Na Xu -太原理工大学化学与化工学院

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Na Xu Ph.D

Master Supervisor

Subject：

Process Equipment and Control Engineering

Research：

·Heat and Mass Transfer of non-Newtonian Fluid Flow
·Polymer Self-assembly

E-mail：naxu_xjtu@163.com

Address：Chemical Process Equipment Building C203

Personal profile
Education
Scientific Research

Name: Xu Na Gender: Female Date of Birth: 1983/01 Cell Phone: +86-13353410105 Email: naxu_xjtu@163.com
Education:
2014/10-2015/10: Joint-Supervision, Department of Mechanical Engineering, Faculty of Science and Technology, Tokyo University of Science, Japan.
2010/09-2016/12: Ph.D., Power Engineering and Engineering Thermophysics, School of Energy and Power Engineering, Xi’an Jiaotong University, China.
2003/09-2007/06: B.S., Chemical Engineering and Technology, School of Chemical Engineering, Lanzhou Jiaotong University, China.
Work Experience：
2019/01-Present: Postdoctoral Fellow, Chemical Engineering, College of Chemistry and Chemical Engineering, Taiyuan University of Technology, China.
2017/07-Present: Lecturer, Process Equipment and Control Engineering, College of Chemistry and Chemical Engineering, Taiyuan University of Technology, China.

1.Course

Engineering Fluid Mechanics, Process Fluid Machinery

1.Research Interests

(1) Heat and Mass Transfer of non-Newtonian Fluid Flow:

Heat and mass transfer engineering and its application to energy conservation technologies, Microstructure, rheology and turbulent characteristics of surfactant viscoelastic flow，Forced convection, Heat transfer enhancement.

(2) Polymer Self-assembly:

Microstructure, rheology and application of polymer self-assembly.

2.Paper

[1] Li J, Zhang XF, Zhang CW, Xu N*. Mesoscale Brownian dynamics simulation on self-assembly behaviors of CTAC/NaSal surfactant rodlike micelles[J]. China Surfactant Detergent & Cosmetics, 2020, 50(4): 213-219.

[2] Xu N, Wei JJ*, Kawaguchi Y. Rheology test on shear viscosity of surfactant solution: characteristic time, hysteresis phenomenon and fitting equation[J]. Industrial & Engineering Chemistry Research, 2016, 55(20): 5817-5824.

[3] Xu N, Wei JJ*, Kawaguchi Y. Dynamic and energy analysis on the viscosity transitions with increasing temperature under shear for dilute CTAC surfactant solutions[J]. Industrial & Engineering Chemistry Research, 2016, 55(8): 2279-2286.

[4] Wei JJ*, Huang CH, Xu N. Research progress concerning turbulent drag reduction of surfactant solution[J]. Chemical Industry and Engineering Progress, 2016, 35(6): 1660-1675.

[5] Xu N, Wei JJ*. Time-dependent shear-induced nonlinear viscosity effects in dilute CTAC/NaSal solutions: mechanism analyses[J]. Advances in Mechanical Engineering, 2014, 6: 1-8.

[6] Zhou YB, Xu N, Ma N, Li FC*, Wei JJ, Yu B. On Relationships among the aggregation number, rheological property, and turbulent drag-reducing effect of surfactant solutions[J]. Advances in Mechanical Engineering, 2011, 3: 1-5.

[7] Xu N, Wei JJ*. Rheological Characteristics of CTAC Aqueous Solutions Under the Combined Effects of Shearing and Temperature[J]. Journal of Engineering Thermophysics, 2014, 35(2): 278-281.

3. Projects

National Natural Science Foundation of China (NSFC)：Study on mechanism and model of surfactant turbulent drag-reduction combining empirical correlation method and multi-scale characteristic (No. 21908152), PI.