·姓名:韓懷志
·出生年月:1984年1月
·職稱:副教授��,博導
·專業(yè):動力工程及工程熱物理
·團隊:四川大學燃燒動力學中心
·職務:四川大學燃燒動力學中心實驗室主任
·平臺:空天動力燃燒與冷卻教育部工程研究中心
·電話:18011578868, 15045651611
·微信:15045651611
·Email:hanhz@scu.edu.cn, hanhz_hrbeu@163.com
·地址:四川省成都市武侯區(qū)一環(huán)路南一段24號
個人簡介
韓懷志�,副教授/博導��,四川省“天府峨眉計劃”獲得者���,四川省高層次人才引進計劃特聘專家��,四川大學beat365燃燒動力學中心實驗室主任���。主要從事空天動力冷卻技術(shù)、高效換熱器強化換熱及優(yōu)化設計研究方向��。主要負責航發(fā)新型渦輪油冷導葉技術(shù)開發(fā)和研制�、空發(fā)新型冷卻通道技術(shù)的開發(fā)與研制。目前主持國家重大科技專項子課題2項��,國家自然科學基金1項�,中國博士后面上基金1項,四川省高層次人才引進計劃1項�����,省博士后面上基金1項�,省博士后科研啟動金1項,參與四川省工業(yè)發(fā)展基金1項(800萬����,排名第二)。研究成果方面目前已獲得省自然科學二等獎1項�����,以第一或通訊作者發(fā)表SCI檢索論文18篇��,EI檢索論文6篇����;已申請發(fā)明專利8項,其中已授權(quán)5項���;已授權(quán)軟件著作權(quán)6項�����;出版國家級教材1部����,出版英文論著1部,發(fā)表教改論文4篇��。
工作經(jīng)歷
·2020.05~至今:beat365博導
·2018.12~至今:beat365副教授
·2017.06~2018.12:哈爾濱工程大學動力學院副教授
·2016.12~2017.12:英國利茲大學訪問學者
·2013.09~2017.06:哈爾濱工程大學動力學院講師
·2013.09~2016.03:哈爾濱工程大學動力學院博士后
·2014.07~至今:哈爾濱工程大學動力學院碩士生導師
教育經(jīng)歷
·2009.09~2013.07:哈爾濱工業(yè)大學博士研究生專業(yè):動力工程及工程熱物理
·2007.09~2009.06:哈爾濱工業(yè)大學碩士研究生專業(yè):動力工程及工程熱物理
研究領域
·空天動力冷卻技術(shù)
·高效換熱器強化換熱技術(shù)
學術(shù)兼職
·四川省高層次人才引進計劃特聘專家.
·國際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》等審稿人
承擔或參與主要項目
[1]國家重大科技專項子課題����。項目名稱:JG2021014�����。項目金額:40萬,在研�,主持�。
[2]國家重大科技專項子課題。項目名稱:JG2019031����。項目金額:20萬,結(jié)題����,主持。
[3]國家自然科學基金����。項目名稱:非對稱人字形波紋板式換熱器自激振蕩流動與強化換熱機理研究。項目批準號:51506034����。項目金額:25.4萬,結(jié)題���,主持��。
[4]四川省高層次人才引進計劃項目.項目金額:50萬����,在研,主持��。
[5]四川省工業(yè)發(fā)展基金��。項目名稱:先進空天發(fā)動機燃燒室創(chuàng)新研制�,800萬,2019.07-2021.12��,在研��,參與(排名第二)����。
[6]中國博士后面上基金。項目名稱:內(nèi)插紐帶結(jié)合表面粗糙管的復合強化換熱機理研究����。項目批準號:2014M561328。項目金額:5萬�����,結(jié)題,主持�����。
[7]黑龍江省博士后面上基金�����。項目名稱:內(nèi)插紐帶外漲式波節(jié)管的強化換熱機理研究�。項目批準號:LBH-Z14049����。項目金額:10萬,結(jié)題�,主持。
[8]黑龍江省博士后科研啟動金����。LBH-Q16057,人字形波紋板式換熱器流體彈性激勵強化換熱機理研究����,5萬,2016.12-2017.12���,結(jié)題�����,主持��。
代表性成果
·期刊論文
[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一區(qū), 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一區(qū), 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一區(qū), 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一區(qū), 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二區(qū), 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一區(qū)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收錄) 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一區(qū), 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一區(qū),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一區(qū)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一區(qū), 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一區(qū), 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收錄) 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收錄) 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收錄) IF:0.404
[18]韓懷志,李炳熙*,何玉榮,許智.波節(jié)管氦氣流動與傳熱特性數(shù)值模擬研究.工程熱物理學報, 2012, 33(12): 2159-2162. (EI收錄)
[19]韓懷志,李炳熙*,何玉榮,別如山.非對稱型外凸式波節(jié)管內(nèi)的傳熱和流動特性.化工學報, 2013, 64(6): 1916-1924. (EI收錄)
[20]韓懷志,李炳熙*,何玉榮,邵偉.外凸式波節(jié)套管換熱器殼程流動與傳熱機理的數(shù)值模擬.化工學報, 2014, 65(S1): 85-94. (EI收錄)
[21]韓懷志,宋福元*,張國磊,楊龍濱,李彥軍.外凸式波節(jié)管結(jié)合內(nèi)插扭帶復合強化換熱性能分析.化工學報, 2016, 67(S1): 195-202. (EI收錄)
[22]韓懷志,陳鑫*,胡怡然����,王坤芳,崔運磊�,于瑞天.內(nèi)插松弛扭帶波節(jié)管的流動與傳熱特性的數(shù)值模擬研究.化工學報,2018, 69(4): 1374-1384 (EI收錄)
[23]王坤芳���,韓懷志*�����,李帥�����,崔運磊��,車春文��,張國磊.邊界溫度對封閉區(qū)域內(nèi)水合物合成過程的影響研究.工程熱物理學報, 2018, 39(3): 647-654.(EI收錄)
[24]王茜��,韓懷志�����,李炳熙*.板式換熱器波紋通道的流動與傳熱機理研究.化工學報�,2017, 68(S1): 71-82.(EI收錄)
·獲獎
[1]省自然科學二等獎.中低溫熱能高效利用機制.排名第四. 2020.12
[2] 2020年度四川省特聘專家稱號.
·發(fā)明專利
[1]韓懷志,孫寶芝,宋福元,張鵬,楊龍濱,李彥軍,張國磊,李曉明.松弛配合扭帶球突管式換熱器. 2014,中國,申請?zhí)? ZL 201410421612.8 (發(fā)明,已授權(quán))
[2]李炳熙,李鳳臣,韓懷志,邵偉.一種整流式管殼式換熱器. 2013,中國,申請?zhí)? ZL 201310379165.X (發(fā)明���,已授權(quán))
[3]李炳熙,韓懷志,李鳳臣,于碧涌.外凸式非對稱型波節(jié)管換熱器. 2011,中國,專利號: ZL 2011101260159 (發(fā)明,已授權(quán))
·專著
[1]國家級教材����。熱傳遞理論、實踐及應用�。哈爾濱工業(yè)大學出版社。副主編�����,本人編寫字數(shù)7萬�����。(已收錄)
[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,第一主編。(已收錄)
·軟件著作權(quán)
[1]直流蒸汽發(fā)生器換熱性能仿真軟件V1.0.授權(quán)號: 2016SR232761. 2016.08,第一作者��。
[2]蒸汽發(fā)生器熱力與結(jié)構(gòu)設計計算軟件V1.0.授權(quán)號: 2016SR205863. 2016.08,第一作者��。
[3]水合物合成過程平衡計算軟件V1.0.授權(quán)號: 2016SR388699. 2016.12,第一作者����。
[4]純甲烷水合物合成過程各相飽和度計算軟件V1.0.授權(quán)號: 2016SR385365. 2016.12,第二作者。
·科創(chuàng)比賽
全國節(jié)能減排大賽.基于遠程控制和余熱利用汽油發(fā)電機并網(wǎng)系統(tǒng). 2018.三等獎
·教改論文
[1]針對<熱交換器原理與設計>小班化教學模式下自主學習指導策略研究�����。教育教學論壇�。2020.5。第一作者����。
[2]淺談小班化教學模式在<熱交換器原理與設計>課堂教學中的應用。教育教學論壇����。2019.11。第一作者����。
[3]能源與動力工程專業(yè)英語教學與雙語教學的有效銜接策略探究�����。教育教學論壇�。2017.5����。第一作者。
[4]能源與動力工程專業(yè)雙語教學存在問題及解決措施�。教育教學論壇。2017.5�。第一作者。
講授課程
·《可壓縮流體動力學》研究生���,專業(yè)選修課,54學時
·《熱交換器原理與設計》本科生��,專業(yè)選修課����,32學時
·《空天動力冷卻技術(shù)》本科生,專業(yè)選修課�����,32學時
國際學術(shù)交流
·參加的國際會議
[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.
