ZHU Yuejin, Associate Professor
Email: zyjwind@163.com

Fields of research:
1. Shock wave dynamics and detonation theory;
2. Biological fluid mechanics and molecular dynamics simulation;
3. Industrial pipeline combustion suppression and explosion prevention and boiler soot blowing system design;

Granted Projects:
1. General project of National Natural Science Foundation of China, 2019-2022;
2. Jiangsu University Young Key Teacher Training Target Project, 2018-2020;
3. National Natural Science Foundation of China Youth Project, 2015-2017;
4. The Youth Project of Jiangsu Natural Science Foundation, 2015-2017;

Publications:
1. Sulfur hexafluoride bubble evolution in shock accelerated flow with a transverse density gradient. Physics of Fluids, 2020, 32, 026101.
2. Characteristics study on a modified advanced vortex combustor. Energy, 2020, 193, 116805.
3. Three-dimensional shock-sulfur hexafluoridebubble interaction. AIP Advances, 2019, 9, 115306.
4. Flame evolution in shock-accelerated flow under different reactive gas mixture gradients. Physical Review E, 2019, 100, 013111.
5. Numerical investigation of planar shock wave impinging on spherical gas bubble with different densities. Physics of Fluids, 2019, 31, 056101.
6. Numerical investigation of shock-SF6 bubble interaction with different mach numbers. Computers and Fluids, 2018, 177: 78-86.
7. Jet formation of SF6 bubble induced byincident and reflected shock waves. Physics of Fluids, 2017, 29, 126105.
8. Stable detonation characteristics of premixed C2H4/O2gas in narrow gaps. Exp. Fluids, 2017, 58: 112.
9. Flow topology of three-dimensional spherical flame in shock accelerated flows. Advances in Materials Science and Engineering, 2016, 3158091.
10. Three-dimensional numerical simulations of spherical flame evolutions inshock and reshock accelerated flows. Combustion Science and Technology, 2013,185(10): 1415-1440.
11. Effect of chemical reactivity on the detonation initiation in shock accelerated flow in a confined space. Acta MechanicaSinica, 2013, 29(1): 54-61.
12. Formation and evolution of vortex rings induced by interactionsbetween shock waves and a low-density bubble. Shock Waves, 2012, 22(6):495-509.