Details

Title

Cooling of high heat flux flat surface with nanofluid assisted convective loop: experimental assessment

Journal title

Archive of Mechanical Engineering

Yearbook

2017

Volume

vol. 64

Issue

No 4

Authors

Keywords

ZnO nanoparticles ; pressure drop ; heat transfer coefficient ; friction factor

Divisions of PAS

Nauki Techniczne

Coverage

519-531

Publisher

Polish Academy of Sciences, Committee on Machine Building

Date

2017

Type

Artykuły / Articles

Identifier

DOI: 10.1515/meceng-2017-0030 ; ISSN 0004-0738, e-ISSN 2300-1895

Source

Archive of Mechanical Engineering; 2017; vol. 64; No 4; 519-531

References

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Sarafraz (2016), Comparatively experimental study on the boiling thermal performance of metal oxide and multi - walled carbon nanotube nanofluids, Powder Technology, 11, 287, doi.org/10.1016/j.powtec.2015.10.022 ; Sarafraz (2016), Critical heat flux and pool boiling heat transfer analysis of synthesized zirconia aqueous nano - fluids in Heat and Mass Transfer, International Communications, 14, 70, doi.org/10.1016/j.icheatmasstransfer.2015.12.008 ; Sarafraz (2012), Subcooled flow boiling heat transfer of ethanol aqueous solutions in vertical annulus space Chemical Industry and Chemical, Engineering Quarterly, 21, 315, doi.org/10.2298/CICEQ111020008S ; Ghasemi (2017), Experimental and numerical investigation of circular minichannel heat sinks with various hydraulic diameter for electronic cooling application, Microelectronics Reliability, 73, doi.org/10.1016/j.microrel.2017.04.028 ; Sarafraz (2016), Heat transfer pressure drop and fouling studies of multi - walled carbon nanotube nano - fluids inside a plate heat exchanger Experimental Thermal and Fluid, Science, 15, 1, doi.org/10.1016/j.expthermflusci.2015.11.004 ; Sarafraz (null), Role of nanofluid fouling on thermal performance of a thermosyphon : Are nanofluids reliable working fluid, Applied Thermal Engineering, 19, 212, doi.org/10.1016/j.applthermaleng.2015.02.070 ; Rafati (2012), Application of nanofluids in computer cooling systems ( heat transfer performance of nanofluids, Applied Thermal Engineering, 45, 9, doi.org/10.1016/j.applthermaleng.2012.03.028 ; Sarafraz (null), Intensification of forced convection heat transfer using biological nanofluid in a double - pipe heat exchanger Experimental Thermal and Fluid expthermflusci, Science, 12, 279. ; Peyghambarzadeh (2013), Forced convective and subcooled flow boiling heat transfer to pure water and nheptane in an annular heat exchanger of, Annals Nuclear Energy, 20, 53, doi.org/10.1016/j.anucene.2012.07.037 ; Sarafraz (2012), Enhancement of nucleate pool boiling heat transfer to dilute binary mixtures using endothermic chemical reactions around the smoothed horizontal cylinder and Mass Transfer, Heat, 23, 1755. ; Sarafraz (2014), Sedimentation and convective boiling heat transfer of CuO - water ethylene glycol nanofluids Heat and Mass Transfer, null, 50, 1237. ; Rashed (2016), Investigation on the cpu nanofluid cooling, Microelectronics Reliability, 27, 159, doi.org/10.1016/j.microrel.2016.06.016 ; Bergman (2011), Fundamentals of and Transfer, Heat Mass, 30. ; Chandrasekar (2010), Experimental studies on heat transfer and friction factor characteristics of water nanofluid in a circular pipe under laminar flow with wire coil inserts Thermal and Fluid, Experimental Science, 33, 122, doi.org/10.1016/j.expthermflusci.2009.10.001 ; Sarafraz (2012), Nucleate pool boiling of aqueous solution of citric acid on a smoothed horizontal cylinder and Mass Transfer, Heat, 22, 611, doi.org/10.1007/s00231-011-0910-9 ; Sarafraz (2016), Pool boiling heat transfer to aqueous alumina nano - fluids on the plain and concentric circular micro - structured surfaces Experimental Thermal and Fluid, Science, 17, 72, doi.org/10.1016/j.expthermflusci.2015.11.001 ; Vajjha (2010), of new correlations for convective heat transfer and friction factor in turbulent regime for nanofluids of Heat and Mass Transfer, Development International Journal, 53, 21, doi.org/10.1016/j.ijheatmasstransfer.2010.06.032 ; Sarafraz (2014), Experimental study on the thermal performance and efficiency of a copper made thermosyphon heat pipe charged with alumina - glycol based nanofluids, Powder Technology, 266. ; Salari (2016), Boiling thermal performance of tio aqueous nanofluids as a coolant on a disc copper block, Polytechnica Chemical Engineering, 24, 106. ; Hu (2016), Experimental study on water - cooled thermoelectric cooler for CPU under severe environment of Refrigeration, International Journal, 62, 30, doi.org/10.1016/j.ijrefrig.2015.10.015 ; Sarafraz (2017), andV On the convective thermal performance of a CPU cooler working with liquid gallium and water nanofluid comparative study, Applied Thermal Engineering, 112, doi.org/10.1016/j.applthermaleng.2016.10.196 ; Ghasemi (2017), Forced convective heat transfer of nanofluid as a coolant flowing through a heat sink : Experimental and numerical study of Molecular Liquids, Journal, 1, doi.org/10.1016/j.molliq.2017.10.062 ; Sarafraz (2013), Experimental investigation on pool boiling heat transfer to formic acid propanol butanol pure liquids under the atmospheric pressure of Applied Fluid Mechanics, Journal, 25, 73. ; Kamalgharibi (2016), Experimental studies on the stability of cuo nanoparticles dispersed in different base fluids : influence of stirring sonication and surface active agents Heat and Mass Transfer, null, 1. ; Sarafraz (2016), Experimental investigation on the pool boiling heat transfer to aqueous multi - walled carbon nanotube nanofluids on the micro - finned surfaces, International Journal of Thermal Sciences, 16, 255, doi.org/10.1016/j.ijthermalsci.2015.10.006 ; Sarafraz (2012), Influence of thermodynamic models on the prediction of pool boiling heat transfer coefficient of dilute binary mixtures in Heat and Mass Transfer, International Communications, 26, 1303.
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