边浩志 - 哈尔滨工程大学 - 核科学与技术学院

个人简介

边浩志，男，工学博士，副教授，博士生导师。2014年获哈尔滨工程大学核工程与核技术学士学位，学士论文于美国德州农工大学（TAMU）完成。同年保送哈尔滨工程大学核科学与技术学院，取得硕博连读资格。2019年6月获工学博士学位(获评哈尔滨工程大学优秀博士论文)。2019年7月至今留校工作。目前作为项目负责人主持国家自然科学基金(青年)1项、国家重点研发计划子课题1项、国家重大专项子课题1项、中核集团青年英才项目1项、中央高校项目1项、民品横向项目3项、研究生教改项目1项。主要参与完成各类项目10余项。申请发明专利40余项，发表学术论文80余篇(h-index=14)，登记软件著作权4项。编写教材1部，专著1部，译著2部。获黑龙江省科技进步一等奖1项、北京市技术发明二等奖1项、黑龙江省高校科技进步三等奖1项，组织申报黑龙江省专利奖(优秀奖)，获评“2021年度优秀毕业设计指导老师”、“2023届毕业生身边最温暖的人”称号。主讲《传热学》(省一流本科课程)、《热流体学》(南安联合学院，全英文授课)、《工程热力学》、《核动力设备》、《先进核动力反应堆》课程。Energy、Applied Energy、International Journal of Heat and Mass Transfer等杂志审稿人，中国核学会会员，船用核动力分会理事。2022年入选中核集团青年人才“精英”计划，2023年入选黑龙江省青年人才托举工程项目。教育经历 2010.08~2014.07：哈尔滨工程大学核工程与核技术专业，学士学位； 2014.01~2014.07：美国德州农工大学，完成学士学位论文； 2014.08~2019.06：哈尔滨工程大学核科学与技术专业硕博连读、博士学位。工作经历 2019.07~2023.06，哈尔滨工程大学核科学与技术学院讲师，预聘副教授; 2023.07~至今，哈尔滨工程大学核科学与技术学院副教授

研究领域

1. 先进核能系统设备CFD数值模拟分析； 2. 含不凝性气体蒸汽冷凝传热特性研究； 3. 非能动安全技术研究； 4. 3D打印微表面强化沸腾传热特性研究； 5. 新型反应堆系统概念研究； 6. 单相/相变强化传热特性研究。

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

SCI: 1. Bian H, Lu Y, Li C, Liang T, Ding M. Comprehensive parameter analyses on steam-air condensation at pressures up to 1.6MPa [J]. Nuclear Engineering and Design, 2021, 385: 111536. 2. Bian H, Sun Z, Zhang N, Meng Z, Ding M. A new modified diffusion boundary layer steam condensation model in the presence of air under natural convection conditions[J]. International Journal of Thermal Sciences, 2019, 145: 105948. 3. Bian H, Sun Z, Zhang N, Meng Z, Ding M. Numerical investigations on steam condensation in the presence of air on external surfaces of 3×3 tube bundles[J], Progress in Nuclear Energy (2018) 111 (2019) 42-50. (SCI: 000456638100004) 4. Bian H, Sun Z, Cheng X, Zhang N, Meng Z, Ding M. CFD evaluations on bundle effects for steam condensation in the presence of air under natural convection conditions[J]. International Communications in Heat and Mass Transfer, 98 (2018) 200-208. (SCI: 000449129200023, JCR: Zone 1) 5. Bian H, C. Kurwitz, Sun Z, Cheng K, Chen K. Enhanced nucleate boiling on 3D-printed micro-porous structured surface[J]. Applied Thermal Engineering, 141 (2018) 422-434. (SCI: 000440958800040; JCR: Zone 1) 6. Bian H. Sun Z, Zhang N, Meng Z, Ding M. A preliminary assessment on a two-phase steam condensation model in nuclear containment applications[J]. Annals of Nuclear Energy 121 (2018) 615-625. (SCI: 000444668200059; JCR: Zone 1) 7. Bian H, Sun Z, Zhang N, Meng Z, Ding M. Sensitivity analysis of the diffusion boundary layer steam condensation model[J], International Journal of Nuclear Safety and Simulation 9 (2018) 61-75. 8. Bian H, Sun Z, Ding M, Zhang N. Local phenomena analysis of steam condensation in the presence of air[J], Progress in Nuclear Energy. 101 (2017) 188-198. (SCI: 000412261300002) 9. Liu F, Sun Z, Cao B, Bian H*, Dimg M. Experimental investigations on steam-air-hydrogen condensation and corresponding component separation phenomenon[J]. International Communications in Heat and Mass Transfer, 2021, 128: 105630. 10. Liu F, Sun Z, Ding M, Bian H*. Research progress of hydrogen behaviors in nuclear power plant containment under severe accident conditions[J]. International Journal of Hydrogen Energy, 2021, 46(73): 36477-36502. 11. Cao B, Li Y, Lu Y, Zhou S, Bian H*, Ding M. Experimental study of air–steam condensation on the influence of tube diameter and inclination angle[J]. Nuclear Engineering and Design, 2021, 381: 111357. 12. Li G, Cao B, Zhou S, Bian H*, Ding M. Effects of inclination and flow velocity on steam condensation consisting of air on tube bundle external surfaces[J]. Progress in Nuclear Energy, 2021, 136: 103722. 13. Zhou S, Li Y, Sun Y, Bian H*, Ding M. Evaluations and classifications of the bundle effects on steam condensation based on broad pressure range experiments[J]. Progress in Nuclear Energy, 2021, 135: 103695 14. Ding M, Zhou X, Zhang H, Bian H, Yan Q. A review of the development of nuclear fuel performance analysis and codes for PWRs[J]. Annals of Nuclear Energy, 2021, 163:108542. 15. Wang J, Bian H, Cao X, Ding M. Numerical performance analysis of a novel shell-and-tube oil cooler with wire-wound and crescent baffles[J]. Applied Thermal Engineering, 2021, 184: 116298. 16. Zhou J, Ding M, Bian H, Zhang Y, Sun Z. Characteristics of flow distribution in central-type compact parallel flow heat exchangers with modified inlet and header[J]. Applied Thermal Engineering, 2020, 166: 114636. 17. Zhou J, Ding M, Bian H, Zhang Y, Sun Z. Characteristics of flow distribution in central-type compact parallel flow heat exchangers with modified inlet and header [J], Applied Thermal Engineering, 2019, 1-9. 18. Guo Z, Sun Z, Zhang N, Ding M, Bian H, Meng Z. Computational study on fluid flow and heat transfer characteristic of hollow structured packed bed[J]. Powder Technology, 344 (2019) 463-474. 19. Zhou J, Ding M, Bian H, Zhang Y, Sun Z. CFD simulation for the effect of the header match on the flow distribution in a central-type parallel heat exchanger[J]. Chemical Engineering Research and Design, 136 (2018) 144-153. (SCI: 000442334500014) 20. Zhou J, Sun Z, Ding M, Bian H, Zhang N, Meng Z. CFD simulation for flow distribution in manifolds of central-type compact parallel flow heat exchangers[J] Applied Thermal Engineering, 126 (2017) 670-677. (SCI: 000412251200063) EI 1. Bian Haozhi, Sun Zhongning, Ding Ming, Zhang Nan, MENG Zhaoming, Wang Lu. Numerical simulation of heat transfer characteristics of air-containing vapor condensation [J]. Journal of Harbin Engineering University, 2019, 40(02): 1-7. (EI: 20191606777170) 2. Liu Feng, Sun Zhongning, Ding Ming, Bian Haozhi *. Stratification characteristics of helium driven by steam condensation in containment [J]. Journal of Harbin Engineering University, 2019,42(12):1786-1791.(EI) 3. Liu Shiwen, LI Yi, Cheng Xiang, Bian Haozhi, Cao Boyang, Ding Ming. Effect of pipe diameter and inclination Angle on heat transfer of condensing steam containing air outside tube bundle [J]. Nuclear Power Engineering,2022,43(01):92-96. (EI) 4. Cao Boyang, LI Yi, Bian Haozhi, CAO Xiaxin, Ding Ming. Experimental study on the influence of pipe diameter and inclination Angle on steam-air condensing characteristics [J]. Chinese Journal of Engineering Thermophysics,2021,42(07):1851-1857. 5. Quan Biao, BIAN Haozhi, Ding Ming, Luo Hanyu, Zou Zhiqiang, LI Feng, Sun Zhongning. Numerical analysis of heat transfer characteristics of air-containing steam condensation outside vertical tube bundle, Nuclear Power Engineering, 2019, 29-34. 6. Quan Biao, BIAN Haozhi, Ding Ming, LI Yi, Cheng Xiang, Peng Hang, Sun Zhongning. Numerical analysis of tube bundle effect on heat transfer of air-containing steam condensation, Nuclear Power Engineering, 2019, 61-66. Meetings: 1. Bian H, Sun Z, Ding M, Zhang N, Meng Z. Application and evaluation of automatic wall treatment on diffusion boundary layer based steam condensation model in presence of air[C]. International Topical Meeting on Nu