Gender

Female

Professional Title

Lecturer

Departments

School of Automotive and Traffic   Engineering

TEL

15862983717

E-mail

shiyunxi880527@126.com

Short Biography

2007.09   ~ 2011.06  Jinngsu University, Bachelor of Thermal Energy and Power   Engineering

2011.09   ~ 2014.06  Jinngsu University, Master of Power Machinery and Engineering

2014.09   ~ 2017.06  Jinngsu University, Doctor of Power engineering and Engineering   Thermophysics

2017.09   ~ now    Lecturer, School of Automotive and Traffic   Engineering, Jiangsu University

2017.12   ~ now   Postdoctor, Center for Post-Doctoral Studies in Power   Engineering and Engineering Thermophysics, Jiangsu University

Teaching Courses

1. New   Technology and Development Trend of Automobile Engine

2. Gas   Flow of Internal Combustion Engine

Research Fields

1. Vehicle Emission   Pollution Control

2. Application of   Low Temperature Plasma Technology in Field of Emission Control

Selected Publications

1.    Yunxi Shi, Yixi Cai, Runlin Fan, et al. Characterization of soot inside a   diesel particulate filter during a nonthermal plasma promoted regeneration   step [J]. Applied Thermal Energy, 2019.（SCI, IF: 4.026）

2.  Yunxi Shi, Yixi Cai, Xiaohau Li, et al.   Evolution of Diesel Particulate Physicochemical Properties Using Nonthermal   Plasma [J]. Fuel, 2019, 253, 1292-1299.（SCI, IF: 5.128）

3.  Fan Runlin, Yixi Cai, Yunxi* Shi , et al. Effect   of the Reaction Temperature on the Removal of Diesel Particulate Matter by   Ozone Injection [J]. Plasma Chemistry and Plasma Processing, 2019,   39(1):143-163.（SCI, IF:   2.768）

4.  Yunxi Shi, Yixi Cai, J Wang, et al. Influence of   PM Size Distribution and Ingredients on DPF Regeneration by Non-thermal   Plasma Technology [J]. Plasma Chemistry and Plasma Processing,   2017,37:451–464.（SCI, IF: 2.768）

5.  Yunxi Shi, Yixi Cai, X H Li, et al. Low   Temperature DPF Regeneration by Atmospheric Air Non-thermal Plasma Injection   System [J]. Plasma Chemistry and Plasma Processing, 2016, 36 (3): 783-797.（SCI, IF: 2.768）

6.  Yunxi Shi, Y Zheng, Yixi Cai, et al.   Experimental Study of EGR Cooler Regeneration Aided by Oxygen-fed NTP and ,   IF: Air-Fed NTP [J]. International Journal of Automotive Technology, 2016, 17   (3): 369-376.（SCI, IF:   1.523）

7.  Yunxi Shi, Yixi Cai, Xiaohau Li, et al.   Mechanism and Method of DPF Regeneration by Oxygen Radical Generated by NTP   Technology [J]. International Journal of Automotive Technology, 2014, 15（6）:871-876.（SCI, IF: 1.523）

8.  Yunxi Shi, Yixi Cai, Xiaohau Li, et al.   Experiment Study on the DPF Regeneration Based on Non-thermal Plasma   Technology [J]. Applied Mechanics and Materials, 2013, 327: 1347-1351.

Research Projects

1.    Study on PM Evolution and Temperature Self-consistent Mechanism of DPF Low   Temperature Regeneration based on NTP，National Natural Science Foundation of China（51806085）, 2019.01-2021.12, Principal.

2.    Removal Mechanism of Particle Sediment and Efficient regeneration of DPF   Based on NTP Technology，China   Postdoctoral Science Foundation funded project (2018M642175), 2018.10-2020.02，Principal.

3.    Jiangsu Planned Projects for Postdoctoral Research Fund（2018K101C）, 2018.09-2020.08, Principal.

4.    Funded by Doctor of Mass Entrepreneurship and Innovation Program   of Jiangsu Province, 2019.07-2022.06, Principal.

5.    Jiangsu University Youth Talent Cultivation Program Funded Project, 2018.01-2021.12,   Principal

6.    Jiangsu Association for Science and Technology Youth Talent Support Project   Funded Program，2019.09-2021.08，Principal.

Honor

1.  Research and Application of Nonthermal   Plasma Technology for DPF low temperature regeneration,

Third Prize Of   Science And Technology Award of China Automobile Industry, 2017.

2.  Diesel Emission Control and DPF Low Temperature   Regeneration Based on NTP Technology,

Third   Prize Ofscience And Technology Award of Jiangsu Province, 2017.

Patents

1.   DPF Regeneration   Device and Regeneration Method Based on Nonthermal Plasma Technology,

License number of invention patent：01510300592.3.