教育背景

博士    200609-201107    清华大学    动力工程及工程热物理

访问学生  200905-200908  阿伯丁大学（英国）  工程学院

访问学生  200803  比萨大学（意大利）  机械与核能工程系

学士    200209-200607    清华大学    热能动力工程

工作履历

201712-至今， 清华大学核研院，副研究员

201107-201711， 清华大学核研院， 助理研究员

学术兼职

2023年1月 - 至今     《原子能科学技术》期刊  青年编委

2013年8月 – 至今    环保部核与辐射安全中心    注册核安全工程师

研究领域

主要从事反应堆装备及热工水力、工程热物理、能源动力工程等领域传热传质、气液两相流及超临界流体流动传热、高效换热设备等研究。

研究概况

202309-至今     流动沸腾汽泡边界层动力学行为和传热特性研究  先进反应堆工程与安全教育部重点实验室开放基金

202009-202307    高性能窄缝蒸汽发生器内流动换热特性及设计研究  中核集团青年英才项目

201910至今       控制棒驱动线及驱动系统优化研究  低温堆设计及科研项目

201702至今       NHR200-II标准初步设计及控制棒驱动线攻关试验自主科研

201501-201712    含润滑油超临界CO2管内冷却换热的机理研究 国家自然科学基金

201401-201612    超临界流体换热恶化机理及其改进k-ε两方程湍流模型的研究 教育部博士点基金
201107-201606    控制棒驱动线设计及试验  低温堆项目

奖励与荣誉

2022、2023、2024 年《原子能科学技术》优秀审稿专家

2020年 中核集团“菁英人才”

2010年  吴仲华优秀学生奖

学术成果

SCI论文（部分）

1. Wen He, Jinyu Han, Yao Liu, Deyang Gao, Yanlin Li, Chenru Zhao*, Hanliang Bo*, Vapor bubble growth and model assessment in saturated pool boiling of water across a wide range of pressures, Physics of Fluids 37, 023387 (2025)

2. Jinyu Han, Wen He, Yao Liu , Chenru Zhao*, Hanliang Bo, Thermal-hydraulic analysis of once-through steam generator with annular narrow slot tube, Applied Thermal Engineering, Volume 258, Part C, 2025,124576

3. Deyang Gao , Zhiyuan Sun , Jinyu Han , Zhanwei Liu , Chenru Zhao*, Hanliang Bo*, Geometric effects on boiling heat transfer performance: A molecular dynamics study, International Journal of Heat and Fluid Flow 110 (2024) 109599

4. Jinyu Han, Wen He, Yao Liu, Deyang Gao, Chenru Zhao*, Hanliang Bo, Numerical investigation of flow boiling characteristics in narrow rectangular channels using two-fluid Eulerian CFD model covering a wide range of pressures, Applied Thermal Engineering, Volume 255, 2024,123982

5. Jinyu Han, Yang Liu, Wenjun Chu, Chenru Zhao*, Hanliang Bo, Experimental study on visualized flow boiling in a narrow rectangular channel. International Communications in Heat and Mass Transfer, 138, 2022, 106383（listed on SSRN's Top Ten download list for: EngRN: Fluid Mechanics (Topic).）

6. Ren Zhuo, Zhang Li, Zhao Chen-Ru*, Jiang Pei-Xue, Han-Liang Bo. Local flow and heat transfer of supercritical CO2 in semicircular zigzag channels of printed circuit heat exchanger during cooling, Heat Transfer Engineering, 2021, 42(22): 1889-1913.

7. Ren Zhuo, Zhao Chen-Ru*, Jiang Pei-Xue, Han-Liang Bo.  Investigation on local convection heat transfer of supercritical CO2 during cooling in horizontal semicircular channels of printed circuit heat exchanger. Applied Thermal Engineering, 2019, 157: 113697.

8. Zhao Chen-Ru, Liu Qian-Feng, Zhang Zhen, Jiang Pei-Xue, Bo Han-Liang.  Investigation of buoyancy-enhanced heat transfer of supercritical CO2 in upward and downward tube flows. The Journal of Supercritical Fluids, 2018, 138: 154-166.

9. Zhao Chen-Ru, Zhang Zhen, Jiang Pei-Xue, Xu Rui-Na, Bo Han-Liang.  Influence of channel scale on the convective heat transfer of CO2 at supercritical pressure in vertical tubes. International Journal of Heat and Mass Transfer,  2018,  126:  201-210.

10. Zhao Chen-Ru, Zhang Zhen, Jiang Pei-Xue.  Predictions of in-tube cooling heat transfer coefficients and pressure drops of CO2 and lubricating oil mixture at supercritical pressures. Heat Transfer Engineering, 2018, 39(16): 1437-1449.

11. Zhao Chen-Ru, Zhang Zhen, Jiang Pei-Xue, Bo Han-Liang.  Influence of various aspects of low Reynolds number k-e turbulence models on predicting in-tube buoyancy affected heat transfer to supercritical pressure fluids. Nuclear Engineering and Design,   2017,  313:  401-413.

12. Zhao Chen-Ru, Jiang Pei-Xue.  Predictions of in-tube cooling pressure drops for CO2 mixed with lubricating oil at supercritical pressures. Applied Thermal Engineering,  2014, 73(1): 527-536.

13. Jiang Pei-Xue, Liu Bo, Zhao Chen-Ru, Luo Feng, Convection heat transfer of supercritical pressure carbon dioxide in a vertical micro tube from transition to turbulent flow regime, International Journal of Heat and Mass Transfer 56 (2013) 741–749

14. Jiang Pei-Xue, Zhao Chen-Ru, Liu Bo.  Flow and heat transfer characteristics of R22 and ethanol at supercritical pressures. The Journal of Supercritical fluids, 2012, 70:  75-89.

15. Zhao Chen-Ru, Jiang Pei-Xue.  Experimental study of in-tube cooling heat transfer and pressure drop characteristics of R134a at supercritical pressures. Experimental Thermal and Fluid Science,  2011,  35(7):  1293-1303.

16. Zhao Chen-Ru, Jiang Pei-Xue, Zhang You-Wei.  Flow and convection heat transfer characteristics of CO2 mixed with lubricating oil at super-critical pressures in small tube during cooling .International Journal of Refrigeration,  2011,  34(1):   29-39.

17. Jiang Pei-Xue, Zhao Chen-Ru, Shi Run-Fu, Chen Yang, Ambrosini Walter.  Experimental and numerical study of convection heat transfer of CO2 at supercritical pressures during cooling in small vertical tube .International Journal of Heat and Mass Transfer,   2009,   52(21-22):   4748-4756.

18. Li Zhi-Hui, Jiang Pei-Xue, Zhao Chen-Ru, Zhang Yu, Experimental investigation of convection heat transfer of CO2 at supercritical pressures in a vertical circular tube, Experimental Thermal and Fluid Science 34 (2010) 1162–1171

19. Jiang Pei-Xue, Shi Run-Fu, Chen-Ru Zhao, Xu Yi-Jun, Experimental and numerical study of convection heat transfer of CO2 at supercritical pressures in vertical porous tubes, International Journal of Heat and Mass Transfer 51 (2008) 6283–6293

20. Jiang Pei-Xue, Zhang Yu, Zhao Chen-Ru, Shi Run-Fu, Convection heat transfer of CO2 at supercritical pressures in a vertical mini tube at relatively low Reynolds numbers, Experimental Thermal and Fluid Science 32 (2008) 1628–1637

EI论文（部分）

1. 郝文杰，韩晋玉，刘瑶，赵陈儒*，薄涵亮, 基于 VOF 方法的同轴气泡聚并数值模拟研究[J], 2025, 网络首发，https://link.cnki.net/urlid/11.2044.TL.20250103.1533.002

2. 韩晋玉, 刘瑶, 赵陈儒*, 薄涵亮, 矩形窄缝通道内流动沸腾的数值模拟研究[J], 工程热物理学报, 2024, 45(10), 3151-3159.

3. 何雯，赵陈儒，韩晋玉，薄涵亮. 汽泡边界层模型在矩形管道下的适用性分析[J]. 原子能科学技术, 2024, 58(4): 751-760.

4. Wen He, Jinyu Han, Chenru Zhao, Hanliang Bo. A mechanistic model for void fraction prediction in rectangular channels[C]. Proceedings of the 31th International Conference on Nuclear Engineering, Prague, CZECH REPUBLIC, 2024.

5. Yao Liu, Jinyu Han, Chenru Zhao*, Hanliang Bo. Numerical simulations in subcooled flow boiling using a two-way coupled eulerian-lagrangian model [C]. Proceedings of the 30th International Conference on Nuclear Engineering (ICONE30). May 21-26, 2023, Kyoto, Japan

6. Jinyu Han, Yao Liu, Wen He, Chenru Zhao*, Hanliang Bo. Experiment and numerical investigation on saturated flow boiling in a narrow rectangular channel [C]. Proceedings of the 30th International Conference on Nuclear Engineering (ICONE30). May 21-26, 2023, Kyoto, Japan.

7. 韩晋玉, 何雯, 赵陈儒* , 薄涵亮. 矩形窄缝通道内泡状流—弹状流流型转变准则研究 [J].原子能科学技术,2022,56(12):2524-2532.

8. Yao Liu, Jinyu Han, Chenru Zhao*, Hanliang Bo. Numerical simulation of two-phase flow using Eulerian-Eulerian model with one-group interfacial area transport equation [C]. Proceedings of the 29th International Conference on Nuclear Engineering (ICONE29). Virtual, Online,2022

9. Wen He, Chenru Zhao, Hanliang Bo. A mechanistic model for void fraction prediction in rectangular channels[C]. Proceedings of the 29th International Conference on Nuclear Engineering,  Virtual, Online, 2022.

10. 何雯，赵陈儒，薄涵亮. 基于汽泡动力学的过冷流动沸腾边界层模型研究[J]. 原子能科学技术, 2022, 56(7): 1219-1229.

11. 何雯, 韩晋玉, 赵陈儒，薄涵亮. 流动沸腾汽泡脱离频率预测模型分析[J]. 原子能科学技术, 2022, 56(12): 2517-2523.

专利（部分）

1. 薄涵亮,姜胜耀,赵陈儒, 内置式控制棒驱动线弹簧箱安装引导工具，专利号：2020108807870，申请日期：20200827，授权日期：20240617

2. 薄涵亮,姜胜耀,王金海,秦本科,赵陈儒, 拆装工具，专利号：2020108791641，申请日期：20200827，授权日期：20240617

3. 薄涵亮,姜胜耀,秦本科,赵陈儒, 内置式控制棒驱动线安装方法，专利号：2020108802951，申请日期：20200827，授权日期：20240102

4. 薄涵亮; 赵陈儒; 熊威; 秦本科, 控制棒内置式水压驱动回路以及控制棒驱动装置,公开号(授权): CN112037938B, 公开日期(授权): 20220923

5. 薄涵亮; 姜胜耀; 张亚军; 秦本科; 赵陈儒; 刘潜峰; 王金海, 控制棒驱动线热态性能的测量方法及装置, 公开号(授权): CN112002448B, 公开日期(授权): 20220308

6. 薄涵亮; 赵陈儒; 熊威; 秦本科, 控制棒水压驱动间歇式运行回路以及控制棒驱动设备, 公开号(授权): CN111997955B, 公开日期(授权): 20220108

7. 薄涵亮; 赵陈儒; 熊威; 秦本科, 控制棒水压驱动回路以及控制棒驱动线, 公开号(授权): CN111980983B，公开日期(授权): 20211126