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孙海俊

个人主页:

基本信息

姓名:孙海俊

性别:

在岗性质:全职硕导

最高学位:博士

专业技术职务:副教授

毕业学校:西北工业大学

行政职务:

所在院校:动力与能源学院(航空发动机学院)

联系电话:

电子邮箱:sunhaij1987@163.com

研究方向
硕士:
1. 动力与能源学院(航空发动机学院) 006 固体力学 03
硕士:
2. 动力与能源学院(航空发动机学院) 006 飞行器动力燃烧、流动与传热 02
工作经历

2017年6月至今,南昌航空大学 飞行器工程学院,飞行器动力工程系  






教育经历

2013.03-2017.06  西北工业大学, 博士







科研项目

主持在研:

1、国家自然科学基金;

2、江西省自然科学基金;

3、航空科学基金。






荣誉奖项








社会兼职








备注

近年来发表论文:

[1]Sun Haijun*, Yan Pinghua, Tian Le, et al. Effects of Hydrogen Multijet and Flow Rate Assignment on the Combustion Flow Characteristics in a Jet-Stabilized Combustor[J]. ACS OMEGA, 2021, 6(20): 12952–12964.

[2]Sun Haijun*, Yan Pinghua, Tian Le, et al. Numerical Simulation of Inverse Diffusion Combustion and Flow Characteristics in a Trapped Vortex Combustor[J]. International Journal of Aeronautical and Space Sciences, 2021(22): 625-637.

[3]Haijun Sun*, Chunbo Hu, Yihua Xu. Numerical simulation on hydrogen combustion and flow characteristics of a jet-stabilized combustor[J]. International Journal of Hydrogen Energy, 2020, 45(22):12604-12615.

[4]Haijun Sun*, Chunbo Hu, Yihua Xu. Multiscale Analysis of Powder-Propellant Conveying Stability Through a Nozzle. ASME Journal of Fluids Engineering[J]. 2019,141(10): 101302-101302-9.

[5]Haijun Sun*, Chunbo Hu*, Yihua Xu. Pressure fluctuations analysis on the powder fluidization performance at different pressure. International Journal of Multiphase Flow[J]. 2019,116:176-184.

[6]孙海俊, 胡春波, 徐义华. 粉末推进剂流化过程及高压流化机制分析[J]. 推进技术, 2018, 039(012): 2853-2862.

[7]Haijun Sun, Chunbo Hu*, Xiaofei Zhu. Numerical simulation on the powder propellant pickup characteristics of feeding system at high pressure, Acta Astronasitca[J]. 2017, 139: 85-97. 

[8]Haijun Sun, Chunbo Hu*, Xiaofei Zhu. Jiangang Yang, Experimental investigation on incipient mass flow rate of micro aluminum powder at high pressure, Experimental Thermal and Fluid Science[J]. 2017, 83: 231-238.

[9]Haijun Sun*, Chunbo Hu, Tian Zhang, Zhe Deng. Experimental investigation on mass flowrate measurements and feeding characteristics of powder at high pressure, Applied Thermal Engineering[J]. 2016, 102: 30-37.