Parametric study of overall heat transfer coefficient of CuO/water nanofluids in a car radiator

International Journal of Thermal Sciences

Volumn 66, Issue , 2013, Pages 82-90

  Naraki, M ^a   Peyghambarzadeh, S M ^a   Hashemabadi, S H ^b   Vermahmoudi, Y ^a  

^a ISLAMIC AZAD UNIVERSITY   (Iran)

^b IRAN UNIVERSITY OF SCIENCE AND TECHNOLOGY   (Iran)

Author keywords

CuO; Experimental design; Nanofluid; Overall heat transfer coefficient; Radiator; Taguchi method

Indexed keywords

CAR RADIATORS; CUO; EXPERIMENTAL SYSTEM; INLET TEMPERATURE; LAMINAR FLOW REGIMES; NANOFLUIDS; OPERATING PARAMETERS; OPTIMUM VALUE; OVERALL HEAT TRANSFER COEFFICIENT; PARAMETRIC STUDY;

AUTOMOBILE RADIATORS; DESIGN OF EXPERIMENTS; HEAT TRANSFER COEFFICIENTS; LAMINAR FLOW; RADIATORS; TAGUCHI METHODS;

NANOFLUIDICS;

EID: 84872805396     PISSN: 12900729     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.ijthermalsci.2012.11.013     Document Type: Article

References (27)

1. X. Ma, F. Su, J. Chen, T. Bai, and Z. Han Enhancement of bubble absorption process using a CNTs-ammonia binary nanofluid International Communications in Heat and Mass Transfer 36 2009 657 660
2. O.N. Sara, F. İçer, S. Yapici, and B. Sahin Effect of suspended CuO nanoparticles on mass transfer to a rotating disc electrode Experimental Thermal and Fluid Science 35 2011 558 564
3. E. Nagy, T. Feczkó, and B. Koroknai Enhancement of oxygenmass transfer rate in the presence of nanosized particles Chemical Engineering Science 62 2007 7391 7398
4. P.K. Namburu, D.P. Kulkarni, D. Misra Debendra, and K. Das Viscosity of copper oxide nanoparticles dispersed in ethylene glycol and water mixture Experimental Thermal and Fluid Science 32 2007 397 402
5. 3/water nanofluid in circular tube International Journal of Heat and Fluid Flow 28 2007 203 210
6. 2-water nanofluid in a double-tube counter flow heat exchanger International Journal of Heat and Mass Transfer 52 2009 2059 2067
7. D. Kim, Y. Kwon, Y. Cho, C. Li, S. Cheong, and Y. Hwang Convective heat transfer characteristics of nanofluids under laminar and turbulent flow conditions Current Applied Physics 9 2009 119 123
8. Ulzie Rea, Tom McKrell, Lin-wen Hu, and Jacopo Buongiorno Laminar convective heat transfer and viscous pressure loss of alumina-water and zirconia-water nanofluids International Journal of Heat and Mass Transfer 52 2009 2042 2048
9. B. Farajollahi, S.Gh. Etemad, and M. Hojjat Heat transfer of nanofluids in a shell and tube heat exchanger International Journal of Heat and Mass Transfer 53 2010 12 17
10. S.M. Fotukian, and M. Nasr Esfahany Experimental study of turbulent convective heat transfer and pressure drop of dilute CuO/water nanofluid inside a circular tube International Communications in Heat and Mass Transfer 37 2010 214 219
11. Huaqing Xie, Yang Li, and Wei Yu Intriguingly high convective heat transfer enhancement of nanofluid coolants in laminar flows Physics Letters A 374 2010 2566 2568
12. K.Y. Leong, R. Saidur, S.N. Kazi, and A.H. Mamun Performance investigation of an automotive car radiator operated with nanofluid-based coolants (nanofluid as a coolant in a radiator) Applied Thermal Engineering 30 2010 2685 2692
13. 3/water nanofluid Applied Thermal Engineering 31 2011 1833 1838
14. S.M. Peyghambarzadeh, S.H. Hashemabadi, S.M. Hoseini, and M. Seifi Jamnani Experimental study of heat transfer enhancement using water/ethylene glycol based nanofluids as a new coolant for car radiators International Communications in Heat and Mass Transfer 38 2011 1283 1290
15. 3/EG and CuO/EG in a double pipe and plate heat exchangers under turbulent flow Experimental Thermal and Fluid Science 35 2011 495 502
16. K.Y. Leong, R. Saidur, T.M.I. Mahlia, and Y.H. Yau Modeling of shell and tube heat recovery exchanger operated with nanofluid based coolants International Journal of Heat and Mass Transfer 55 2012 808 816
17. M. Saeedinia, M.A. Akhavan-Behabadi, and P. Razi Thermal and rheological characteristics of CuO-base oil nanofluid flow inside a circular tube International Communications in Heat and Mass Transfer 39 2012 152 159
18. 4 magnetic nanofluid Experimental Thermal and Fluid Science 37 2012 65 71
19. J. Koo, and C. Kleinstreuer A new thermal conductivity model for nanofluids Journal of Nanoparticle Research 6 2004 577 588
20. Vasu Velagapudi, Rama Krishna Konijeti, and Chandra Sekhara Kumar Aduru Empirical correlations to predict thermophysical and heat transfer characteristics of nanofluids Thermal Science 12 2008 27 37
21. ESDU International plc., Effectiveness-NTU relationships for the design and performance evaluation of two-stream heat exchangers, ESDU Item 86018, 1991.
22. S. Vithayasai, T. Kiatsiriroat, and A. Nuntaphan Effect of electric field on heat transfer performance of automobile radiator at low frontal air velocity Applied Thermal Engineering 26 2006 2073 2078
23. E.N. Sieder, and G.E. Tate Heat transfer and pressure drop of liquids in tubes Industrial and Engineering Chemistry 28 1936 1429 1436
24. Masoud Dehghandokht, Mesbah G. Khan, Amir Fartaj, and Sepehr Sanaye Flow and heat transfer characteristics of water and ethylene glycolewater in a multi-port serpentine meso-channel heat exchanger International Journal of Thermal Sciences 50 2011 1588 1599
25. T.E. Schmidt Heat transfer calculation for extended surfaces Refrigerating Engineering 1949 351 357
26. Y. Ding, and D. Wen Particle migration in a flow of suspension of nanoparticles Powder Technology 149 2004 84 92
27. P.J.A. Hartman Kok, S.G. Kazarian, C.J. Lawrence, and B.J. Briscoe Near-wall particle depletion in a flowing colloidal suspension Journal of Rheology 46 2 2002 481 493