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Mingjun Pang

   Release time: 2013-10-31    Have access to: 28

 

1. Mingjun Pang, 1976.06—

 

2. Education

2008/092011/12   PhD candidate in School of Energy and Power Engineering, Xi′an Jiao tong University

2000/092003/07   Postgraduate for M.S. Degree in School of Environmental and Chemical Engineering, Nanchang University

1996/092000/07   Undergraduate for B.S. Degree in School of Chemical Engineering, Taiyuan University of Technology

 

3. Employment

2011/12present    Lecturer, School of Mechanical Engineering, Changzhou university, Jiangsu, China

2003/072008/09   Lecturer, School of Mechanical Engineering, Changzhou university, Jiangsu, China

 

4. Academic Participation

 

5. Honorary Titles

 

6. Research and Projects

(1) Research Interests

Turbulent drag reduction by additives

Flowing law of the gas-liquid two-phase flow

Stress analysis of pressure vessels

(2) Research Grants

No.

Name

 Grant Organization

Time  

Role

51376026

Study on mechanics of liquid turbulence and frictional drag modulation by microbubbles

National Natural Science Foundation of China

2014.1-2017.12

Principal Investigator

51076124

Study of enhanced heat transfer mechanism of drag-reducing surfactant solution in elongational flow

National Natural Science Foundation of China

2011.1-2013.12

Principal Participant

20090201110002

Theoretical and technological studies on scale-up effect and heat transfer enhancement for  turbulence drag reduction by surfactant

Ph.D. Programs Foundation of Ministry of Education of China

2010.1-2012.12

Principal Participant

BK2009145

Studies on key problems and drag reduction mechanics by surfactant in building air conditioning system

Natural Science Foundation of Jiangsu province China

2008.1-

Principal Participant

10602043

The dynamics of microstructure and rheological characteristics of drag-reducing surfactant solution in turbulent flow

National Natural Science Foundation of China

2007.1-2009.12

Principal Participant

BE2006104

Development of 1500t/h efficient energy-saving, long-distance and double air cushion belt conveyor

Jiangsu province major science and technology research project

2006.01-2009.12

Principal Participant

 

3Selected papers

Authors

Title

Journal, Vol., No., PP., Year

Citation

Pang MJ, Wei JJ,

Experimental investigation on the turbulence channel flow laden with small bubbles by PIV

Chemical Engineering science, vol. 94, pp.302-315, 2013

SCI:139VN; EI: 20131716231610

Pang MJ, Wei JJ, Yu B

Turbulence modulation by small bubbles in the vertical upward channel flow

Advance in Mechanical Engineering, vol.2013, pp.1-16, 2013

SCI:104AC

Pang MJ, Wei JJ, Yu B

Numerical investigation on effects of interphase force closures on liquid-phase turbulence and microbubbles distribution in vertical upward channel bubbly flow

Asia-Pacific Journal of Chemical Engineering, vol.7, no.4, pp.486-501, 2012.

SCI: 984TZ; EI: 20123315336001

Pang MJ, Wei JJ, Yu B

Numerical investigation of phase distribution and liquid turbulence modulation in dilute particle-laden flow

Particulate Science and Technology, vol.29, no.6, pp.554-576, 2011.

SCI:887VP;

EI: 20120314689110

Pang MJ, Wei JJ, Yu B

Effect of Particle Clusters on Turbulence Modulations in Liquid Flow Laden with Fine Solid Particles

Brazilian Journal of Chemical Engineering, vol.28, no.3, pp.433-446,  2011.

SCI:818ZN;

EI: 20113914362985

Pang MJ, Wei JJ, Yu B

Study on dependence of hydrodynamic characteristics on gravity in a vertical upward channel bubbly flow

Advances in Space Research, vol.48, no.8, pp.1391–1401, 2011.

SCI:825SB; EI: 20113614298068

Pang MJ, Wei JJ,

Analysis of drag and lift coefficient expressions of bubbly flow system for low to medium Reynolds number

Nuclear Engineering and Design, vol.241, no.6, pp.2204–2213, 2011.

SCI: 788AW;

EI: 20112214024782

Pang MJ, Wei JJ, Yu B

Numerical study of bubbly upflows in a vertical channel using the Euler–Lagrange two-way mode

Chemical Engineering Science, vol.65 no.23, pp.6215–6228 2010.

SCI: 665RG;

EI: 20104213304723

Pang MJ, Wei JJ, Yu B

Mechanism on lateral distribution of small bubbles in vertical bubbly upflows

Nonlinear Dynamics, vol.64, no.1-2, pp.147–156 , 2010

SCI: 733HV;

EI: 20111313874243

Pang MJ, Wei JJ, Yu B

Kawaguchi Y, Numerical investigation on turbulence and bubbles distribution in bubbly flow under normal gravity and microgravity conditions

Microgravity Science and Technology, vol.22, no.3, pp.283–294, 2010

SCI: 642YL;

EI: 20120314697744

Pang MJ, Wei JJ, Yu B

Numerical studies on effects of bubbles regular array on the liquid-phase turbulence

Canadian Journal of Chemical Engineering, vol.88, no.6. pp.945-958, 2010

SCI: 685UM;

EI: 20104813443362

Pang MJ, Wei JJ, Yu B

Numerical investigation on influence of micro-gravity magnitude on phase distribution and liquid turbulence statistics in bubbly flow

Chin. J. Space Sci. vol.32, no.3, pp.368-375, 2012

 

Pang MJ, Wei JJ, Yu B

Numerical investigation on phase distribution and turbulence of

liquid in bubbly flow using Euler-Lagrange two-way method

Journal of Xi’an Jiao tong university, vol.44, no.7, pp.1-5, 2010

EI: 20103113111486

Pang MJ, Wei JJ

Progress in the study on turbulent flows of drag reducing surfactant solutions

Advances in mechanics, vol.40, no.3, pp.129-146, 2010

 

Pang MJ, Wei JJ, Li FF

Research advances concerning the heat transfer turbulent structure of drag-reducing surfactant solutions

Journal of Engineering for Thermal Energy & Power, vol.25, no.2, pp.127-133, 2010

 

Pang MJ, Wei JJ, etc

Enhancing heat transfer ability of drag reducing surfactant solution

CHEMICAL INDUSTRY AND ENGINEERING PROGRESS, vol.28, no.10, pp.1693-1699, 2009

 

Pang MJ, Wei JJ

Drag reducing method and mechanics in transportation process

Journal of Hoisting and conveying machinery, no.7, pp.1-4, 2009

 

Pang MJ, Zhang SL

Design of Heavy Caliber Ball Valves and  3-D Numerical Simulation

Journal of chemical machine, vol.32, no.6, pp.385-388, 2005

 

 

4Patent

Inventor

Designation

Patent Number

Application Data

Authorization Data

1

A short-distance transportation  method and apparatus on liquid in the tank

201210422985.8

2012.11

 

2

The three-part hovercraft hull with velocity enhancement by wake

ZL 200910023232.8

2009.07.07

 

2

A method and apparatus of heat transfer enhancement on drag-reducing surfactant solutions

ZL 200810232197.6

2008.11.07

 

 

7. Teaching

(1) Teaching Course

Process fluid machinery》(for undergraduates majoring in process equipment and controlling engineering

Foundation of chemical equipment》(for undergraduates majoring in chemical engineering

Manufacturing process of chemical machinery》(for undergraduates majoring in process equipment and controlling engineering

(2) Publications on Engineering Education

Authors

Title

Journal, Vol., No., PP., Year

Pang MJ, Gao GF

Analysis on the teaching condition of process fluid machinery course

Higher education in Chemical Engineering, Vol.30, No.4, pp.28-32, 2013

Pang MJ, Chen XH, Gao GF

Influence of subjective factors on teaching quality for process fluid machinery course

13th symposium on research and teaching communication and discussion for process equipment and control engineering in China. BeijingChemical Industry Press, 2013

Pang MJ, Lu Y

Teaching method discussion on Manufacturing process of chemical machinery

Study on occupation education, no.8, pp.107, 2006

 

8. Research Opportunities

Planning to recruit 1-2 master graduate students, the following studies will be conducted

i Experimental study on rheological characteristics of multiphase flow;

ii. Flowing law of the gas-liquid two-phase flow with experimental and numerical method;

iii. Turbulent drag reduction by additives with experimental and numerical method.

 

9. Academic Activity

Lecture Title

Conference

Data

Two-way numerical study of bubbly upflows in a vertical channel using the Euler-Lagrange model

7th International Conference on Multiphase Flow, Tampa, Florida USA,

May 30-June 4, 2010

Numerical simulations on bubbly flow with Euler-Lagrange two-way method

Chinese society of engineering Thermophysics multiphase flow conference, Jilin, China

2009.09

Numerical investigations on influences of bubble diameter and void fraction on phase distribution and liquid turbulence modulation

Chinese society of engineering Thermophysics multiphase flow conference, Xiamen, China

2010.11

Analysis on the distribution mechanics of bubbles in the vertical upward channel

Chinese society of engineering Thermophysics multiphase flow conference, Urumqi, China

2011.09

 

10. Contact information

   School of Mechanical Engineering, Changzhou University, China

Post Code: 213016

   Email: pangmj@cczu.edu.cn

   Tel.: +86 0519-83290265

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