副教授-副研究员-高级工程师

韩怀志

发布时间 :2018年07月12日      阅读量:


·姓名:韩怀志

·出生年月:1984年1月

·职称:副教授,博导

·专业:动力工程及工程热物理

·团队:新葡亰8883ent燃烧动力学中心

·职务:新葡亰8883ent燃烧动力学中心实验室主任

·平台:空天动力燃烧与冷却教育部工程研究中心

·电话:18011578868, 15045651611

·微信:15045651611

·Email:hanhz@scu.edu.cn, hanhz_hrbeu@163.com

·地址:四川省成都市武侯区一环路南一段24号

个人简介

韩怀志,副教授/博导,四川省“天府峨眉计划”获得者,四川省高层次人才引进计划特聘专家,新葡亰8883ent化工学院燃烧动力学中心实验室主任。主要从事空天动力冷却技术、高效换热器强化换热及优化设计研究方向。主要负责航发新型涡轮油冷导叶技术开发和研制、空发新型冷却通道技术的开发与研制。目前主持国家重大科技专项子课题2项,国家自然科学基金1项,中国博士后面上基金1项,四川省高层次人才引进计划1项,省博士后面上基金1项,省博士后科研启动金1项,参与四川省工业发展基金1项(800万,排名第二)。研究成果方面目前已获得省自然科学二等奖1项,以第一或通讯作者发表SCI检索论文18篇,EI检索论文6篇;已申请发明专利8项,其中已授权5项;已授权软件著作权6项;出版国家级教材1部,出版英文论著1部,发表教改论文4篇。

工作经历

·2020.05~至今:新葡亰8883ent博导

·2018.12~至今:新葡亰8883ent副教授

·2017.06~2018.12:哈尔滨工程大学动力学院副教授

·2016.12~2017.12:英国利兹大学访问学者

·2013.09~2017.06:哈尔滨工程大学动力学院讲师

·2013.09~2016.03:哈尔滨工程大学动力学院博士后

·2014.07~至今:哈尔滨工程大学动力学院硕士生导师

教育经历

·2009.09~2013.07:哈尔滨工业大学博士研究生专业:动力工程及工程热物理

·2007.09~2009.06:哈尔滨工业大学硕士研究生专业:动力工程及工程热物理

研究领域

·空天动力冷却技术

·高效换热器强化换热技术

学术兼职

·四川省高层次人才引进计划特聘专家.

·国际SCI期刊《International Journal of Heat and Mass Transfer》、《International Journal of Thermal Sciences》、《Applied Thermal Engineering》、《ASME Journal of Heat Transfer》、《Chinese Journal of Aeronautics》、《Journal of Thermal Analysis and Calorimetry》等审稿人

承担或参与主要项目

[1]国家重大科技专项子课题。项目名称:JG2021014。项目金额:40万,在研,主持。

[2]国家重大科技专项子课题。项目名称:JG2019031。项目金额:20万,结题,主持。

[3]国家自然科学基金。项目名称:非对称人字形波纹板式换热器自激振荡流动与强化换热机理研究。项目批准号:51506034。项目金额:25.4万,结题,主持。

[4]四川省高层次人才引进计划项目.项目金额:50万,在研,主持。

[5]四川省工业发展基金。项目名称:先进空天发动机燃烧室创新研制,800万,2019.07-2021.12,在研,参与(排名第二)。

[6]中国博士后面上基金。项目名称:内插纽带结合表面粗糙管的复合强化换热机理研究。项目批准号:2014M561328。项目金额:5万,结题,主持。

[7]黑龙江省博士后面上基金。项目名称:内插纽带外涨式波节管的强化换热机理研究。项目批准号:LBH-Z14049。项目金额:10万,结题,主持。

[8]黑龙江省博士后科研启动金。LBH-Q16057,人字形波纹板式换热器流体弹性激励强化换热机理研究,5万,2016.12-2017.12,结题,主持。

代表性成果

·期刊论文

[1] W. Luo,H. Z. Han*, Rongpei Jiang, Ruitian Yu, Quan Zhu. 3D numerical investigation of trans-critical heat transfer enhancement in regeneration cooling channel with crescent rib.International Journal of Thermal Sciences, 2022, 172. JCR一区, IF: 3.467

[2] J. Zhang,H.Z. Han*,Z. R. Li, H. G. Zhong. Effect of pin-fin forms on flow and cooling characteristics of three-layer porous laminate.Applied Thermal Engineering, 2021,194: 117084. JCR一区, IF: 4.725

[3] W. Luo,H. Z. Han*, R. T. Yu, L. Cai, R. C. Gao. Flow and heat transfer characteristics of air and n-decane in eccentric tube-in-tube helically coiled heat exchangers.International Journal of Thermal Sciences, 2021, 170: 107170. JCR一区, IF: 3.467

[4] R. T. Yu, H. Z. Han, C. G. Yang, W. Luo. Optimal design and decision making of an air cooling channel with hybrid ribs based on RSM and NSGA-II.Journal of Thermal Analysis and Calorimetry, 2021, JCR一区, IF:4.626

[5] J. X. Zhang, H. Z. Han*, Q. Zhu. Multi objective optimization of the cooling performance of a mini channel with boot shaped ribs in trans-critical regions using RSM and MOGA.Numerical Heat Transfer, Part A: Applications, 2020, 78(12): 737-755. JCR二区, IF: 3.22

[6]H. Z. Han, R. T. Yu, B. X. Li, Y. N. Zhang, W. Wang. Multi-objectiveoptimization of corrugated tube with loose fit twisted tape using RSM and NSGA-II.International Journal of Heat and Mass Transfer, 2019, 131: 781-794.JCR一区IF:4.947

[7]H. Z. Han, R. T. Yu, B. X. Li, Y. N. Zhang. Multi-objective optimization of corrugated tube inserted with multi-channel twisted tape using RSM and NSGA-II.Applied Thermal Engineering, 2019, 159: 1-13(SCI/EI收录) IF:4.725

[8] X. Chen,H. Z. Han*, Kwan-Soo Lee, Bingxi Li*, Yaning Zhang. Turbulent heat transfer enhancement in a heat exchanger using asymmetrical outward convex corrugated tubes. Nuclear Engineering and Design, 2019, 350: 78-89.IF:1.541

[9]H. Z. Han, B. X. Li*, W. Shao.Effect of flow direction for flow and heat transfer characteristics inoutward convex asymmetrical corrugated tubes.International Journal of heat and mass transfer,2016, 92: 1236-1251.JCR一区, IF:4.947

[10] L. B. Yang,H. Z. Han*, Y. J. Li, X. M. Li. A Numerical Study of the Flow and Heat Transfer Characteristics of Outward Convex Corrugated Tubes With Twisted-Tape Insert.ASME Journal of Heat transfer, 2016, 138:1-8. IF: 1.866.

[11]H. Z. Han, B. X. Li*, H. Wu, W. Shao.Multi-objective shape optimization of double pipe heat exchanger with inner corrugated tube using RSM method.International Journal of Thermal Sciences, 2015, 90: 173-186.JCR一区,IF:3.467

[12]H.Z. Han, B.X. Li*, W. Shao. Multi-objective optimization of outward convex corrugated tubes using response surface methodology.Applied Thermal Engineering, 2014, 70: 250-262. JCR一区IF: 4.725.

[13]H.Z. Han, B.X. Li*, F.C. Li, Y.R. He. RST model for turbulent flow and heat transfer mechanism in an outward convex corrugated tube,Computers&Fluids, 2014, 91: 107-129. JCR一区, IF:2.313.

[14]H.Z. Han, B.X. Li*, B.Y. Yu, Y.R. He, F.C. Li. Numerical study of flow and heat transfer characteristics in outward convex corrugated tubes.International Journal of heat and mass transfer, 2012, 55(25-26): 7782-7802. JCR一区, IF:4.947.

[15]H. Z. Han, L. B. Yang*, Y. R Hu, R. T. Yu, Q. Zhang. Numerical study on the influencing mechanism of twisted ratio in outward convex corrugated tubes with a twisted tape insert. Thermal science, 2018, 22(00): 42-42 (SCI/EI收录) IF: 1.093.

[16]H. Z. Han, X. D. Su, R. T. Yu.Effect of corrugation height on flow and heat transfer mechanism for corrugation channel. Heat transfer research, 2018, 50(13). (SCI/EI收录) IF: 0.404.

[17]H.Z. Han, L. B. Yang, X. Chen, B. X. Li. Numerical and experimental study of flow and heat transfer in outward convex corrugated tubes with a twisted tape insert. Heat transfer research, 2018, 49(16): 1605-1628 (SCI/EI收录) IF:0.404

[18]韩怀志,李炳熙*,何玉荣,许智.波节管氦气流动与传热特性数值模拟研究.工程热物理学报, 2012, 33(12): 2159-2162. (EI收录)

[19]韩怀志,李炳熙*,何玉荣,别如山.非对称型外凸式波节管内的传热和流动特性.化工学报, 2013, 64(6): 1916-1924. (EI收录)

[20]韩怀志,李炳熙*,何玉荣,邵伟.外凸式波节套管换热器壳程流动与传热机理的数值模拟.化工学报, 2014, 65(S1): 85-94. (EI收录)

[21]韩怀志,宋福元*,张国磊,杨龙滨,李彦军.外凸式波节管结合内插扭带复合强化换热性能分析.化工学报, 2016, 67(S1): 195-202. (EI收录)

[22]韩怀志,陈鑫*,胡怡然,王坤芳,崔运磊,于瑞天.内插松弛扭带波节管的流动与传热特性的数值模拟研究.化工学报,2018, 69(4): 1374-1384 (EI收录)

[23]王坤芳,韩怀志*,李帅,崔运磊,车春文,张国磊.边界温度对封闭区域内水合物合成过程的影响研究.工程热物理学报, 2018, 39(3): 647-654.(EI收录)

[24]王茜,韩怀志李炳熙*.板式换热器波纹通道的流动与传热机理研究.化工学报,2017, 68(S1): 71-82.(EI收录)

·获奖

[1]省自然科学二等奖.中低温热能高效利用机制.排名第四. 2020.12

[2] 2020年度四川省特聘专家称号.

·发明专利

[1]韩怀志,孙宝芝,宋福元,张鹏,杨龙滨,李彦军,张国磊,李晓明.松弛配合扭带球突管式换热器. 2014,中国,申请号: ZL 201410421612.8 (发明,已授权)

[2]李炳熙,李凤臣,韩怀志,邵伟.一种整流式管壳式换热器. 2013,中国,申请号: ZL 201310379165.X (发明,已授权)

[3]李炳熙,韩怀志,李凤臣,于碧涌.外凸式非对称型波节管换热器. 2011,中国,专利号: ZL 2011101260159 (发明,已授权)

·专著

[1]国家级教材。热传递理论、实践及应用。哈尔滨工业大学出版社。副主编,本人编写字数7万。(已收录)

[2] Book Chapter. Heat and mass transfer in outward convex corrugated tube heat exchangers. Heat and Mass transfer-Advances in Science and Technology Application, Intechopen, 2019,第一主编。(已收录)

·软件著作权

[1]直流蒸汽发生器换热性能仿真软件V1.0.授权号: 2016SR232761. 2016.08,第一作者。

[2]蒸汽发生器热力与结构设计计算软件V1.0.授权号: 2016SR205863. 2016.08,第一作者。

[3]水合物合成过程平衡计算软件V1.0.授权号: 2016SR388699. 2016.12,第一作者。

[4]纯甲烷水合物合成过程各相饱和度计算软件V1.0.授权号: 2016SR385365. 2016.12,第二作者。

·科创比赛

全国节能减排大赛.基于远程控制和余热利用汽油发电机并网系统. 2018.三等奖

·教改论文

[1]针对<热交换器原理与设计>小班化教学模式下自主学习指导策略研究。教育教学论坛。2020.5。第一作者。

[2]浅谈小班化教学模式在<热交换器原理与设计>课堂教学中的应用。教育教学论坛。2019.11。第一作者。

[3]能源与动力工程专业英语教学与双语教学的有效衔接策略探究。教育教学论坛。2017.5。第一作者。

[4]能源与动力工程专业双语教学存在问题及解决措施。教育教学论坛。2017.5。第一作者。

讲授课程

·《可压缩流体动力学》研究生,专业选修课,54学时

·《热交换器原理与设计》本科生,专业选修课,32学时

·《空天动力冷却技术》本科生,专业选修课,32学时

国际学术交流

·参加的国际会议

[1] Huaizhi Han, Bingxi Li*, Xiaoyan Zhang, Zhi Xu, Kwansoo Lee, Numerical Simulation of Flow and Heat Transfer Mechanism of Helium in the Corrugated Tube, International Symposium on Heat Transfer and Energy Conservation, Jan. 6-9, 2012, Guangzhou, China, 2012, Presentation, International conference.

[2] Huaizhi Han, Bingxi Li*, Yurong He, Fengchen Li, Biyong Yu, Rushan Bie, Structrual optimization design of outward corrugated tube applied in nuclear plant using RSM method, 8th International Conference on Multiphase Flow, May. 19-21, 2013, Jeju, Korea, 2013, Presentation, International conference.

[3] Huaizhi Han, Bingxi Li*, Wei Shao, Experimental study on heat transfer performance in a corrugated tube heat exchanger, May. 6-9, 2014, Beijing, China, 2014, Presentation, International conference.

[4] Huaizhi Han, Longbin Yang*, Xiaoming Li. Numerical investigation of heat transfer of Al2O3-water nanofluid in outward corrugated tube. Joint conference of UK-China particle Technology Forum, July. 13-15, 2015, UK, Leeds,Presentation, International conference.

[5] Huaizhi Han, Yanjun Li*, Longbin Yang, Xiaoming Li. 3D numerical study on the effect of fluid-based structrual parameters for outward convex corrugated tubes with twisted tape insert. International Workshop on Heat Transfer Advances for Energy Conservation and Pollution Control. Oct. 14-16, 2015, Taiwan, Presentation, International conference.

[6] Huaizhi Han, Longbin Yang*, Xiaoming Li. Numerical analysis of critical pressure on gas production from methane hydrate by depressurization while the temperature in the vicinity of freezing point. July, 19-22, 2016, Singapore, Presentation.

[7] Huaizhi Han, Longbin Yang*, Xiaoming Li. Numerical analysis of freezing critical pressure on gas production from methane hydrate by depressurization method. Aug. 15-19, 2016, Beijing, China, Presentation.

[8] Huaizhi Han, Qian Wang, Bingxi Li. Study on flow and heat transfer characteristics of corrugated channel in plate heat exchanger. Aug 10-15, 2018, Beijing China, Presentation.

[9] Huaizhi Han, Xingdong Su, Qian Wang, Bingxi Li. Numerical Study on flow and heat transfer mechanism of corrugated channel in plate heat exchanger. Aug 21-23, 2018, Wuhan China, Presentation.




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