2011.09-2018.03 西安交通大学，动力工程及工程热物理专业，博士
2007.09-2011.06 重庆大学，热能与动力工程专业，学士

2023.01-至今 上海交通大学，核科学与工程学院，副教授
2020.09-2022.12 上海交通大学，核科学与工程学院，助理教授
2018.04-2020.08 上海交通大学，核科学与工程学院，博士后

一、铅铋快堆热工水力与安全分析（多物理场基础模型和数值模拟方法）
二、先进测量技术开发与应用 （电导、电容、电磁探针，丝网传感器）



（常年招收硕士、博士研究生）

【科研项目】：
国家自然科学基金面上项目，主持
国家自然科学青年基金，主持
国家重点实验室开放基金，主持
上海市科技创新行动计划，主持
博士后基金特别资助，主持
博士后基金面上项目，主持

【教书育人项目】
上海交通大学2024年教学发展基金
上海交通大学2023年教学发展基金
上海交通大学2023年优秀班主任基金

【一作】
[1] Liu, L.*, Jia, Z., Yuan, J.J., Bao,R.Q., Luo, H.T. Hanyang Gu. Assessing the impact of CPs transfer on corrosion behavior in the liquid lead-bismuth eutectic cooled system. Corrosion Science 241, 112511 (2024).
[2] Liu, L.*，Li, Y.M., Gu, H.Y. Numerical study on flow field and separation performance of swirl-vane separator under rolling motion conditions. Annals of Nuclear Energy 212, 111050 (2025).
[3] Liu, L., Yuan, J.J., Bao, R.Q., Luo, H.T., Jia, Z., Chen, S., Gu, H.Y. Numerical simulation of boiling dynamics in liquid Lead-Bismuth injected with multi-rupture high-pressure water jets. International Communications in Heat and Mass Transfer,159, 108219 (2024).
[4] Liu, L.,* Luo, H.T., Yuan, J.J., Bao, R.Q., Li, D., Tian, X.Y., Gu, H.Y. Numerical simulation and model development of drag coefficient of bubbles in gas-liquid metal two-phase flow. International Journal of Multiphase Flow 178, 104890 (2024).
[5] Liu, L., Hu, B., Liu, S., Wang, K., Gu, H.Y.* Recognition of gas-liquid flow regimes in helically coiled tube using wire-mesh sensor and KNN algorithm. International Journal of Multiphase Flow 154, 104144 (2022).
[6] Liu, L., Zhang, J.R., Hu, B., Dai, J.T., Wang, K., Gu, H.Y.* Flow pattern transition and void fraction prediction of gas-liquid flow in helically coiled tubes. Chemical Engineering Science 258, 117751 (2022).
[7] Liu, L., Zhang, J.R., Liu, S., Wang, K., Gu, H.Y.* Decay law and swirl length of swirling gas-liquid flow in a vertical pipe. International Journal of Multiphase Flow 137, 103570 (2021).
[8] Liu, L., Ying, B. B., Gu, H.Y.*, et al. Experimental study on the separation performance of a full-scale SG steam-water separator. Annals of Nuclear Energy 141, 107330 (2020).
[9] Liu, L., Ying, B.B.* Effect of water level on performance of swirl-vane separator and steam dryer in PWR SG. Nuclear Engineering and Design 370, 110918 (2020).
[10] Liu, L., Ying, B.B., Gu, H.Y.*, et al. Effect of velocity and pressure on performance of a full-scale SG steam separator package. Nuclear Engineering and Design 110551 (2020).
[11] Liu, L., Wang, K., Bai, B.F.* Experimental study on flow patterns and transition criteria for vertical swirling gas-liquid flow. International Journal of Multiphase Flow 122, 103113 (2020).
[12] Liu, L., Wang, K., Bai, B.F.* Comparative investigation of liquid film thickness and interfacial wave properties of swirling gas-liquid flows. Chemical Engineering Science 213, 115407 (2020).
[13] Liu, L., Bai, B.F.* Experimental study and similarity analysis of separation efficiency of swirl-vane separator. Nuclear Engineering and Design 359, 110442 (2020).
[14] Liu, L., Bai, B.F.* Flow regime identification of swirling gas-liquid flow using image processing technique and neural networks. Chemical Engineering Science 199, 588-601 (2019).
[15] Liu, L., Bai, B.F.* A mechanistic model for the prediction of swirling annular flow pattern transition. Chemical Engineering Science 199, 405-416 (2019).
[16] Liu, L., Bai, B.F.* Error analysis of liquid holdup measurement in gas-liquid annular flow through circular pipes using high-speed camera method. Journal of Shanghai Jiao Tong University (Science) 23(1), 34-40 (2018).
[17] Liu, L., Bai, B.F.* Generalization of droplet entrainment rate correlation for annular flow considering disturbance wave properties. Chemical Engineering Science 164, 279-291 (2017).
[18] Liu, L., Wang, S., Bai, B.F.* Thermal-hydraulic comparisons of 19-pin rod bundles with four circular and trapezoid shaped wire wraps. Nuclear Engineering and Design 318, 213-230 (2017).
[19] Liu, L., Bai, B.F.* Numerical study on swirling flow and separation performance of swirl vane separator. Interfacial Phenomena and Heat Transfer 5(1), 9-21 (2017).
[20] Liu, L., Bai, B.F.* Scaling laws for gas-liquid flow in swirl vane separators. Nuclear Engineering and Design 298, 229-239 (2016).

【通讯】
[1] Liu, S., Liu, L.*, Gu, H.Y., Wang, K. Experimental and theoretical study on liquid film thickness of upward annular flow in helically coiled tubes. International Journal of Multiphase Flow 182, 105041 (2025).
[2] Chen, S., Liu, S., Liu, L.*, Li, Y.M., Zhang, J.R., Cong, T.L., Gu, H.Y. Experimental study on flow patterns and pressure gradient of decaying swirling gas-liquid flow in a horizontal pipe. Progress in Nuclear Energy 177, 105445 (2024).
[3] Bao, R.Q., Liu, L.*, Liu, S., Liu, M.L., Wang, K., Gu, H.Y. Numerical analysis and structural optimization of a DLC coated capacitance wire-mesh sensor for measuring liquid metal-gas two-phase distribution. Annals of Nuclear Energy 205, 110590 (2024).
[4] Zhang, J.R., Liu, L.*, Yuan, J.J., Luo, H.T., Liu, S., Gu, H.Y. A study on bubble entrainment rate in a decaying swirling flow field based on the wire-mesh sensor. Annals of Nuclear Energy 206, 110674 （2024）.
[5] Yuan, J.J., Liu, L.*, Bao R.Q., Li, D., Tian, X.Y., Luo, H.T., Jia, Z., Liu, M.L., Gu, H.Y. Numerical simulation of jet boiling characteristics of high-pressure water injected into high-temperature liquid lead–bismuth in a confined space. Applied Thermal Engineering 250, 123432 (2024).
[6] Yuan, J.J., Liu, L.*, Bao, R.Q., Luo, H.T., Liu, M.L., Gu, H.Y. Three-dimensional numerical simulation of the interaction between high-pressure sub-cooled water jet impacting high-temperature liquid lead-bismuth metal. Applied Thermal Engineering 230, 120705 (2023).
[7] Zhang, J.R., Liu, L.*, Liu, S., Gu, H.Y. A method for predicting the breakup of gas column in a decaying swirling liquid field. Annals of Nuclear Energy 195, 110176 (2024).
[8] Zhang, J.R., Liu, L.*, Liu, S., Gu, H.Y. A theoretical model of gas column breakup under a swirling flow field based on the jet theory. Annals of Nuclear Energy204, 110552 (2024).
[9] Wang, K., Cheng, Z., Wu, N., Zhang, Q., Liu, L*. Theoretical model on the slug/churn transition based on the generation and evolution of the huge waves. Physics of Fluids 35, 043329 (2023).
[10] Wang, K., Liu, L.*, Xu, D.H., Gu, H.Y. Simulation and optimization of a conical type swirl-vane separator in nuclear SG. Nuclear Engineering and Design 408, 112325 (2023).
[11] Liu, S., Wang, K., Liu, L.*, Zhang, Q., Gu, H.Y. Characterization of liquid film distribution and sub-flow regimes of annular flow in helically coiled tubes using ring island array sensor. International Journal of Multiphase Flow 160, 104357 (2023).
[12] Liu, S., Liu, L.*, Gu, H.Y., Wang, K. Optimization and application of the concentric conductance probes in liquid film thickness measurement in a helically coiled tube. Measurement Science and Technology 33, 085106 (2022).
[13] Liu, S., Liu, L.*, Gu, H.Y., Wang, K. Experimental study of gas-liquid flow patterns and void fraction in prototype 5×5 rod bundle channel using wire-mesh sensor. Annals of Nuclear Energy 171, 109022 (2022).
[14] Zhang, Q., Liu, L.*, Zeng, Y., Zeng, C., Gu, H.Y. Numerical simulation of inherent boric mixing phenomenon inside reactor annular down-comer. Progress in Nuclear Energy 148, 104230 (2022).

【其它】
[1] Chen, S., Hu, Z.X., Liu, L., Liu, M.L., Gu, H.Y.* Development of a transient analysis code for trans-critical simulation of SCWR. Annals of Nuclear Energy 210, 110887 (2025).
[2] Wang, K.*, Zhang, Q., Wu, P.F., Liu, L. Numerical study of flow and heat transfer characteristics in shell-and-plate heat exchangers. Heat Transfer Research 53(8), 99-119 (2022).
[3] Zhang, Q., Liu, L., Xiao, Y., et al. Experimental study on the transverse mixing of 5× 5 helical cruciform fuel assembly by wire mesh sensor, Annals of Nuclear Energy 164, 108582 (2021).
[4] Lin, R., Wang, K.*, Liu, L., et al. Study on the characteristics of interfacial waves in annular flow by image analysis. Chemical Engineering Science 212, 115336 (2020).
[5] Lin, R., Wang, K.*, Liu, L., et al. Application of the image analysis on the investigation of disturbance waves in vertical upward annular two-phase flow. Experimental Thermal and Fluid Science 114, 110062 (2020).
[6] Wang, K.*, Wu, P., Tang, Z., Liu, L., et al. Flow patterns and pressure drop in the shell-and-plate heat exchangers. International Journal of Multiphase Flow 129, 103323 (2020).



中文论文：
[1] 贾政, 刘莉*, 包睿祺, 罗皓天, 袁俊杰, 顾汉洋. 铅铋快堆堆芯包壳多场耦合腐蚀行为的数值模拟研究, 原子能科学技术, 2024.
[2] 袁俊杰, 刘莉*, 包睿祺, 罗皓天, 贾政, 田晓艳, 李达, 顾汉洋. 密闭空间内高压水射流冲击高温铅铋熔池能质传输数值模拟研究, 原子能科学技术, 2024.
[3] 罗皓天, 刘莉*, 袁俊杰, 包睿祺, 田晓艳, 李达, 顾汉洋. 气泡在液态铅铋金属中的运动特性及曳力系数模型研究, 核技术, 2024, 47(6), 060603.
[4] 刘莉，袁俊杰，顾汉洋，包睿祺，刘茂龙，王科. 铅铋快堆SGTR事故下高压过冷水注入高温铅铋合金流动传热数值模拟研究, 核动力工程, 2023, 44(04), 55-64.
[5] 包睿祺, 刘莉*, 刘帅, 袁俊杰, 刘茂龙, 顾汉洋. 用于探测液态金属-气体的DLC涂层式丝网探针数值模拟与结构优化, 原子能科学技术, 2024, 58(2): 344-356.
[6] 李亚民，应秉斌，刘莉，顾汉洋. 摇摆条件下旋叶式分离器流场及效率的数值模拟研究, 原子能科学技术, 2024.
[7] 刘莉, 刘帅, 张嘉荣等. 基于环-岛阵列式传感器的螺旋管内环状流中液膜分布特性研究[J].原子能科学技术, 2022, 56(11): 2334-2342.
[8] 袁俊杰，刘莉*，顾汉洋. U型管式蒸汽发生器内改性壁面强化传热数值研究. 核动力工程, 2022, 43(S2), 94-99.
[9] 刘帅, 刘莉*, 顾汉洋, 张嘉荣. 基于WMS的无旋和螺旋气液两相流流型及空泡份额实验研究. 核动力工程, 2022, 43(5), 43-50.
[10] 戴军涛, 刘莉*, 刘帅, 顾汉洋, 王科. 基于丝网探针的螺旋管内气液两相流气泡行为研究. 化工学报. 2022, 73(10), 4377-4388.
[11] 刘莉, 王科*, 林睿南, 戴军涛. 基于图像分析技术的环状流内界面波识别与捕捉. 科学通报, 2021, 66(26), 3497-3504.
[12] 徐德辉，顾汉洋*，刘莉，黄超. 新型锥形式旋叶汽水分离器热态试验与数值研究. 上海交通大学学报, 2021, 55(9), 1087-1094.
[13] 刘莉, 白博峰*. 基于可视化和图像处理的气液螺旋两相流流型研究. 工程热物理学报, 2022, 43(11), 2978-2985.
[14] 刘莉, 白博峰*. 气液螺旋环状流界面波失稳机理. 中国科学院大学学报, 2017, 34(2), 153-159.

《工程与社会》 授课对象：本科生 课时：32学时
《工程学导论》 授课对象：本科生 课时：48学时
《创新研究与创新实践》授课对象：本科生

发明专利授权：
【1】一种圆管内气液两相环状流截面相含率的测量及修正方法，ZL 2018 1 0327373.8.
【2】一种圆管内气液两相环状流液膜厚度的测量及修正方法，ZL 2018 1 0327886.9.
【3】一种基于蒸汽闭式循环的汽水分离性能热态试验系统，ZL 2019 1 1018114.8.
【4】一种基于电导率法的在线测量蒸汽湿度的系统及方法，ZL 2019 1 1016913.1.
【5】一种线列阵传感器测量误差的修正方法，ZL 2019 1 1035085.6.
【6】一种丝网探针浓度探测装置的校正系统及方法，ZL 2020 1 1264170.2.
【7】一种用于测量壁面液膜厚度的叉指阵列装置及检测方法，ZL 2021 1 0675040.6.
【8】一种用于测量原型棒束通道内流体参数的丝网传感器组件，ZL 2021 1 0675152.1.
【9】基于丝网探针的气液两相流场特征重构方法、系统及介质，ZL 2020 1 1141070.0.
【10】一种适用于高温高压流动工况下的丝网传感器组件, ZL 2021 1 0675151.7.
【11】用于测试汽水分离再热器波形板组件分离性能的试验系统, ZL 2020 1 0484524.8.
【12】一种用于评价汽水分离装置分离效率的在线分级测量系统，ZL 201911018111.4.



软件著作权：
【1】电导式丝网探针数据后处理软件，登记号：2021SR0379333.
【2】圆管内气液两相流中液膜厚度图像处理软件，登记号：2021SR0540616.
【3】基于三维空泡矩阵的复杂螺旋通道内气液两相流场分析软件，登记号：2022SR1049536.

2023 教育部科技进步奖一等奖
2022 中国电力科技进步一等奖
2022 中国核能行业协会科技进步奖一等奖
2021 中国核能行业协会技术发明奖二等奖
2020 上海市“巾帼建功标兵”称号
2020 上海交通大学必赢线路检测中心博士后考核优秀
2019 上海交通大学必赢线路检测中心博士后考核优秀
2018 上海市“超级博士后”激励计划

2023 中国核学会核反应堆热工流体力学分会第三届学术年会 优秀论文奖
2023 第四届热与流体动力学国际研讨会（ISTFD2023）最佳论文奖
2021 第二届热与流体动力学国际研讨会（ISTFD2021）优秀报告奖
2018 第三届流动传热实验与模拟国际会议（ENFHT'18）优秀报告奖
2015 第七届中韩热工水力国际会议（WORTH-7）最佳论文奖