Heat transfer characteristics of nanofluid through circular tube 被引量：2

Heat transfer characteristics of nanofluid through circular tube

下载PDF

导出

摘要 Nano fluid is considered to be a class of high efficient heat transfer fluid created by dispersing some special solid nanoparticles (normally less than 100 nm) in traditional heat transfer fluid. The present experiment was conducted aiming at investigating the forced heat transfer characteristics of aqueous copper (Cu) nanofluid at varying concentration of Cu nano-particles in different flow regimes (300<Re≤16 000). The forced convective heat transfer enhancement is available both in the laminar and turbulent flow with increasing the concentration. Especially, the enhancement rate increases dramatically in laminar flow regime, for instance, the heat transfer coefficient of Cu/water nanofluid increases by two times at around Re=2 000 compared with that of base fluid water, and averagely increases by 62% at 1% volume fraction. However, the heat transfer coefficient of Cu/water decreases sharply in the transition flow regime. Furthermore, it has the trend that the heat transfer coefficient displays worse with increasing the concentration. Nano fluid is considered to be a class of high efficient heat transfer fluid created by dispersing some special solid nanoparticles （normally less than 100 nm） in traditional heat transfer fluid. The present experiment was conducted aiming at investigating the forced heat transfer characteristics of aqueous copper （Cu） nanofluid at varying concentration of Cu nano-particles in different flow regimes （300〈Re≤ 16 000）. The forced convective heat transfer enhancement is available both in the laminar and turbulent flow with increasing the concentration. Especially, the enhancement rate increases dramatically in laminar flow regime, for instance, the heat transfer coefficient of Cu/water nanofluid increases by two times at around Re=2 000 compared with that of base fluid water, and averagely increases by 62% at 1% volume fraction. However, the heat transfer coefficient of Cu/water decreases sharply in the transition flow regime. Furthermore, it has the trend that the heat transfer coefficient displays worse with increasing the concentration.

作者 WUSIMAN Ku-er-ban-jiang CHUNG Han-shik MD.J.Nine HANDRY Afrianto EOM Yoon-sub KIM Jun-hyo JEONG Hyo-min

机构地区 Department of Mechanical and Precision Engineering Department of Energy and Mechanical Engineering Division of Marine Engineering

出处《Journal of Central South University》 SCIE EI CAS 2013年第1期142-148,共7页 中南大学学报（英文版）

基金 supported by Basic Science Research Program through the National Research Foundation of Korea (NRF)funded by the Ministry of Education, Science and Technology (No.2012-0004544)

关键词 NANOFLUID heat transfer characteristic circular tube metallic particles 纳米流体传热特性循环管纳米粒子层流状态传热系数增强功能强制对流

分类号 TB383.1 [一般工业技术—材料科学与工程]

引文网络
相关文献

参考文献18

1HUNGA Yi-hsuan, TENGA Tun-ping, TENGB Tun-chien, CHENA Jyun-hong. Assessment of heat dissipation performance for nanofluid [J]. Applied Thermal Engineering, 2012, 32: 132-140. 被引量：1
2SELVAKUMAR P, SURESH S. Convective performance of CuO/water nanofluid in an electronic heat sink [J]. Experimental Thermal and Fluid Science, 2012, 40: 57-63. 被引量：1
3LEE Seung-won, PARK Sung-dae, KANG Sarah, BANG In-cheol, KIM Ji-hyun. Investigation of viscosity and thermal conductivity of SiC nanofluids for heat transfer applications [J]. International Journal of Heat and Mass Transfer, 2011, 54(1/2/3): 433-438. 被引量：1
4LIUA Min-sheng, LINB Mark Ching-Cheng, TSAIC C Y. WANG Chi-Chuan. Enhancement of thermal conductivity with Cu for nanofluids using chemical reduction method [J]. International Journal of Heat and Mass Transfer, 2006, 49(17/18): 3028-3033. 被引量：1
5杨柳,杜垲,张小松.Influence factors on thermal conductivity of ammonia-water nanofluids[J].Journal of Central South University,2012,19(6):1622-1628. 被引量：4
6ZE1NALI HERIS S, NASR ESFAHANY M, ETEMAD S G. Experimental investigation of convective heat transfer of A12O3/water nanofluid in circular tube [J]. International Journal of Heat and Fluid Flow, 2007, 28 (2): 203-210. 被引量：1
7ZEINALI HERIS S, NASR ESFAHANY M, ETEMAD S G. Investigation of CuO/water nanofluid laminar convective heat transfer through a circular tube [J]. Enhanced Heat Transfer, 2006, 13 (4): 279-289. 被引量：1
8WEN D, DING Y. Experimental investigation into convective heat transfer of nanofluids at the entrance region under laminar flow conditions. [J]. International Journal of Heat and Mass Transfer,2004, 47(24): 5181-5188. 被引量：1
9NGUYEN C T, ROY G, GAUTHIER C, GALANIS N. Heat transfer enhancement using Al2O3-water nanofluid for electronic liquid cooling system [J]. Applied Thermal Engineering, 2007, 28(8): 1501-1506. 被引量：1
10PAK B C, CHO Y I. Hydrodynamic and heat transfer study of dispersed fluids with submicron metallic oxide particles [J]. Experimental Heat Transfer, 1998, 11(2): 151-170. 被引量：1

二级参考文献3

1丰平,熊惟皓.纳米TiN粉末在水溶液和无水乙醇中的分散行为[J].过程工程学报,2005,5(1):62-65. 被引量：7
2苏风民,马学虎,陈嘉宾,张勇.双组分纳米流体导热系数研究[J].大连理工大学学报,2008,48(6):781-785. 被引量：2
3侯耀永,李理,杨静漪,杨丰科.高分散高稳定α-Al_2O_3和纳米SiC单相及混合水悬浮液的制备[J].硅酸盐学报,1998,26(2):171-177. 被引量：34

共引文献3

1Ali QASEMIAN,Faranak MORADI,Amin KARAMATI,Ali KESHAVARZ,Amin SHAKERI.Hydraulic and thermal analysis of automatic transmission fluid in the presence of nano-particles and twisted tape:An experimental and numerical study[J].Journal of Central South University,2021,28(11):3404-3417.
2石月,杨宾.水基氧化锌纳米流体的制备及其热物性能研究[J].现代化工,2023,43(5):109-114.
3江宦明,夏国栋,刘冉.γ-Al_2O_3纳米流体导热系数与稳定性影响因素分析[J].工程热物理学报,2014,35(8):1550-1553. 被引量：7

同被引文献11

1S.A.Shehzad,Tariq Hussain,T.Hayat,M.Ramzan,A.Alsaedi.Boundary layer flow of third grade nanofluid with Newtonian heating and viscous dissipation[J].Journal of Central South University,2015,22(1):360-367. 被引量：8
2M.BILAL ASHRAF,T.HAYAT,A.ALSAEDI,S.A.SHEHZAD.Convective heat and mass transfer in MHD mixed convection flow of Jeffrey nanofluid over a radially stretching surface with thermal radiation[J].Journal of Central South University,2015,22(3):1114-1123. 被引量：6
3Ahmad Azari.Thermal conductivity modeling of water containing metal oxide nanoparticles[J].Journal of Central South University,2015,22(3):1141-1145. 被引量：1
4M.Ramzan,M.Farooq,T.Hayat,A.Alsaedi,J.Cao.MHD stagnation point flow by a permeable stretching cylinder with Soret-Dufour effects[J].Journal of Central South University,2015,22(2):707-716. 被引量：2
5ABBAS Zaheer,MASOOD Tahmina,OLANREWAJU Philip Oladapo.Dual solutions of MHD stagnation point flow and heat transfer over a stretching/shrinking sheet with generalized slip condition[J].Journal of Central South University,2015,22(6):2376-2384. 被引量：3
6A.K.M Mahmudul Haque,Sunghyun Kwon,Junhyo Kim,Jungpil Noh,Sunchul Huh,Hanshik Chung,Hyomin Jeong.An experimental study on thermal characteristics of nanofluid with graphene and multi-wall carbon nanotubes[J].Journal of Central South University,2015,22(8):3202-3210. 被引量：7
7Mohamed Rafik SARI,Mohamed KEZZAR,Rachid ADJABI.Heat transfer of copper/water nanofluid flow through converging-diverging channel[J].Journal of Central South University,2016,23(2):484-496. 被引量：11
8Aurang Zaib,Krishnendu Bhattacharyya,Sharidan Shafie.Unsteady boundary layer flow and heat transfer over an exponentially shrinking sheet with suction in a copper-water nanofluid[J].Journal of Central South University,2015,22(12):4856-4863. 被引量：6
9M.Mahmoodi,Sh.Kandelousi.Kerosene-alumina nanofluid flow and heat transfer for cooling application[J].Journal of Central South University,2016,23(4):983-990. 被引量：9
10M.Ramzan,M.Bilal,Shamsa Kanwal,Jae Dong Chung.Effects of Variable Thermal Conductivity and Non-linear Thermal Radiation Past an Eyring Powell Nanofluid Flow with Chemical Reaction[J].Communications in Theoretical Physics,2017,67(6):723-731. 被引量：1

引证文献2

1Siavashi Majid,Jamali Mohammad.Optimal selection of annulus radius ratio to enhance heat transfer with minimum entropy generation in developing laminar forced convection of water-Al2O3 nanofluid flow[J].Journal of Central South University,2017,24(8):1850-1865. 被引量：23
2Hammed Abiodun OGUNSEYE,Precious SIBANDA,Hiranmoy MONDAL.MHD mixed convective stagnation-point flow of Eyring-Powell nanofluid over stretching cylinder with thermal slip conditions[J].Journal of Central South University,2019,26(5):1172-1183. 被引量：1

二级引证文献24

1奚斌,陆伟刚,周济人.偏心油套环空内失速液流水击的特性[J].扬州大学学报（自然科学版）,2017,20(4):29-32.
2Mohammad Alhuyi NAZARI,Mohammad H. AHMADI,Milad SADEGHZADEH,Mohammad Behshad SHAFII,Marjan GOODARZI.A review on application of nanofluid in various types of heat pipes[J].Journal of Central South University,2019,26(5):1021-1041. 被引量：7
3Hamid Reza TALESH BAHRAMI,Alireza AZIZI,Hamid SAFFARI.Dropwise condensation heat transfer enhancement on surfaces micro/nano structured by a two-step electrodeposition process[J].Journal of Central South University,2019,26(5):1065-1076. 被引量：4
4Abdullah A.A.A AL-RASHED,Walid HASSEN,Lioua KOLSI,Hakan F. OZTOP,Ali J. CHAMKHA,Nidal ABU-HAMDEH.Three-dimensional analysis of natural convection in nanofluid-filled parallelogrammic enclosure opened from top and heated with square heater[J].Journal of Central South University,2019,26(5):1077-1088. 被引量：1
5Majid SIAVASHI,Hamid Reza TALESH BAHRAMI,Ehsan AMINIAN,Hamid SAFFARI.Numerical analysis on forced convection enhancement in an annulus using porous ribs and nanoparticle addition to base fluid[J].Journal of Central South University,2019,26(5):1089-1098. 被引量：6
6Hamid MALEKI,Jalal ALSARRAF,Abbas MOGHANIZADEH,Hassan HAJABDOLLAHI,Mohammad Reza SAFAEI.Heat transfer and nanofluid flow over a porous plate with radiation and slip boundary conditions[J].Journal of Central South University,2019,26(5):1099-1115. 被引量：5
7Hanumesh VAIDYA,Rajashekhar CHOUDHARI,Manjunatha GUDEKOTE,Kerehalli Vinayaka PRASAD.Effect of variable liquid properties on peristaltic transport of Rabinowitsch liquid in convectively heated complaint porous channel[J].Journal of Central South University,2019,26(5):1116-1132. 被引量：1
8SELIMEFENDIGIL Fatih,OCAN CBAN Seda,OTOP Hakan F..Electrical conductivity effect on MHD mixed convection of nanofluid flow over a backward-facing step[J].Journal of Central South University,2019,26(5):1133-1145. 被引量：4
9DOGONCHI A S,CHAMKHA Ali J,HASHEMI-TILEHNOEE M,SEYYEDI S M,RIZWAN-UL-HAQ,GANJI D D.Effects of homogeneous-heterogeneous reactions and thermal radiation on magneto-hydrodynamic Cu-water nanofluid flow over an expanding flat plate with non-uniform heat source[J].Journal of Central South University,2019,26(5):1161-1171. 被引量：1
10Hammed Abiodun OGUNSEYE,Precious SIBANDA,Hiranmoy MONDAL.MHD mixed convective stagnation-point flow of Eyring-Powell nanofluid over stretching cylinder with thermal slip conditions[J].Journal of Central South University,2019,26(5):1172-1183. 被引量：1

1PERARASU V.T.,ARIVAZHAGAN M.,SIVASHANMUGAM P..HEAT TRANSFER OF TiO_2/WATER NANOFLUID IN A COILED AGITA-TED VESSEL WITH PROPELLER[J].Journal of Hydrodynamics,2012,24(6):942-950. 被引量：2
2Ta-Yu Chuang.Synthesis of the Silver Nanofluid by ASNSS Process[J].过程工程学报,2004,4(z1):449-454.
3夏立新,唐蓉华.自然循环式太阳能水系统节能改造[J].适用技术之窗,1999(6):14-14.
4Jun Cai,Xunfeng Li,Bin Liu,Xiulan Huai.Effect of cavitating flow on forced convective heat transfer: a modeling study[J].Chinese Science Bulletin,2014,59(14):1580-1590. 被引量：2
5Wei Yu Huaqing Xie Yang Li Lifei Chen.Experimental investigation on thermal conductivity and viscosity of aluminum nitride nanofluid[J].Particuology,2011,9(2):187-191. 被引量：9
6林砚田,杨先锋.具有中央加强循环管的换热器强度分析[J].武汉化工学院学报,1995,17(4):42-47.
7Tun-Ping Teng,Yi-Hsuan Hung,Ching-Song Jwo,Chien-Chih Chen,Lung-Yue Jeng.Pressure drop of TiO_2 nanofluid in circular pipes[J].Particuology,2011,9(5):486-491. 被引量：2
8Withada Jedsadaratanachai,Nuthvipa Jayranaiwachira,Pongjet Promvonge.3D numerical study on flow structure and heat transfer in a circular tube with V-baffles[J].Chinese Journal of Chemical Engineering,2015,23(2):342-349. 被引量：2
9赵晴,时文歆,于水利,吕慧,芦艳.Comparison of PVDF porous membranes modified by two different methods using composite nano-particles[J].Journal of Harbin Institute of Technology(New Series),2010,17(6):751-755.
10KANNAN K.,RUDRAMOORTHY R..EXPERIMENTAL AND NUMERICAL ANALYSIS OF LAMINAR AND LOW TURBULENT FLOW DISTRIBUTIONS IN INLET DIVIDING HEADER OF SHELL AND TUBE HEAT EXCHANGER[J].Journal of Hydrodynamics,2010,22(4):494-502. 被引量：6

Journal of Central South University

2013年第1期

浏览历史

内容加载中请稍等...