modified epidemiological model with mutation and permanent immune mechanism. Nonlinear Dynamics, 2021, https://doi.org/10.1007/s11071-021-06519-8. 
  12. Wei Wang, Shengli Cao, Nanan Dang, Jiazhong Zhang, Yoshihiro Deguchi. Study on dynamics of vortices in dynamic stall of a pitching airfoil using Lagrangian coherent structures. Aerospace Science and Technology, 2021, 13:106706. 
  13. RIAZ AHMAD, ASMA FAROOQI, JIAZHONG ZHANG, ILYAS KHAN, AND EL-SAYED M. SHERIF. Analysis of Transport and Mixing Phenomenon to Invariant Manifolds Using LCS and KAM Theory Approach in Unsteady Dynamical Systems. Digital Object Identifier, 2020, 8, 3011569.
  14. Shengli Cao, Nannan Dang, Zeyv Ren, Jiazhong Zhang*, Yoshihiro Deguchi. Lagrangian analysis on routes to lift enhancement of airfoil by synthetic jet and their relationships with jet parameters. Aerospace Science and Technology, 2020, 104, 105947.
  15. Wei Kang, Min Xu, Weigang Yao, Jiazhong Zhang. Lock-in mechanism of flow over a low-Reynolds-number airfoil with morphing surface. Aerospace Science and Technology, 2020, 97, 105647.
  16. Zhengyuan Zhang, Jiazhong Zhang, Pengyu Fan, and Yongsen He. Devil's staircases in a thermoacoustic system with sinusoidal excitations. European Physical Journal, 2019, 228: 1891-1901.
  17. Wenfan Zhang, Jiaqi Fang, Yongsen He, and Jiazhong Zhang. Resonance capture and targeted energy transfer for suppressing aeroelastic instability of 2-D wing. European Physical Journal, 2019, 228: 1873-1889.
  18. Le Wang, Shengli Cao, Ya Li, and Jiazhong Zhang. On synchronization in flow over airfoil with local oscillating flexible surface at high angle of attack using Lagrangian coherent structures. European Physical Journal, 2019, 228: 1515-1525.
  19. Zuo Wang, Yan Liu, Jiazhong Zhanga,∗, Nannan Dang. Study of laminar natural convection in a vertical annulus with inner wall covered by a porous layer by using lattice Boltzmann method. International Journal of Thermal Sciences, 2019, 135: 386-397.
  20. Zhuopu Wang, Jiazhong Zhang*, Le Wang, and Yan Liu. A general objective shock wave detection from a geometric singular perturbation approach, Communications in Nonlinear Science and Numerical Simulation, 2019, 66: 1-19.
  21. Peihua Feng, Jiazhong Zhang*, and Yun Wei. Solitary waves in boundary layer induced by a travelling wave with increasing amplitude. Communications in Nonlinear Science and Numerical Simulation, 2019, 77: 25-39.
  22. Shengli Cao, Ya Li, Jiazhong Zhang*, Yoshihiro Deguchi. Lagrangian analysis of mass transport and its influence on the lift enhancement in a flow over the airfoil with a synthetic jet. Aerospace Science and Technology, 2019, 86:11-20.
  23. Riaz Ahmad, Jiazhong Zhang*, Asma Farooqi and M. Nauman Aslam. Transport phenomena and mixing induced by vortex formation in flow around airfoil using Lagrangian Coherent Structures. NUMERICAL MATHEMATICS: Theory, Methods and Applications, 2019, 12(4), 1231-1245.
  24. M. Nauman Aslam, Jiazhong Zhang, Nannan Dang, Riaz Ahmad. An Improved Model Reduction Method on AIMs for N-S Equations Using Multilevel Finite Element Method and Hierarchical Basis, Numerical Mathematics: Theory, Methods and Application, 2018, doi: 10.4208/nmtma.OA-2017-0106, 1-19.
  25. Yan-Hui Geng, Guo-Liang Qin, Jia-Zhong Zhang. Spectral element method for wave propagation on irregular domains. SADHANA-ACADEMY PROCEEDINGS IN ENGINEERING SCIENCES. 2018,43:(3) , 0791-4.
  26. Pengfei Lei, Jiazhong Zhang*, Daxiong Liao. Lift Enhancement of Airfoil Using Local Flexible Structure and the Influences of Structure Parameters. Journal of Vibration Testing and System Dynamics, 2018, 2(2), 155-165.
  27. Wenhao Wang, Sergey V. Prants, Jiazhong Zhang*, and Le Wang. A Lagrangian Analysis of Vortex Formation in the Wake behind a Transversely Oscillating Cylinder. Regular and Chaotic Dynamics, 2018, 23(5): 579-590.
  28. Yamiao Zhang, Jiazhong Zhang*. Iterative finite element variational multiscale method for the incompressible Navier-Stokes equations. Journal of Computational and Applied Mathematics, 2018, 340: 53-70. 
  29. Xu Sun, Shi-Zhao Wang, Jiazhong Zhang*, Ze-Hua Ye. Bifurcations of vortex-induced vibrations of a fixed membrane wing at Re≤1000. Nonlinear Dynamics, 2018, 91:2097-2112.
  30. Wenfan Zhang, Jiazhong Zhang*, Le Wang, Shaohua Tian Study on targeted energy transfer and resonance captures in the 2D-wing and nonlinear energy sinks. Journal of Vibration Testing and System Dynamics, 2018, 2(4): 297-306.
  31. Zuo Wang, Yan Liu, Jiazhong Zhang*. Regularized lattice Bhatnagar-Gross-Krook model for thermal flow in porous media. Proceedings of the iMeche, Part C: Journal of Mechanical Engineering Science, 2018, 3: 232~240.

 

专著:

  1. 张家忠.非线性动力系统的运动稳定性、分岔理论及其应用.西安交通大学出版社, 26万字,ISBN 978-7-5605-3589-0,2010.
  2. Jiazhong Zhang, Liying Chen, Sheng Ren. Nonlinear Science and Complexity, Part VIII, Chapter 48: Nonlinear Systems: Model Reduction of Nonlinear Continuous Dynamic Systems on Inertial Manifolds with Delay. Springer Berlin/Heidelberg, 10607 words, 2011, ISBN 978-90-481-9883-2, pp413-418.
  3. Yan Liu, Jiazhong Zhang. Dynamical Systems-Discontinuity, Stochasticity and Time-Delay, Part I, Chapter 3:   Study on the Multifractal Spectrum of Local Area Networks Traffic and Their Correlations. Springer Berlin/Heidelberg, 12292words, 2010, ISBN 978-1-4419-5753-5, pp13-21.
  4. Jiazhong Zhang, Sheng Ren, Guanhua Mei. Dynamical Systems-Discontinuity, Stochasticity and Time-Delay, Part IV, Chapter 30: Model Reduction on Inertial Manifolds of N-S Equations through Multi-scale Finite Element. Springer Berlin/Heidelberg, 18012words, 2010, ISBN 978-1-4419-5753-5, pp383-396.
  5. Jiazhong Zhang. Nonlinear Approaches in Engineering Applications, Chapter 10: Nonlinear Dynamics of Incompressible Flow-Complexity in Two Dimensional Flows Around Circular Cylinder. Springer Berlin/Heidelberg,37261 words, 2012, ISBN 978-1-4614-1468-1, pp 283-314 
  6. Jia-Zhong Zhang, Yan Liu, Pei-Hua Feng, and Jia-Hui Chen. Discontinuity and Complexity in Nonlinear Physical Systems, Chapter 19: Formations of Transitional Zones in Shock Wave with Saddle-Node Bifurcations. Springer International Publishing Switzerland, 2013, ISBN: 3319014102.
  7. Jiazhong Zhang* (Editor), Yan Liu. Complex Motions and Chaos in Nonlinear Systems, Chapter 2: Some Singularities in Fluid Dynamics and Their Bifurcation Analysis. Springer International Publishing Switzerland, 2016, ISBN 978-3-319-28762-1. (BF9NZ)
  8. Jiazhong Zhang*, Yan Liu, Wei Wang, Ruidong Jia, Nannan Dang, Zhiyu Chen. Nonlinear Dynamics and Complexity Mathematical Modelling of Real-World Problems, Chapter 8: Analyzing and Understanding Vortex in Typical Complicated Flows with Dynamical System Approach. Springer Berlin/Heidelberg, 2022, ISBN 978-3-031-06631-3.
  9. Jiazhong Zhang* (Editor). Dynamics and Fault Diagnosis of Nonlinear Rotors and Impellers. Springer International Publishing Switzerland, 2022, ISSN 2195-9994.