Home > People > Faculty > Chen, Zhiping

Chen, Zhiping

Professor

Chen, Zhiping
0571-87953007
zhiping@zju.edu.cn
Institute of Process Equipment, Zheda Road 38

CHEN Zhiping, Ph.D., Professor, doctoral supervisor, research field is High Parameter Intelligent Pressure Vessel and Large-scale Oil and Gas Energy Equipment.

Education:

(1)1982.9~1986.7 Bachelor’s degree in Chemical Process Mechanics, Zhejiang University

(2)1986.9~1989.6 Master’s degree in Chemical Process Mechanics, Zhejiang University

(3)2002.2~2006.6 On-job Doctor’s degree in Chemical Process Mechanics, Zhejiang University

Work Experience:

(1)1989.8~1998.12 Energy Engineering Company of Zhejiang University, successively served as Technician, Office director, Assistant chief engineer and General manager

(2)1998.12~now Institute of Process Equipment in Zhejiang University, Associate ProfessorProfessor(2008.12-)


Research Areas

Process Equipment
High Parameter Intelligent Pressure Vessel
Large-scale Oil and Gas Energy Equipment

Courses

1. Engineering Design of Process Equipment, undergraduate course

2. Design and Safety of Pressure Equipment, graduate course

Publications

1.Chen ZP*, Fan HG, Cheng J, Jiao P, Xu F, Zheng CC. Buckling of cylindrical shells with measured settlement under axial compression. Thin-Walled Structures, 2018, 123: 351-359. 

2.Jiao P, Chen ZP*, Xu F, Tang XY, Su WQ. Effects of ringed stiffener on the buckling behavior of cylindrical shells with cutout under axial compression: Experimental and numerical investigation. Thin-Walled Structures, 2018, 123: 232-243.

3.Song Huang, Zhiping Chen*, Wenqiang Su, Peng Jiao, Xiaoyu Tang. Limit and shakedown analysis under hydrogen embrittlement condition[J], Meccanica, 2018,53(8):2193-2208.

4.Song Huang, Futeng Wan, Peng Jiao, Zhiping Chen*. A modified basis reduction method for limited kinematic hardening shakedown analysis under complex loads[J]. Mechanics Based Design of Structures and Machines, 2018,46(1):85-100.

5.Zhou F, Chen Z*, Zheng C, et al. Experimental and numerical buckling failure analysis of acrylic hemispheres for application in neutrino detector. Engineering Failure Analysis, 2017:147–160.

6.Fan H G, Chen Z P*, Cheng J, Huang S, Feng W Z, Liu L G. Analytical research on dynamic buckling of thin cylindrical shells with thickness variation under axial pressure. Thin-Walled Structures, 2016, 101:213-221.

7.Fan H G, Chen Z P*, Shen J M, Cheng J, Chen D Y, Jiao P. Buckling of steel tanks under measured settlement based on Poisson curve prediction model. Thin-Walled Structures, 2016, 106:284-293.

8.Zhou F, Chen Z P*, Fan H G, Huang S.Analytical study on the buckling of cylindrical shells with stepwise variable thickness subjected to uniform external pressure. Mechanics of advanced materials and structures, 2016, 23: 1207-1215.

9.Feng W Z, Chen Z P*, Jiao P, et al. Buckling of Cylindrical Shells with Arbitrary Circumferential Thickness Variations Under External Pressure[J]. Journal of Mechanics, 2016, -1:1-10.

10.Zhou F, Hou S, Qian X, Chen Z P*. Creep behavior and lifetime prediction of PMMA immersed in liquid scintillator. Polymer Testing, 2016, 53:323-328.

11.Cao G W, Chen Z P*, Yang L C, Fan H G, Zhou F. Analytical Study on the Buckling of Cylindrical Shells With Arbitrary Thickness Imperfections Under Axial Compression. Journal of Pressure Vessel Technology, 2015, 137(1): 011201-1-011201-9.

12.Yang L C, Chen Z P*, Chen F C, Guo W J, Cao G W. Buckling of cylindrical shells with general axisymmetric thickness imperfections under external pressure. European Journal of Mechanics-A/Solids, 2013, 38: 90-99.

Scientific Research

1. Research on the Buckling Stability of Thin-walled Cylindrical Shell Structures Under Local Axial Compression Load, National Natural Science Foundation of China (Grant No 51875513), 2019-2022, Project Leader.

2. Buckling Safety Assessment and Risk Control Technologies of National Strategic Petroleum Storage Tank, National High-tech R&D Program (863 Program, No.2007AA04Z427), 2007-2010, Project Leader.

3. Failure Mode based Design Theory of High Pressure Hydrogen System Component. National Program on Key Basic Research Project (973 Program, No.2015CB057603), 2015-2019, Sub-project Leader.

4. Research on Design and Manufacturing Theory of Ultra-large Pressure Vessels. National High-tech R&D Program (863 Program, No.2012AA040103), 2012-2014, Sub-project Leader.

5. Failure Mode based Design and Manufacturing Technologies of Key Pressure Vessel. National Key Technologies R & D Program of China (No.2011BAK06B02), 2011-2014, Sub-project Leader.

6. Key Technology and Engineering Demonstration of Life-based Safety Maintenance for Large-scaled Pressure Equipment under Extreme Conditions. National High-tech R&D Program (863 Program, No.2009AA044803), 2009-2011, Sub-project Leader.

7.Research on Damage Mechanism of Materials under High Temperature and Corrosive Environment. National Key Technologies R & D Program of China (No. 2006BAK02B02-02), 2006-2008, Sub-project Leader.

8. Research on Key Technologies of Pressure Adaptive Oil-Water Separator for Producing in Deep-sea Water and Oil Fields. National High-tech R&D Program (863 Program, No.2006AA09Z319), 2006-2009, Sub-project Leader.

9. Research and Development of Large-scaled Storage Tank Vault Reticulated Shell Structure. China Petroleum Engineering Construction Corporation Research Project (No.CPECC2013KJ22), 2013-2016,Project Leader.

10. Structural Development of DN4100 Hot Closed Pot, Metallurgical Corporation of China LTD. Commissioned Research Project, 2017, Project Leader.

11. Research on Key Technologies of Risk Assessment and Structural Safety Evaluation for Hazardous Chemicals Storage Tanks. Provincial Quality Supervision Research Program of Zhejiang (No.20140239), 2014-2017, Project Leader.

12.Research and Development of 45MPa High Pressure Helium Tank. Enterprise Commissioned Research Project, 2016, Project Leader.

13.Research and Development of Quick-opening Closure Pressure Vessel: Rubber Autoclave. Enterprise Commissioned Research Project, 2014, Project Leader.

14. Research and Development of 60MPa Pressure Chamber. Enterprise Commissioned Research Project, 2014, Project Leader.