当前位置: 首页 > 师资队伍 > 全院教师 > 副教授 > 正文

个人简介

姓    名:谢永奇     副教授     
所在单位:人机与环境工程系
研究方向飞行器热管理技术,电子设备热设计与分析技术,微尺度传热,新能源技术
邮箱:xyq@buaa.edu.cn

详细介绍

谢永奇,副教授,博士生导师,现任37000cm威尼斯人机与环境工程系书记。2001年本科毕业于北航飞行器设计与应用力学系,2007年获北航人机与环境工程专业博士学位,2009年博士后出站留校工作。先后获评北航优秀博士后、“蓝天新秀”,入选北京市“青年英才”计划。2012年新加坡南洋理工大学访问学者,2016年-2017年英国Leeds University访学学者。

联系方式:xyq@buaa.edu.cn,010-82338952

通讯地址:北京航空航天大学新主楼C1006


主持完成国家自然科学基金(面上项目)、航空基金、教育部基金、北京市“青年英才”计划资助项目、航天创新基金、博士后科学基金一等奖资助项目等纵向项目;主持参与完成多项国家和国防重大/重点项目,其中2023年获省部级科技进步奖一等奖1项,发表SCI、EI论文共50余篇,合著专著3部,其中,与余建祖教授合著的《电子设备热设计及分析技术》一书荣获北京高等教育精品教材、“十一五”国防特色规划教材以及教育部研究生工作办公室推荐的研究生教学用书。人才培养方面,先后多名研究生获国家奖学金、北航研究生十佳称号、北京市优秀毕业生称号等。

研究方向:

1.飞行器综合热管理技术

2.大功率电子设备热设计与分析技术

3.高超声速飞行器热防护技术

4.微尺度传热

5.新能源技术

主讲课程:

1. 热工基础A(1)-工程热力学部分(本科生)

2. 课程设计(本科生)

3. 换热器设计(本科生)

4. 现代飞行器环境控制技术(研究生)

专著:

[3]余建祖,高红霞,谢永奇.《电子设备热设计及分析技术(第三版)》,北京航空航天大学出版社, 2023

[2]余建祖,谢永奇,高红霞.《换热器原理与设计》,北京航空航天大学出版社,2019

[1]余建祖,高红霞,谢永奇.《电子设备热设计及分析技术(第二版)》,北京航空航天大学出版社, 2008

 

论文:

[19]Xie Yongqi*, Fang Zhen, Zhang Hongxing, Wu Hongwei, Liu Siyuan. Visualization study on operating performance of a dual compensation chamber loop heat pipe under acceleration condition. Applied Thermal Engineering, 2022, 217: 119157. (Q1, IF=6.465)

[18] Liu Siyuan,Xie Yongqi*, Chen Mengdong, Joanna Rawska, Wu Hongwei, Yu Jianzu. Prediction of steady-state two-phase flow of nitrogen+extinguishant in the pipeline and a correlation for mass flow rate. Journal of Thermal Analysis and Calorimetry, 2022, 147(6): 4369-4382. (Q1, IF=6.465)

[17] Tang Jincheng,Xie Yongqi*, Wu Hongwei, Fang Zhen, Yu Jianzu. Experimental and numerical investigation on conjugate performance of fan and heat exchanger of helicopter oil cooling system. Thermal Science and Engineering Progress, 2022, 35: 101472. (Q1, IF=4.56)

[16] Tang Jincheng,Xie Yongqi*, Chang Shinan, et al. Performance analysis of acceleration effect on paraffin melting in finned copper foam. Applied Thermal Engineering, 2022, 202: 117826. (Q1, IF=6.465)

[15] Liang Xing,Xie Yongqi*, Day Rodney, Meng Xianhai, Hongwei Wu. A data driven deep neural network model for predicting boiling heat transfer in helical coils under high gravity. International Journal of Heat and Mass Transfer, 2021, 166: 120743. (Q1, IF=4.346)

[14] Liu Shiyuan,Xie Yongqi*, Chen Mengdong, Jianqin Zhu, Rodney Day, Hongwei Wu, Jianzu Yu. Prediction of the release process of the nitrogen-extinguishant binary mixture considering surface tension. Journal of Thermal Analysis and Calorimetry, 2020: 1-15. (Q2, IF-2.731)

[13]Xie Yongqi*,Li Xinyu, Han Longzhu, Zhu Jianqin, Gao Hui Wen Dongsheng. Experimental study on operating characteristics of a dual compensation chamber loop heat pipe in periodic acceleration fields. Applied Thermal Engineering, 2020, 176: 115419 (Q1, IF=4.026 ).

[12] Han Longzhu,Xie Yongqi*, Zhu Jianqin, Wu Hongwei, Zhang Hongxing. Experimental and analytical study of dual compensation chamber loop heat pipe under acceleration force assisted condition. International Journal of Heat and Mass Transfer, 2020, 153: 119615 (Q1, IF=4.346)

[11] Dong Sujun, Jiang Hongsheng,Xie Yongqi*, Wang Xiaoming, Hu Zhongliang, Wang Jun. Experimental investigation on boiling heat transfer characteristics of Al2O3-water nanofluids in swirl microchannels subjected to an acceleration force. Chinese Journal of Aeronautics, 2019, 32: 1136-1144 (Q1, IF=2.095)

[10] Wang Xiaoming,Xie Yongqi*, Day Rodney, Wu Hongwei, Hu Zhongliang, Zhu Jianqin, Wen Dongsheng. Performance analysis of a novel thermal management system with composite phase change material for a lithium-ion battery pack. Energy, 2018, 156: 154-168 (Q1, IF=5.537)

[9]Xie Yongqi*, Shi Shang, Tang Jincheng, Wu Hongwei, Yu Jianzu. Experimental and analytical study on heat generation characteristics of a lithium-ion power battery. International Journal of Heat and Mass Transfer, 2018, 122: 884-894 (Q1, IF=4.346)

[8]Xie Yongqi*, Zhou Yang, Wen Dongsheng, Wu Hongwei, Haritos George, Zhang Hongxing. Experimental investigation on transient characteristics of a dual compensation chamber loop heat pipe subjected to acceleration forces. Applied Thermal Engineering, 2018, 130: 169-184 (Q1, IF=4.026 )

[7]Xie Yongqi*, Tang Jincheng, Shi Shang, Xing Yuming, Wu Hongwei, Hu Zhongliang, Wen Dongsheng. Experimental and numerical investigation on integrated thermal management for lithium-ion battery pack with composite phase change materials. Energy Conversion and Management, 2017, 154: 562-575 (Q1, IF=7.181)

[6]Yongqi Xie*, M S Gilmour, Yanping Yuan, Hongwei Wu. A review on house design with energy saving system in the UK. Renewable and Sustainable Energy Reviews, 2017, 71: 29-52 (Q1, IF=8.050)

[5] Shang Shi,Yongqi Xie*, Ming Li, Janzu Yu, Hongwei Wu, Bin Liu, Nan Liu. Non-steady experimental investigation on an integrated thermal management system for power battery with phase change materials. Energy Conversion and Management, 2017, 3: 2213-2226(Q1, IF=7.181)

[4] Mengdong Chen,Yongqi Xie*, Hongwei Wu, Shang Shi, Jianzu Yu. Modeling solubility of nitrogen in clean fire extinguishing agent by Peng-Robinson equation of state and a correlation of Henry’s law constants. Applied Thermal Engineering, 2017, 110: 457-468 (Q1, IF=4.026)

[3]Yongqi Xie*, Jie Zhang, Liyao Xie, Hongwei Wu, Jianzu Yu, Hongxing Zhang. Experimental investigation on the operating characteristics of a dual compensation chamber loop heat pipe subjected to acceleration field. Applied Thermal Engineering, 2015, 81: 297-312 (Q1, IF=4.026)

[2] Liyao Xie,Yongqi Xie*, Jianzu Yu. Phase Distributions of Boiling flow in Helical Coils in High Gravity[J]. International Journal of Heat and Mass Transfer, 2015, 80: 7-15 (Q1, IF=4.346)

[1] Liyao Xie,Yongqi Xie*, Jianzu Yu. High Gravity Influence on Boiling Heat Transfer in Helical Coils. International Journal of Heat and Mass Transfer, 2014, 73: 706-715 (Q1, IF=4.346)

版权所有 2017 北京航空航天大学 37000cm威尼斯
Copyright 2017 ASE, BUAA
京ICP备05004617

Baidu
sogou