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Heat Transfer Engineering Volume 35, 2014 - Issue 1
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Heat Transfer and Friction Factor With Water/Propylene Glycol-Based CuO Nanofluid in Circular Tube with Helical Inserts Under Transition Flow Regime

Malavath Thavaraya Naik Centre for Energy Studies, College of Engineering, JNT University Hyderabad, Hyderabad, India
&
Lingala Syam Sundar Nanotechnology Research Division, Department of Mechanical Engineering, University of Aveiro, Aveiro, Portugal
Pages 53-62 | Published online: 14 Aug 2013

REFERENCES

  • Ahuja , A. S. 1975 . Augmentation of Heat Transport in Laminar Flow of Polystyrene Suspension: Experiments and Results . Journal of Applied Physics , 46 : 3408 – 3416 .
  • Choi , S. U. S. 1995 . “ Enhancing Thermal Conductivity of Fluid With Nanoparticles ” . In Developments and Applications of Non-Newtonian Flows , Edited by: Siginer , D. A. and Wang , H. P. 99 – 105 . New York : ASME . D. A. Singer and H. P. Wang, FED-V.231/ MD-V.66
  • Masuda , H. , Ebata , A. , Teramae , K. and Hishinuma , N. 1993 . Alteration of Thermal Conductivity and Viscosity of Liquid by Dispersing Ultra-Fine Particles (Dispersion of γ-Al2O3, SiO2 and TiO2 Ultra-Fine Particles) . Netsu Bussei (in Japanese) , 4 ( 4 ) : 227 – 233 .
  • Lee , S. , Choi , S. U. S. , Li , S. and Eastman , J. A. 1999 . Measuring Thermal Conductivity of Fluids Containing Oxide Nanoparticles . Journal of Heat Transfer , 121 : 208 – 219 .
  • Wang , X. , Xu , X. and Choi , S. U. S. 1999 . Thermal Conductivity of Nanoparticles–Fluid Mixture . Journal of Thermophysics and Heat Transfer , 13 ( 4 ) : 474 – 480 .
  • Eastman , J. A. , Choi , S. U. S. , Li , S. , Soyez , G. , Thompson , L. J. and DiMelfi , R. J. 1999 . Novel Thermal Properties of Nanostructured Materials . Journal of Metastable Nanocrystal Materials , 2 ( 6 ) : 629 – 634 .
  • Eastman , J. A. , Choi , S. U. S. , Li , S. , Yu , W. and Thompson , L. J. 2001 . Anomalously Increase Effective Thermal Conductivities of Ethylene Glycol-Based Nanofluids Containing Copper Nanoparticles . Applied Physics Letters , 78 ( 6 ) : 718 – 720 .
  • Das , S. K. , Putra , N. , Thiesen , P. and Roetzel , W. 2003 . Temperature Dependence of Thermal Conductivity Enhancement for Nanofluids . Journal of Heat Transfer , 125 : 567 – 574 .
  • Xuan , Y. and Li , Q. 2003 . Investigation on Convective Heat Transfer and Flow Features of Nanofluids . Journal of Heat Transfer , 125 : 151 – 155 .
  • Wen , D. and Ding , Y. 2004 . Experimental Investigation Into Convective Heat Transfer of Nanofluid at the Entrance Region Under Laminar Flow Conditions . International Journal of Heat and Mass Transfer , 47 ( 24 ) : 5181 – 5188 .
  • Heris , S. Z. , Esfahany , M. N. and Etemad , S. G. 2007 . Experimental Investigation of Convective Heat Transfer of Al2O3/Water Nanofluid in Circular Tube . International Journal of Heat and Fluid Flow , 28 : 203 – 210 .
  • Pak , B. C. and Cho , Y. I. 1998 . Hydrodynamic and Heat Transfer Study of Dispersed Fluids With Submicron Metallic Oxide Particles . Experimental Heat Transfer , 11 : 151 – 170 .
  • Fotukian , S. M. and Esfahany , M. N. 2010 . 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 ( 2 ) : 214 – 219 .
  • Fotukian , S. M. and Esfahany , M. N. 2010 . Experimental Investigation of Turbulent Convective Heat Transfer of Dilute γ-Al2O3/Water Nanofluid Inside a Circular Tube . International Journal of Heat and Fluid Flow , 31 ( 4 ) : 606 – 612 .
  • Duangthongsuk , W. and Wongwises , S. 2009 . Heat Transfer Enhancement and Pressure Drop Characteristics of TiO2–Water Nanofluid in a Double-Tube Counter Flow Heat Exchanger . International Journal of Heat and Mass Transfer , 52 ( 7–8 ) : 2059 – 2067 .
  • Ho , C. J. , Wei , L. C. and Li , Z. W. 2010 . An Experimental Investigation of Forced Convective Cooling Performance of a Microchannel Heat Sink With Al2O3/Water Nanofluid . Applied Thermal Engineering , 30 ( 2–3 ) : 96 – 103 .
  • Putra , N. , Roetzel , W. and Das , S. K. 2003 . Natural Convection of Nanofluids . Heat and Mass Transfer , 39 ( 8 ) : 775 – 784 .
  • Palm , S. J. , Roy , G. and Nguyen , C. T. 2004 . “ Heat Transfer Enhancement in Radial Flow Cooling System-Using Nanofluid ” . In Proceedings of the ICHMT International Symposium on Advances in Computational Heat Transfer 104 – 121 . Norway
  • Roy , G. , Nguyen , C. T. and Lajoie , P. R. 2004 . Numerical Investigation of Laminar Flow and Heat Transfer in a Radial Flow Cooling System With the Use of nanofluids . Superlattices and Microstructures , 35 ( 3 ) : 497 – 511 .
  • Maiga , S. E. B. , Palm , S. J. , Nguyen , C. T. , Roy , G. and Galanis , N. 2005 . Heat Transfer Enhancement by Using Nanofluids in Forced Convection Flows . International Journal of Heat and Fluid Flow , 26 : 530 – 546 .
  • Akbari , M. , Behzadmehr , A. and Shahraki , F. 2008 . Fully Developed Mixed Convection in Horizontal and Inclined Tubes With Uniform Heat Flux Using Nanofluid . International Journal of Heat and Fluid Flow , 29 ( 20 ) : 545 – 556 .
  • Namburu , P. K. , Das , D. K. , Tanguturi , K. M. and Vajjha , R. K. 2009 . Numerical Study of Turbulent Flow and Heat Transfer Characteristics of Nanofluids Considering Variable Properties . International Journal of Thermal Sciences , 48 ( 2 ) : 290 – 302 .
  • Fard , M. H. , Esfahany , M. N. and Talaie , M. R. 2010 . Numerical Study of Convective Heat Transfer of Nanofluids in a Circular Tube Two-Phase Model Versus Single-Phase Model . International Communications in Heat and Mass Transfer , 37 ( 1 ) : 91 – 97 .
  • Sharma , K. V. , Sundar , L. S. and Sarma , P. K. 2009 . Estimation of Heat Transfer Coefficient and Friction Factor in the Transition Flow With Low Volume Concentration of Al2O3 Nanofluid Flowing in a Circular Tube and With Twisted Tape Insert . International Communications in Heat and Mass Transfer , 36 : 503 – 507 .
  • Sundar , L. S. and Sharma , K. V. 2010 . Turbulent Heat Transfer and Friction Factor of Al2O3 Nanofluid in Circular Tube With Twisted Tape Inserts . International Journal of Heat and Mass Transfer , 53 : 1409 – 1416 .
  • Sundar , L. S. and Sharma , K. V. 2010 . Heat Transfer Enhancements of Low Volume Concentration Al2O3 Nanofluid and With Longitudinal Strip Inserts in a Circular Tube . International Journal of Heat and Mass Transfer , 53 ( 19–20 ) : 4280 – 4286 .
  • Chandrasekar , M. , Suresh , S. and Chandra Bose , A. 2010 . Experimental Studies on Heat Transfer and Friction Factor Characteristics of Al2O3/Water Nanofluid in a Circular Pipe Under Laminar Flow With Wire Coil Inserts . Experimental Thermal and Fluid Science , 34 ( 2 ) : 122 – 130 .
  • Chandrasekar , M. , Suresh , S. and Chandra Bose , A. 2011 . Experimental Studies on Heat Transfer and Friction Factor Characteristics of Al2O3/Water Nanofluid in a Circular Pipe Under Transition Flow With Wire Coil Inserts . Heat Transfer Engineering , 32 ( 6 ) : 485 – 496 .
  • Pathipakka , G. and Sivashanmugam , P. 2010 . Heat Transfer Behaviour of Nanofluids in a Uniformly Heated Circular Tube Fitted With Helical Inserts in Laminar Flow . Superlattices and Microstructures , 47 ( 2 ) : 349 – 360 .
  • Naik , M. T. , Janardhana , G. R. , Reddy , K. V. K. and Reddy , B. S. 2010 . Experimental Investigation Into Rheological Property of Copper Oxide Nanoparticles Suspended in Propylene Glycol-Water Based Fluids . ARPN Journal of Engineering and Applied Sciences , 5 ( 6 ) : 29 – 34 .
  • Naik , M. T. and Janardhana , G. R. 2010 . Temperature Dependent Thermal Conductivity Enhancement of Copper Oxide Nanoparticles Dispersed in Propylene Glycol-Water Base Fluid . International Journal of Nanoparticles , 3 ( 2 ) : 149 – 159 .
  • Gnielinski , V. 1976 . New Equations for Heat and Mass Transfer in Turbulent Pipe and Channel Flow . International Chemical Engineering , 16 : 359 – 368 .
  • Tam , L. M. and Ghajar , A. J. 2006 . Transitional Heat Transfer in Plain Horizontal Tubes . Heat Transfer Engineering , 27 ( 5 ) : 23 – 38 .
  • Blasius , H. 1908 . Grenzschichten in Flussigkeiten mit kleiner Reibung (German) . Z. Mathematisch Physische , 56 : 1 – 37 .
  • Beckwith , T. G. , Marangoni , R. D. and Lienhard , L. H. 1990 . Mechanical Measurements, , 5th ed. , 45 – 112 . New York , NY : Addison–Wesley .

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