谭冰
副教授/硕士生导师
最高学历:
西安交通大学 核科学与技术 工学博士
研究领域
核反应堆热工水力及安全
传热传质
两相流与沸腾/冷凝相变强化换热
人工智能在能源领域的应用
联系方式:
E-mail: tanbing@fzu.edu.cn
教育经历:
2007 - 2011 哈尔滨工程大学,核工程与核技术,学士
2011 - 2014 中国舰船研究院,核能科学与工程,硕士,导师:郭智荣研究员
2014 - 2019 西安交通大学,核科学与技术,博士,导师:田文喜教授
2017 - 2018 美国,麻省理工学院,核科学与工程,博士联合培养,导师:Matteo Bucci
工作经历:
2020 -2023 华南理工大学,电力学院,博士后
2020 -2021 香港,香港城市大学,机械工程学院,博士后
2023 -2023 国防科技大学,理学院,讲师
2023 -2026 哈尔滨工程大学,核科学与技术学院,副教授
2026- 至今 福州大学,化工学院,副教授
个人简介:
谭冰,福州大学化工学院副教授,硕士生导师。主要从事反应堆热工水力与安全分析、传热传质、相变与两相流、人工智能在能源方面应用等方面的研究。入选黑龙江省高层次人才、军队学术新秀人才、广东省青年优秀科研人才。近5年来,作为主持人成功获批国家级、省部级等纵向项目7项,在传热、核工程等领域的专业期刊(International Journal of Heat and Mass Transfer、International Journal of Thermal Sciences、Progress in Nuclear Energy等)发表SCI/EI检索论文30余篇,授权发明专利3项,多次参加国际/国内会议并作报告。
科研项目:
1. 国家自然科学基金青年项目,2025-2027,1240520,主持,
2. 黑龙江省教育厅优秀青年基金,2024-2026,YQJH2023309,主持,
3. 中央高校基本科研业务费,2024-2024,3072024CFJ1509,主持
4. 广东省自然科学基金面上项目,2022至2024,2022A1515012075,主持
5. 广东省自然科学基金青年项目, 2022至2024,2021A1515110604,主持
6. 中国博士后自然科学基金面上项目,2021至2023,2021M691058,主持
7. 广东省人力资源部,人才项目,2020至2021,20209002,主持
代表性论文:
[1]. Changyi Zhang, Huakang Wu, Bing Tan*, Jiyun Zhao. Advancing Nuclear Energy Safety via Hybrid Stacking Models: Integrating Physics-Informed Machine Learning and Traditional AI for Critical Heat Flux Prediction. [J]. Progress in Nuclear Energy, (SCI, Q1,中科院三区)
[2]. Xie Zihan, Bing Tan*, Jiejin Cai, Jiyun Zhao. Subcooled flow boiling bubble dynamics: surface tension-optimized force balance model and experimental validation[J]. International Journal of Thermal Sciences, 2026, 220 . (SCI, Q1,中科院二区)
[3]. Xinyan Zhang, Zhenhong Liu, Songbai Cheng*, Bing Tan*, Rulei Sun. A review of thermal-hydraulic characteristics of petal-shaped fuel assembly. [J]. Progress in Nuclear Energy, 2025, 188. (SCI, Q1,中科院三区)
[4]. Zhengyu Gong, Songbai Cheng*, Bing Tan*. A review of research on liquid-metal-cooled reactor and supercritical carbon dioxide Brayton cycle coupled system. [J]. Progress in Nuclear Energy, 2026, 190. (SCI, Q1,中科院三区)
[5]. Bing Tan, Jiejin Cai, Songbai Cheng, Bubble characterization and bubble population on SiC material surface in subcooled boiling flow, International Journal of Thermal Sciences. 2025, 208. (SCI, Q1,中科院二区) WOS:001327662700001
[6]. Zhihong Xiong, Weiqi Cheng, Kaijun Ou, Songbai Cheng*, Bing Tan*. Experimental study on eutectic reaction between lower head of reactor pressure vessel and molten pool using simulant materials[J]. Nuclear Engineering and Design, 2024, 429. (SCI, Q1,中科院三区) WOS:001313467100001
[7]. Kuanghan Deng, Bing Tan*, Songbai Cheng, et al., Investigating bubble dynamics on silicon carbide surfaces during flow boiling[J]. Case Studies in Thermal Engineering, 2024, 60:104807. (SCI, Q1,中科院二区,Top期刊) WOS:001327789500001
[8]. Bing Tan, Jiejin Cai, Songbai Cheng. Bubble characteristics on FeCrAl surface in subcooled boiling flow. Progress in Nuclear Energy. 2024, 169, 105108. (SCI, Q1,中科院三区) WOS:001180233600001
[9]. Bing Tan, Jiejin Cai. Numerical and experimental research on natural convection condensation heat transfer, Heat and Mass Transfer, 2024. (SCI, Q3,中科院四区) WOS:001173042000001
[10]. Jiejin Cai, Ziqi Gong, Bing Tan*, et al. Experimental and theoretical investigation of bubble dynamics on vertical surfaces with different wettability for pool boiling, International Journal of Thermal Sciences. 2023, 184. (SCI, Q1,中科院二区) WOS:000876416700003
[11]. Jiejin Cai, Ziqi Gong, Zhihong Tan, Chenjie Qiu, Bing Tan*. Heat transfer, dynamic characteristics and disturbance to water of bubbles generated on vertical surfaces featuring extreme wettability patterns, International Journal of Heat and Mass Transfer, 2022, 196:123266. (SCI, Q1,中科院二区,Top期刊) WOS:000835265200002
[12]. Bing Tan, Jiejin Cai, et al. Experimental and theoretical investigation on the effect of surface porosity on the nucleate flow boiling heat transfer, Progress in Nuclear Energy. 2022, 154:104471. (SCI, Q1,中科院三区) WOS:000880165600002
[13]. Bing Tan, Cai J, Zhao J, et al. Experimental and theoretical study of vapor/air mixture condensation inside an inclined blind-end pipe in natural convection with considering fog formation[J]. International Journal of Heat and Mass Transfer, 2022, 184:122375. (SCI: Q1,中科院二区,Top期刊) WOS:000755368300014
[14]. Bing Tan, Zhuo X, Cai J, et al. Study of film thickness characteristics on the inclined plate[J]. Progress in Nuclear Energy, 2022, 144:104089. (SCI: Q1,中科院三区) WOS:000762963000012
[15]. Bing Tan, Jiejin Cai. An improved model based on real gas state equation and fog formation for condensation heat and mass transfer[J]. Nuclear Engineering and Design, 2021, 372:110968. (SCI: Q1,中科院三区) WOS:000612275900003
[16]. Bing Tan, W.X. Tian, R.H. Chen, et al. Vapor condensation with low air mass fraction inside water seal branch tube under free convection[J]. Nuclear Engineering and Design, 2021, 379: 111264. (SCI: Q1,中科院三区) 000663601300002
[17]. Bing Tan, Tian W X, Chen R H, et al. Experimental Study of Air-Steam–Mixture Condensation Underneath Containment Vessel Surface[J]. Nuclear Science and Engineering, 2021:1-15. (SCI: Q3,中科院三区) WOS:000630090100001
[18]. Bing Tan, Shi LT, Chen R H, et al. Experimental study of raining effect on the inner surface of containment roof[J]. Annals of Nuclear Energy, 2020, 136: 107050. (SCI: Q1,中科院三区) WOS:000498274900031
[19]. Bing Tan, Wu Y W, Xiang Y, et al. Experimental investigation on hot water seal over an analogous U-shaped device[J]. Experimental Thermal and Fluid Science, 2018, 93: 23-31. (SCI: Q1,中科院二区) WOS:000427312400003
发明专利:
[1]. 成松柏,刘振宏,谭冰. 一种透明液体与非透明液体中颗粒群流动堵塞实验系统:中国,ZL202411583556.8[发明专利]. 2025-09.
[2]. 苏光辉,石磊太,谭冰,田文喜,张大林,巫英伟,秋穗正. 一种铅铋合金气泡泵循环能力实验系统及其实验方法: 中国,ZL2017100413065[发明专利]. 2018-08.
[3]. 向延,巫英伟,王明军,谭冰,田文喜,秋穗正,苏光辉. 一种核反应堆稳压器安全阀水封试验系统及其试验方法: 中国,ZL2017114558924[发明专利]. 2019-08.
