An Improved Heat Transfer Correlation for Supercritical Aviation Kerosene Flowing Upward and Downward in Vertical Tubes 被引量：4

An Improved Heat Transfer Correlation for Supercritical Aviation Kerosene Flowing Upward and Downward in Vertical Tubes

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摘要 Correlations are crucial to the design of cooling channels employed in regenerative cooling systems for scramjets.In this paper,correlations for the aviation kerosene flowing upward and downward in vertical tubes are studied and discussed.Four existing correlations are assessed against the available experimental data.To further improve the prediction accuracy of the heat transfer behaviors of the supercritical aviation kerosene,a new dimensionless parameter(Qi)relevant to the heat flux is proposed and introduced into the construction of a new correlation.Verification shows that the new correlation is more accurate than existing correlations. Correlations are crucial to the design of cooling channels employed in regenerative cooling systems for scramjets. In this paper, correlations for the aviation kerosene flowing upward and downward in vertical tubes are studied and discussed. Four existing correlations are assessed against the available experimental data. To further improve the prediction accuracy of the heat transfer behaviors of the supercritical aviation kerosene, a new dimensionless parameter(Qi) relevant to the heat flux is proposed and introduced into the construction of a new correlation. Verification shows that the new correlation is more accurate than existing correlations.

作者 LI Yong CHEN Youqian ZHANG Yingchun SUN Feng XIE Gongnan

机构地区 School of Mechanical Engineering School of Marine Science and Technology Research&Development Institute of Northwestern Polytechnical University in Shenzhen

出处《Journal of Thermal Science》 SCIE EI CAS CSCD 2020年第1期131-143,共13页 热科学学报（英文版）

基金 sponsored by the National Natural Science Foundation of China (51676163) the National 111 Project under Grant No. B18041 the Fundamental Research Funds of Shenzhen City (JCYJ20170306155153048)

关键词 CORRELATION supercritical n-decane prediction accuracy heat flux vertical tube correlation supercritical n-decane prediction accuracy heat flux vertical tube

分类号 V231 [航空宇航科学与技术—航空宇航推进理论与工程]

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参考文献7

1YU Bin,ZHOU Weixing,QIN Jiang,BAO Wen.Dynamic Characteristics of Hydrocarbon Fuel within the Channel at Supercrit- ical and Pyrolysis Condition[J].Journal of Thermal Science,2017,26(6):560-569. 被引量：1
2张斌,张春本,邓宏武,徐国强,朱锟.超临界压力下碳氢燃料在竖直圆管内换热特性[J].航空动力学报,2012,27(3):595-603. 被引量：25
3李志辉,姜培学.低雷诺数条件下超临界压力CO_2换热实验研究[J].核动力工程,2010,31(1):33-37. 被引量：10
4程泽源,朱剑琴,李海旺.竖直圆管内超临界碳氢燃料换热恶化的直径效应[J].航空学报,2016,37(10):2941-2951. 被引量：9
5严俊杰,赵然,闫帅,祝银海,姜培学.超临界压力下竖直圆管内正癸烷对流换热不稳定性实验[J].推进技术,2017,38(2):450-456. 被引量：10
6WANG Chenggang,SUN Baokun,LIN Wei,HE Fan,YOU Yingqiang,YU Jiuyang.Turbulent Convective Heat Transfer of Methane at Supercritical Pressure in a Helical Coiled Tube[J].Journal of Thermal Science,2018,27(1):55-63. 被引量：5
7TIAN Ran,DAI Xiaoye,WANG Dabiao,SHI Lin.Study of Variable Turbulent Prandtl Number Model for Heat Transfer to Supercritical Fluids in Vertical Tubes[J].Journal of Thermal Science,2018,27(3):213-222. 被引量：13

二级参考文献36

1贺武生.超燃冲压发动机研究综述[J].火箭推进,2005,31(1):29-32. 被引量：34
2孙青梅,米镇涛,张香文.吸热型碳氢燃料RP-3仿JP-7临界性质(t_c、p_c)的测定[J].燃料化学学报,2006,34(4):466-470. 被引量：33
3张宇,姜培学,石润富,邓建强.竖直圆管中超临界压力CO_2对流换热实验研究[J].工程热物理学报,2006,27(2):280-282. 被引量：10
4Protopopov V S. One-Dimensional Flow of Single-Phase and Two-Phase Fluids in Tubes Under Heat Transfer Conditions[R]. Moscow Power Institute Press, Moscow, 1982. 被引量：1
5Jackson J D, Cotton M A, Axcell B P. Studies of Mixed Convection in Vertical Tubes[J]. Int J Heat and Fluid Flow. 1989, 10 (1): 2-15. 被引量：1
6Duffey R B, Pioro I L. Experimental Heat Transfer of Supercritical Carbon Dioxide Flowing Inside Channels (Survey)[J]. Nuclear Engineering and Design. 2005, 235: 913-924. 被引量：1
7Jiang P X, Zhang Y, Shi R E Experimental and Numerical Investigation of Convection Heat Transfer of CO2 at Super Critical Pressures in a Vertical Mini Tube[J]. Int J Heat Mass Transfer, 2008, 51:3052-3056. 被引量：1
8Jiang P X. Zhang Y, Xu Y J, et al. Experimental and Numerical Investigation of Convection Heat Transfer of CO2 at Supercritical Pressures in a Vertical Tube at Low Reynolds Numbers[J]. Int. J Thermal Sciences, 2008, 47: 998-1011. 被引量：1
9McEligot D M, Jackson J D. "Deterioration" Criteria for Convective Heat Transfer in Gas Flow Through Non -Circular Ducts[J]. Nuclear Engineering and Design. 2004, 232: 327-333. 被引量：1
10McEligot D M, Coon C W, Perkins H C. Relaminarization in Tubes [J]. Int J Heat Mass Transfer. 1970, 13: 431-433. 被引量：1

共引文献55

1杨传勇,徐进良,王晓东,张伟.超临界参数CO2在倾斜管内对流换热数值模拟[J].热力发电,2013,42(1):26-35. 被引量：9
2袁立公,邓宏武,徐国强,贾洲侠,李一帆.超临界压力下航空煤油RP-3壁面结焦特性对换热的影响[J].航空动力学报,2013,28(4):832-837. 被引量：8
3杨俊兰,马一太,李敏霞.超临界CO_2流体及其换热特性分析[J].流体机械,2013,41(5):66-71. 被引量：32
4杨传勇,徐进良,王晓东,张伟.管道倾斜角度对超临界CO_2管内换热特性的影响[J].原子能科学技术,2013,47(9):1522-1528. 被引量：10
5肖磊,粟银,秦昂,杨纪明,刘圣平.超临界压力下浮升力对航空煤油流动换热影响[J].空军工程大学学报（自然科学版）,2018,19(6):15-21. 被引量：1
6张卓远,黄世璋,高效伟.超临界压力下正癸烷在水平矩形冷却通道内的流动传热数值模拟[J].航空学报,2018,39(12):83-94. 被引量：7
7王彦红,李素芬,赵星海.超临界压力航空煤油不稳定流动实验[J].航空动力学报,2018,33(12):2838-2844. 被引量：1
8齐伟,毛宇飞,刘庆君.冷却管内超临界二氧化碳对流传热Matlab分析[J].制冷与空调（四川）,2015,29(3):341-344. 被引量：2
9黄丹,阮波,吴晓雨,张巍,徐国强,陶智,姜培学,马连湘,李蔚.Experimental study on heat transfer of aviation kerosene in a vertical upward tube at supercritical pressures[J].Chinese Journal of Chemical Engineering,2015,23(2):425-434. 被引量：7
10姜培学,张富珍,胥蕊娜,王振川,赵陈儒.以CO_2为工质的热泵系统与中深层地热采暖技术[J].建设科技,2016(2):27-33. 被引量：1

同被引文献10

1龚昊,王占学,刘增文.间冷回热循环航空发动机参数匹配研究[J].航空动力学报,2012,27(8):1809-1814. 被引量：14
2王占学,龚昊,刘增文,周莉.间冷回热航空发动机技术发展趋势分析[J].航空发动机,2013,39(6):13-18. 被引量：10
3龚昊,王占学,康涌,黄红超,李刚团.间冷回热航空发动机性能计算与分析[J].航空动力学报,2014,29(6):1453-1461. 被引量：16
4邹正平,刘火星,唐海龙,万敏,王洪伟,陈小龙,陈懋章.高超声速航空发动机强预冷技术研究[J].航空学报,2015,36(8):2544-2562. 被引量：56
5赵璧,宣益民.航空发动机间冷器及回热器发展研究综述[J].航空学报,2017,38(9):1-21. 被引量：10
6TIAN Ran,DAI Xiaoye,WANG Dabiao,SHI Lin.Study of Variable Turbulent Prandtl Number Model for Heat Transfer to Supercritical Fluids in Vertical Tubes[J].Journal of Thermal Science,2018,27(3):213-222. 被引量：13
7Zhi TAO,Xizhuo HU,Jianqin ZHU,Hongwei WU.Numerical investigation of pyrolysis effects on heat transfer characteristics and flow resistance of n-decane under supercritical pressure[J].Chinese Journal of Aeronautics,2018,31(6):1249-1257. 被引量：4
8Yinhai ZHU,Wei PENG,Ruina XU,Peixue JIANG.Review on active thermal protection and its heat transfer for airbreathing hypersonic vehicles[J].Chinese Journal of Aeronautics,2018,31(10):1929-1953. 被引量：50
9Bao MENG,Min WAN,Rui ZHAO,Zhengping ZOU,Huoxing LIU.Micromanufacturing technologies of compact heat exchangers for hypersonic precooled airbreathing propulsion: A review[J].Chinese Journal of Aeronautics,2021,34(2):79-103. 被引量：17
10Zhi TAO,Liangwei LI,Jianqin ZHU,Xizhuo HU,Longyun WANG,Lu QIU.Numerical investigation on flow and heat transfer characteristics of supercritical RP-3 in inclined pipe[J].Chinese Journal of Aeronautics,2019,32(8):1885-1894. 被引量：3

引证文献4

1YANG Zheng,CHENG Xu,ZHENG Xinghua,CHEN Haisheng.Reynolds-Averaged Navier-Stokes Equations Describing Turbulent Flow and Heat Transfer Behavior for Supercritical Fluid[J].Journal of Thermal Science,2021,30(1):191-200. 被引量：3
2ZHANG Huzhong,CHENG Keyong,HUAI Xiulan,ZHOU Jingzhi,GUO Jiangfeng.Experimental and Numerical Study of an 80-kW Zigzag Printed Circuit Heat Exchanger for Supercritical CO_(2)Brayton Cycle[J].Journal of Thermal Science,2021,30(4):1289-1301. 被引量：4
3Hui LI,Zhengping ZOU,Yumin LIU.A refined design method for precoolers with consideration of multi-parameter variations based on low-dimensional analysis[J].Chinese Journal of Aeronautics,2022,35(3):329-344. 被引量：2
4王彦红,陆英楠,李洪伟,李素芬,东明.浮升力对竖直螺旋管中超临界CO_(2)换热的影响及判别准则[J].北京航空航天大学学报,2023,49(11):2929-2937. 被引量：1

二级引证文献9

1李嘉骏,邓豪.印刷电路板式换热器的研究及应用现状[J].山东化工,2022,51(2):71-72. 被引量：3
2钱新亮,李进,陈佩圆.热养护对MgO激发碱矿渣材料抗压强度与微结构的影响[J].混凝土,2022(8):6-9.
3邹正平,王一帆,姚李超,刘火星,许鹏程,李辉.超临界二氧化碳闭式布莱顿循环系统研究进展[J].北京航空航天大学学报,2022,48(9):1643-1677. 被引量：6
4陈冬林,刘思含,殷立国,杨宁武,刘文哲,张博.导流均流装置对烟气SCR脱硝系统的流场优化模拟[J].环境工程学报,2023,17(2):588-597. 被引量：3
5孟宾,张锦康,奚乐乐,杨泽夏,周宁.Z字形折叠无人机气动优化设计[J].河北科技大学学报,2023,44(5):450-458.
6王一帆,邹正平,陈懋章.高超声速强预冷发动机热力循环研究进展[J].航空学报,2023,44(21):41-77. 被引量：2
7谈明高,胡胜,刘厚林,马皓晨,朱智朋.叶片数对无轴泵喷推进器性能的影响[J].国防科技大学学报,2024,46(1):212-221. 被引量：1
8冯义博,何阳,邓建强.跨临界CO_(2)两相引射器喷嘴扩张段传热的影响分析[J].制冷学报,2024,45(3):72-80.
9夏春杰,陈永东,吴晓红,宋嘉梁,邓靜,程沛.旋流通道内超临界氮的换热性能研究[J].流体机械,2024,52(8):31-38.

1Li Wang,Guowei Zong.Supercritical branching Brownian motion with catalytic branching at the origin[J].Science China Mathematics,2020,63(3):595-616.
2Chenyue Xie,Jianchun Wang,Hui Li,Minping Wan,Shiyi Chen.Spatial artificial neural network model for subgrid-scale stress and heat flux of compressible turbulence[J].Theoretical & Applied Mechanics Letters,2020,10(1):27-32. 被引量：7
3DU MengMeng,ZHONG FengQuan,XING YunFei,ZHANG XinYu.Study of coupled effect of impingement jet cooling of kerosene with solid structure[J].Science China(Technological Sciences),2019,62(11):2021-2028. 被引量：1
4Sainab Omar,Suzanne Alsamaq,Yang Yang,Jiawei Wang.Production of renewable fuels by blending bio-oil with alcohols and upgrading under supercritical conditions[J].Frontiers of Chemical Science and Engineering,2019,13(4):702-717. 被引量：3
5Shi-Yan Ren,Rong-Ding Gao,Ye-Lin Chen.Fear can be more harmful than the severe acute respiratory syndrome coronavirus 2 in controlling the corona virus disease 2019 epidemic[J].World Journal of Clinical Cases,2020,8(4):652-657. 被引量：16
6Mahesh S.Shinde,Kishor M.Ashtankar.Effect of Different Shapes of Conformal Cooling Channel on the Parameters of Injection Molding[J].Computers, Materials & Continua,2018(3):287-306.
7WANG Yaping,LIU Qi,XU Xiaolei,WANG Yu.Experimental study on sound preferences for dynamic waterscapes[J].Chinese Journal of Acoustics,2019,38(4):403-419.
8Juan Miao,Xin Wang,Ting-Ling Ren,Zhi-Tao Li.Prediction verification of solar cycles 18–24 and a preliminary prediction of the maximum amplitude of solar cycle 25 based on the Precursor Method[J].Research in Astronomy and Astrophysics,2020,20(1):27-34. 被引量：2
9Joao BCosta,Joana Silva-Correia,Sandra Pina,Alain da Silva Morais,Sílvia Vieira,Hélder Pereira,Joao Espregueira-Mendes,Rui LReis,Joaquim M.Oliveira.Indirect printing of hierarchical patient-specific scaffolds for meniscus tissue engineering[J].Bio-Design and Manufacturing,2019,2(4):225-241. 被引量：2
10MA Xin,TU Ran,CHENG Xudong,ZHU Shuguang,SUN Qiang,FANG Tingyong.Sub-Atmospheric Pressure Coupled with Width Effect on Downward Flame Spread over Energy Conservation Material Polyurethane Foam[J].Journal of Thermal Science,2020,29(1):115-121.

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