Numerical study on hydraulic and thermal characteristics of a minichannel heat sink with impinging air flow

Beriache, M’hamed; Bettahar, A.; Loukarfi, L.; Saidia, L. Mokhtar; Naji, Hassane

doi:10.5755/j01.mech.17.2.331

Cited by 3 publications

(3 citation statements)

References 14 publications

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“…Velocity reaches 1 m/s in the distance of 0.02-0.03 m from vertical surface and about 0.6 m/s closer to it. Analogous results to this present Berianche at al [10]. Authors give the thermovisional image of simulated velocities of about 0.5 m/s at small cross-flow areas of a heat exchan-ger.…”

Section: Numerical Calculationssupporting

confidence: 79%

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Influence of Surrounding Space on Heat Transfer Effectiveness of Refrigerator’s Condenser

Dagilis

Hofmanas

2012

mech

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Section: Numerical Calculationssupporting

confidence: 79%

“…Other studies [9,10] demonstrated a numerical simulation of the space influence on effectiveness of natural and forced convection. Authors [9] have used the method of calculations reported in the previous papers [1,2] and have compared the theoretical result with experimental one made by authors [9] as well.…”

Section: Previous Studiesmentioning

confidence: 99%

Influence of Surrounding Space on Heat Transfer Effectiveness of Refrigerator’s Condenser

Dagilis

Hofmanas

2012

mech

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“…This situation resulted in a steady increase in the generated heat [1][2][3][4]. As a result, getting rid of excess heat and enabling electronic chips to operate under safe temperatures has become a vital solution in operating electronic components in a reliable and safe manner [5,6]. The standard cooling techniques used today are sometimes insufficient because of the lack of optimization of the various parameters involved in the cooling process.…”

Section: Introductionmentioning

confidence: 99%

Heat Transfer Enhancement through Different Heat Sink/Impinging Air Jet Parameters an Experimental Approach

Beriache¹,

Cherki²,

Saïdia³

et al. 2023

mech

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In the present work, enhancement of the thermal performance of a central processor unit (CPU) cooling system through a heat sink subjected to an impinging air jet is realized. The height of the impinging air jet duct, the mode of air flow on the heat sink, air blowing mode and as well as the suction blow mode "pull" and the air jet duct geometry are three important influence parameters on the phenomenon. The results obtained show that a jet height H = 20mm, a convergent duct of H = 40mm in height and a hair dryer tip provide further improvement of the cooling technique. The two preceding parameters combined with the fan air suction blow mode improve the performance by at least 11,2% compared to the initial configuration (marketed product), having as characteristics (H = 0mm, fan in the blowing push mode). The use of a converging duct and a hair dryer conduit show that the velocities from the hair dryer tip far exceed those from the best standard conduit height, H=20 mm. That said, the improvement of the flow in the central zone is substantially achieved, which consequently improves the heat removal in this zone at least 19%.

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Heat Transfer Between the Non-Standard Tube Bundle and Statically Stable Foam Flow

Gylys

Zdankus

Ingilertas

et al. 2012

mech

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NomenclatureA -cross section area of experimental channel, m 2 ; d -outside diameter of tube, m; G -volumetric flow rate, m 3 /s; h -average coefficient of heat transfer, W/(m 2 K); k, m, n -coefficients; Nu -Nusselt number; q -heat flux density, W/m 2 ; Re -Reynolds number; T -average temperature, K;  -volumetric void fraction;  -thermal conductivity, W/(mK);  -kinematic viscosity, m 2 /s.

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Numerical study on hydraulic and thermal characteristics of a minichannel heat sink with impinging air flow

Cited by 3 publications

References 14 publications

Influence of Surrounding Space on Heat Transfer Effectiveness of Refrigerator’s Condenser

Influence of Surrounding Space on Heat Transfer Effectiveness of Refrigerator’s Condenser

Heat Transfer Enhancement through Different Heat Sink/Impinging Air Jet Parameters an Experimental Approach

Heat Transfer Between the Non-Standard Tube Bundle and Statically Stable Foam Flow

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