长期从事热动力系统仿真与控制等方面的教学与科研工作。主持国家自然科学基金青年基金1项,中国博士后基金面上项目1项,重庆市博士后基金1项,横向科研项目4项。参与完成横向科研项目多项。发表SCI检索论文20余篇,其中第一或通讯作者19篇。
[1] 2018/09-至今,太阳成集团,太阳成集团tyc4633,动力机械及工程专业,副教授;
[2] 2016/02-2017/01,丹麦奥尔堡大学,能源技术系,访问学者;
[3] 2012/4-2018/08,太阳成集团,太阳成集团tyc4633,动力机械及工程专业,讲师;
[4] 2007/09-2012/01,哈尔滨工业大学,能源科学与工程学院,动力机械及工程专业,博士;
[5] 2005/09-2007/07,哈尔滨工业大学,能源科学与工程学院,动力机械及工程专业,硕士;
[6] 2001/09-2005/07,哈尔滨工业大学,能源科学与工程学院,动力机械及工程专业,学士。
[1] 余热余能转换与利用;
[2] 储能;
[3] 实验及空间等离子体与壁面相互作用理论及模拟。
公司产品:
课题组已毕业硕士生5人,在读3人。欢迎数学基础好、能沉下心来做学问的员工。
[1] Qing Shaowei*, Yuan Hengfeng, Chen Changcheng, Tang Shengli, Wen Xiankui, Zhong Jingliang, Gou Xiaolong. Characteristics and single/multi-objective optimization of thermoelectric generator by comprehensively considering inner-connection-and-contact effects and side-surface heat loss, Energy Conversion and Management, Vol. 251, No. 1, 115003, 2022. (SCI检索)
[2] Qing Shaowei*, Wang Yan, Wen Xiankui, Zhong Jingliang, Gou Xiaolong, Tang Shengli. Optimal working-parameter analysis of an ejector integrated into the energy-release stage of a thermal-storage compressed air energy storage system under constant-pressure operation: A case study, Energy Conversion and Management, Vol. 247, No. 6, 114715, 2021. (SCI检索)
[3] Qing Shaowei*, Wei Jianguo, Chen Wen, Tang Shengli, Wang Xiaogang. Performance enhancement of a natural-gas-fired high-temperature thermoelectric generation system: Design, experiment and modelling optimization, Journal of Power Sources, Vol. 493, No. 5, 229704, 2021. (SCI检索)
[4] Qing Shaowei*, Wei Jianguo, Chen Wen, Tang Shengli, Wang Xiaogang. Stability of different plasma sheaths near a dielectric wall with secondary electron emission, Journal of Plasma Physics, Vol. 85, No. 6, 905850609, 2019. (SCI检索)
[5] Qing Shaowei*, Alireza Rezania, Lasse A. Rosendahlc, Ali A. Enkeshafid, Xiaolong Gou. Characteristics and Parametric Analysis of a novel Flexible Ink-based Thermoelectric Generator for Human Body Sensor, Energy Conversion and Management, Vol. 156, No. 8, 655-665, 2018. (SCI检索)
[6] Qing Shaowei*, Wu Chengyu. A detailed study on the structures of steady-state collisionless kinetic sheath near a dielectric wall with secondary electron emission. I. Classic sheath and its structure transition, Physics of Plasmas, Vol. 25, No. 6, 063519, 2018. (SCI检索)
[7] Qing Shaowei*, Zhao Yongpei. A detailed study on the structures of steady-state collisionless kinetic sheath near a dielectric wall with secondary electron emission. II. Inverse and Space-charge limited sheaths, Physics of Plasmas, Vol. 25, No. 6, 063520, 2018. (SCI检索)
[8] Qing Shaowei*, Alireza Rezania, Lasse A. Rosendahlc, Xiaolong Gou. An Analytical Model for Performance Optimization of Thermoelectric Generator With Temperature Dependent Materials, IEEE ACCESS, Vol. 6, 60852-60861, 2018. (SCI检索)
[9] Qing Shaowei, Alireza Rezania*, Lasse A. Rosendahlc, Xiaolong Gou. Design of flexible thermoelectric generator as human body sensor, Materials Today-Proceedings, Vol. 5, No. 4, 10338-10346, 2018. (SCI检索)
[10] Qing Shaowei*, Hu Zhou. Effect of total emitted electron velocity distribution function on the plasma sheath near a floating wall, AIP Advances, Vol. 7, No. 8, 085220, 2017. (SCI检索)
[11] Qing Shaowei*, li Mei, Li Mengjie, Zhou Rui, Wang Lei. Effect of wall secondary electron distribution function on the characteristics of stable sheath near a dielectric wall, Acta Physica Sinica, Vol. 65, No. 3, 035202, 2016. (SCI检索)
[12] Gou Xiaolong*, Ping Huifeng, Ou Qiang, Xiao Heng, Qing Shaowei. A novel thermoelectric generation system with thermal switch. Applied Energy, vol. 160, 843-852, 2015.
[13] Qing Shaowei*, E Peng, Xia Guangqing, Tang Ming-chun and Duan Ping. Optimized electrode placement along the channel of Hall thruster for ion focusing, Journal of Applied Physics, Vol. 115, No. 3, 033301, 2014. (SCI检索)
[14] Qing Shaowei, Li Hong, Wang Xiaogang, Song Maojiang and Yu Daren*. Effect of anisotropic non-Maxwellian electron distribution function on plasma-wall interaction in Hall thrusters, Europhysics Letters, Vol. 100, No. 3, 35002, 2012. (SCI检索)
[15] Qing Shaowei*, E Peng, Duan Ping, Xu Dianguo. Numerical study on the electron-wall interaction in Hall thruster with segmented electrodes placed at channel exit, Chinese Physics B, Vol. 22, No. 8, 085203, 2013. (SCI检索)
[16] Qing Shaowei*, E Peng, Duan Ping. Effect of electron temperature anisotropy on plasma-wall interaction in Hall thruster, Acta Physica Sinica, Vol. 61, No. 20, 205202, 2012. (SCI检索)
[17] Qing Shaowei*, E Peng, Duan Ping. Effect of wall secondary electron emission on the characteristics of double sheath near the dielectric wall in Hall thruster, Acta Physica Sinica, Vol.62, No.5, 055202, 2013. (SCI检索)
[18] Yu Daren, Qing Shaowei*, Liu Hui and Li Hong. Particle-in-cell simulation for the effect of segmented electrodes near the exit of an aton-type Hall thruster on ion focusing acceleration, Contributions to Plasma Physics, Vol. 51, No. 10, 955-961, 2011. (SCI检索)
[19] Yu Daren, Qing Shaowei*, Yan Guojun and Duan Ping. On characteristics of sheath damping near a dielectric wall with secondary electron emission, Chinese Physics B, Vol. 20, No. 6, 065204, 2011. (SCI检索)
[20] Yu Daren, Qing Shaowei*, Wang Xiaogang, Ding Yongjie, Duan Ping. Effect of electron temperature anisotropy on BN dielectric wall sheath characteristics in Hall Thrusters, Acta Physica Sinica, Vol.60, No.2, 025204, 2011. (SCI检索)
[21] 卿绍伟,胡周,苟小龙,许昊煜. 一种新型高中温耦合温差发电系统, 太阳能学报, Vol. 39, No. 11, 3032–3038, 2018. (EI检索)
学术会议交流:
[1] 2019. 8: 第十九届全国等离子体科学与技术会议,大连,分会场邀请报告. 卿绍伟*, 陈雯. 绝缘壁面强电子发射作用下1D3V全动理学稳态鞘层特性.
[2] 2019. 8:第11届引用能源国际会议,瑞典,分会场口头报告. Qing Shaowei*, Chen Wen, Hu Zhou, Gou Xiaolong, Tang Shengli. Design, Experiment and Modelling Optimization for a High-temperature and Medium-temperature coupled TEG System Driven by Direct Combustion Heat Source.
[3] 2016. 9:第14届欧洲热电会议,里斯本,分会场口头报告. Qing Shaowei, Alireza Rezania*, Lasse A. Rosendahlc, Xiaolong Gou. Design of flexible thermoelectric generator as human body sensor, Materials Today: Proceedings, Vol. 5, 10338–10346, 2018. (SCI会议)
[4] 2014. 5: 第6届应用能源国际会议,台北,分会场口头报. Gou Xiaolong*, Ping Huifeng, Ou Qiang, Xiao Heng, Qing Shaowei. A novel thermoelectric generation system with thermal switch. Applied Energy, vol. 160, 843-852, 2015. (SCI检索)