唐继国，工学博士，副研究员，博士/硕士生导师。主持国家自然科学基金面上、青年项目、四川省科技厅应用基础研究、中国博士后基金面上、特别资助等项目；发表论文70余篇（第一/通信作者SCI论文28篇），授权发明专利26项，入选四川大学“双百人才工程B计划”。

研究兴趣

沸腾与冷凝理论与强化技术

新能源系统热管理与热利用

能源动力系统人工智能技术

常用邮箱

Email: tangjiguo@sina.cn; tangjiguo@scu.edu.cn

学习工作经历

2016/07—现在, 四川大学, 水利水电学院, 副研究员

2018/06—2020/12, 四川大学, 水利水电学院, 博士后

2012/09—2016/07 哈尔滨工程大学，核科学与技术，硕博连读

2008/09—2012/07 哈尔滨工程大学，核工程与核技术，本科

科研项目

1) 微细化沸腾时壁面再湿润与界面破碎耦合机制研究，国家自然科学基金面上项目，2020-2024，主持。

2) 过冷沸腾时气泡表面波触发机制及对气泡动力学行为影响，国家自然科学基金青年项目，2018-2020，主持。

3) 超高热流密度下微细化沸腾调控及传热机理研究，中国博士后科学基金特别资助，2019-2020，主持。

4) 超高热流密度下相界面失稳及其对微细化沸腾强化机理研究，四川省科技厅应用基础研究项目，2021-2023，主持。

5) 外加超声作用下小加热面上过冷沸腾传热机制研究，中国博士后科学基金面上资助，2018-2020，主持。

6) 基于多相非牛顿流体力学仿真的改良 B-T 分流手术的血液动力学研究，四川大学博士后交叉学科创新启动基金，2019-2021，主持。

7) 相界面振荡及其对微细化沸腾传热影响研究，先进反应堆工程与安全教育部重点实验室开放基金，2020，主持。

8) 微细化沸腾及其在高效冷却领域内的应用，四川大学引进人才项目，2016-2019，主持。

9) 微细化沸腾及其形成机制研究，国家自然科学基金面上项目，2014-2017，主研。

10) 非惯性系下自然循环反应堆内两相流动特性，四川省科技厅应用基础研究项目，2019-2022，主研。

第一及通信作者论文

1) Jiguo Tang*, Shengzhi Yu, Hongtao Liu*. Development of correlations for steam condensation over a vertical tube in the presence of noncondensable gas using machine learning approach. International Journal of Heat and Mass Transfer, 2023, 201P2, 123609.

2) Jiguo Tang*, Shengzhi Yu, Chen Meng, Hongtao Liu, Zhengyu Mo. Prediction of heat transfer of bubble condensation in subcooled liquid using machine learning methods. International Journal of Heat and Mass Transfer, 2023, 271, 118578.

3) Jiguo Tang*, Xiao Li, Rui Hu, Zhengyu Mo, Min Du. A novel designed manifold ultrathin micro pin-fin channel for thermal management of high-concentrator photovoltaic system. International Journal of Heat and Mass Transfer, 2022, 157, 119924.

4) Jiguo Tang*, Rui Hu, Hongtao Liu, Zhengyu Mo, Licheng Sun. Numerical investigation of thermally controlled bubble condensation near a solid wall. Chemical Engineering Science, 2022, 262, 118018.

5) Xiao Li, Jiguo Tang*, Rui Hu, Licheng Sun, Jingjing Bao. Investigation on interaction between an oscillating vapor film and its surrounding liquid in microbubble emission boiling. Applied Thermal Engineering, 2022, 216, 119012.

6) Yunfei Ling, Torsten Schenkel, Jiguo Tang*, Hongtao Liu. Computational fluid dynamics investigation on aortic hemodynamics in double aortic arch before and after ligation surgery. Journal of Biomechanics, 2022, 141, 111231.

7) Jiguo Tang, Licheng Sun*, Hongli Liu, Hongtao Liu*, Zhengyu Mo. Review on direct contact condensation of vapor bubbles in a subcooled liquid. Experimental and Computational Multiphase Flow, 2022, 4(2), 91-112.

8) Jiguo Tang*, Hongli Liu, Min Du, Wei Yang, Licheng Sun. A machine-learning based phase change model for simulation of bubble condensation. International Journal of Heat and Mass Transfer, 2021, 178, 121620.

9) Zafar H. Khan, Waqar A. Khan, Mikhail A. Sheremet, Jiguo Tang*, Licheng Sun*. Irreversibilities in a triple diffusive flow in various porous cavities. Chinese Journal of Physics, 2021, 73, 239-255.

10) Yunfei Ling, Jiguo Tang*, Hongtao Liu. Numerical investigation of two-phase non-Newtonian blood flow inbifurcate pulmonary arteries with a flow resistant using Eulerianmultiphase model. Chemical Engineering Science, 2021, 233, 116426.

11) Jiguo Tang*, Shengzhi Yu, Licheng Sun*, Guo Xie,Xiao Li. Continuous formation of microbubbles during partialcoalescence of bubbles from a submerged capillary nozzle. AIChE Journal, 2020, e16233.

12) Xiao Li, Jiguo Tang*, Licheng Sun, Jia Li, Jingjing Bao, Hongli Liu. Enhancement of subcooled boiling in confined spaceusing ultrasonic waves. Chemical Engineering Science, 2020, 223, 115751.

13) Hongli Liu, Jiguo Tang*, Licheng Sun, Zhengyu Mo, Guo Xie. An assessment of phase change models for the simulation of vapor bubble condensation. International Journal of Heat and Mass Transfer, 2020, 157, 119924.

14) Jiang Huang, Licheng Sun*, Min Du, Zhao Liang, Zhengyu Mo, Jiguo Tang*, Guo Xie. An investigation on the performance of a micro-scale Venturi bubble generator. Chemical Engineering Journal, 2020, 386, 120980.

15) Zafar H. Khan*, Waqar A. Khan, Jiguo Tang*, Mikhail A. Sheremet. Entropy generation analysis of triple diffusive flow past a horizontal plate in porous medium. Chemical Engineering Science, 2020, 228, 115980.

16) Jiguo Tang, Licheng Sun*, Min Du* Hongtao Liu, Zhengyu Mo, Jingjing Bao. Experimental investigation of transition process from nucleate boiling to microbubble emission boiling under transient heating modes.AIChE Journal, 2019, e16555.

17) Jiguo Tang, Licheng Sun*, Dan Wu, Min Du* Guo Xie, Kai Yang.Effects of ultrasonic waves on subcooled pool boiling on a small plain heating surface. Chemical Engineering Science, 2019, 201, 274-287.

18) Jiguo Tang, Guo Xie*, Jingjing Bao*, Zhengyu Mo, Hongtao Liu, Min Du. Experimental study of sound emission in subcooled pool boiling on a small heating surface. Chemical Engineering Science, 2018, 188, 179-191.

19) Guo Xie, Licheng Sun*, Tiantong Yan, Jiguo Tang*, Jingjing Bao, Min Du, Model development and experimental verification for tubular solar still operating under vacuum condition. Energy, 2018, 157, 115-130.

20) Liang Zhao, Licheng Sun*, Zhengyu Mo, Jiguo Tang*, Liuyun Hu, Jingjing Bao, An investigation on bubble motion in liquid flowing through a rectangular Venturi channel. Experimental Thermal and Fluid Science, 2018, 97, 48-58.

21) Jialing Xu, Jingjing Bao*, Jiguo Tang*, Min Du, Hongtao Liu, Guo Xie, Hongmin Yang. Characteristics and Inhibition of Hg0 Re-emission in a Wet Flue Gas Desulfurization System. Energy and Fuels, 2018, 32, 6111-6118.

22) Jiguo Tang, Zhengyu Mo*, Changqi Yan, Licheng Sun*. An experimental study on Microbubble Emission Boiling in a subcooled pool: Heat transfer characteristics and visualized presentation. Experimental Thermal and Fluid Science, 2017, 80, 40-52.

23) Jiguo Tang, Changqi Yan*, Licheng Sun*. Enhanced vapor bubble condensation and collapse with ultrasonic vibration. Experimental Thermal and Fluid Science, 2016, 70, 115-124.

24) Jiguo Tang, Changqi Yan*, Licheng Sun, Guangyu Zhu. Effects of a noncondensable gas on the microbubble emission boiling. Heat Transfer Research, 2016, 47, 597-607.

25) Jiguo Tang, Changqi Yan*, Licheng Sun*. A study visualizing the collapse of vapor bubbles in a subcooled pool. International Journal of Heat and Mass Transfer, 2015, 88: 597-608.

26) Jiguo Tang, Changqi Yan*, Licheng Sun*. Feature of acoustic sound signals involved in vapor bubble condensation and its application in identification of condensation regimes. Chemical Engineering Science, 2015, 137, 384-397.

27) Jiguo Tang, Changqi Yan*, Licheng Sun. Effects of noncondensable gas and ultrasonic vibration on vapor bubble condensing and collapsing. Experimental Thermal and Fluid Science, 2015, 61, 210-220.

28) Jiguo Tang, Changqi Yan*, Licheng Sun*. Effect of liquid subcooling on acoustic characteristics during the condensation process of vapor bubbles in a subcooled pool. Nuclear Engineering and Design, 2015, 293, 492-502.

29) Jiguo Tang, Guangyu Zhu, Licheng Sun*. Microbubble emission boiling in subcooled pool boiling and the role of Marangoni convection in its formation. Experimental Thermal and Fluid Science, 2013, 50, 97-106.

授权专利

1) 唐继国, 胡瑞, 李晓等. 一种用于高倍聚光光伏电池冷却的微通道-微肋阵液冷板. 发明专利，中国，已授权，ZL202011533205.8.

2) 唐继国, 胡瑞, 李晓等. 一种用于高昼夜温差环境下的不间断光伏发电系统. 发明专利，中国，已授权，ZL202011488617.4.

3) 唐继国, 李晓, 胡瑞等. 高倍聚光密集阵列光伏电池微通道液冷模块及散热结构. 发明专利，中国，已授权，ZL202011531103.2.

4) 唐继国, 胡瑞, 李晓等. 一种闭-开式渐扩微通道液冷板. 发明专利，中国，已授权，ZL202011531329.2.

5) 唐继国, 李晓, 孙立成. 一种电芯串联式长单体电池的液冷模块以及散热结构. 发明专利，中国，已授权，ZL202011527081.2.

6) 唐继国, 孙立成, 莫征宇等. 一种利用微细化沸腾高效换热技术的冷却装置. 发明专利，中国，已授权，ZL201710574420.4.

7) 唐继国, 孙立成, 刘洪涛等. 一种分流式环形微通道散热器. 发明专利，中国，已授权，ZL201710927104.0.

8) 唐继国, 李晓, 孙立成等. 一种利用气泡微细化沸腾的超声强化传热池式冷却装置. 发明专利，中国，已授权，ZL201910705302.1.

9) 唐继国, 李晓, 刘洪里等. 一种双层截断式多孔射流气泡微细化沸腾冷却装置. 发明专利，中国，已授权, ZL201910877505.9.

10) 唐继国, 李晓, 刘洪里等. 一种基于气泡融合的微气泡发生装置. 发明专利，中国，已授权, ZL201911229903.6.