ANALYSIS OF GEOMETRICAL PARAMETERS IN HEAT SINKS UNDER FREE CONVECTION USING DOE

In the present work, horizontal-base pin fin heat sinks exposed to free convection in air are studied. They are made of aluminum, and there is no contact resistance between the base and the fins. For the same base dimensions the fin height and pitch vary. The fins have a constant square cross-section. The edges of the sink are blocked: the surrounding insulation is flush with the fin tips. The effect of fin height and pitch on the performance of the sink is studied experimentally and numerically. In the experiments, the heat sinks are heated using foil electrical heaters. The heat input is set, and temperatures of the base and fins are measured. In the corresponding numerical study, the sinks and their environment are modeled using the Fluent 6 software. The results show that heat transfer enhancement due to the fins is not monotonic. The differences between sparsely and densely populated sinks are analyzed for various fin heights. Also assessed are effects of the blocked edges as compared to the previously studied cases where the sink edges were exposed to the surroundings.

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Reduced Order Design Optimization of Liquid Cooled Heat Sinks

Journal of Electronic Packaging ◽

10.1115/1.4052400 ◽

2021 ◽

Vol 143 (4) ◽

Author(s):

Aniket Ajay Lad ◽

Kai A. James ◽

William P. King ◽

Nenad Miljkovic

Keyword(s):

Design Optimization ◽

Power Density ◽

Building Blocks ◽

Optimization Methods ◽

Population Based ◽

Global Optimum ◽

Heat Sinks ◽

Geometrical Parameters ◽

Power Module ◽

Reduced Order

Abstract The recent growth in electronics power density has created a significant need for effective thermal management solutions. Liquid-cooled heat sinks or cold plates are typically used to achieve high volumetric power density cooling. A natural tradeoff exists between the thermal and hydraulic performance of a cold plate, creating an opportunity for design optimization. Current design optimization methods rely on computationally expensive and time consuming computational fluid dynamics (CFD) simulations. Here, we develop a rapid design optimization tool for liquid cooled heat sinks based on reduced-order models for the thermal-hydraulic behavior. Flow layout is expressed as a combination of simple building blocks on a divided coarse grid. The flow layout and geometrical parameters are incorporated to optimize designs that can effectively address heterogeneous cooling requirements within electronics packages. We demonstrate that the use of population-based searches for optimal layout selection, while not ensuring a global optimum solution, can provide optimal or near-optimal results for most of the test cases studied. The approach is shown to generate optimal designs within a timescale of 60–120 s. A case study based on cooling of a commercial silicon carbide (SiC) electronics power module is used to demonstrate the application of the developed tool and is shown to improve the performance as compared to an aggressive state-of-the-art single-phase liquid cooling solution by reducing the SiC junction-to-coolant thermal resistance by 25% for the same pressure drop.

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Thermally Optimum Natural Convection Cooled Longitudinal-Plate Heat Sinks With Horizontal Base Plates

10.1115/imece2001/htd-24375 ◽

2001 ◽

Author(s):

K. K. Sikka ◽

C. George

Keyword(s):

Natural Convection ◽

Heat Sink ◽

Base Plate ◽

Heat Sinks ◽

Geometrical Parameters ◽

Plate Heat ◽

Horizontal Orientation ◽

Fin Spacing ◽

Base Plates ◽

Weakly Dependent

Abstract Longitudinal-plate fin heat sinks are optimized under natural convection conditions for the horizontal orientation of the heat sink base plate. The thermal performance of the heat sinks is numerically modeled. The fin height, thickness and spacing and heat sink width are systematically varied. The numerical results are validated by experimentation. Results show that the thermal resistance of a heat sink minimizes for a certain number of fins on the base plate. The fin spacing-to-length ratio at which the minimum occurs is weakly dependent on the fin height and thickness and heat sink width. The flow fields reveal that the minimum occurs for the heat sink geometry in which the number of fins are maximized such that the flow velocity as the air exits the fins is fully developed. A correlation of the heat transfer with the heat sink geometrical parameters is also developed.

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The Effect of Orientation on the Performance of Small Free-Convection Heat Sinks for Use With a Thermoelectric Cryotherapy Device

Journal of Thermal Science and Engineering Applications ◽

10.1115/1.4048758 ◽

2020 ◽

Vol 13 (4) ◽

Author(s):

Mark Baldry ◽

Victoria Timchenko ◽

Chris Menictas

Keyword(s):

Free Convection ◽

Heat Sink ◽

Rapid Development ◽

Heat Sinks ◽

Convection Heat ◽

Pin Fin ◽

Flat Base ◽

Free Convection Heat ◽

Performance Decline ◽

Metal 3D Printing

Abstract The rapid development of metal 3D printing techniques has enabled the exploration of complex free-convection heat sink designs. Small free-convection heat sinks with pin-fin arrays (or novel geometries) are widely employed at different orientations in a variety of electronic devices, yet there is limited understanding of how orientation impacts their heat transfer behavior. This article characterizes the orientation-dependent performance of a small, tapered pin, free-convection heat sink (named HS17) manufactured with direct metal laser sintering for use with a thermoelectric scalp cryotherapy device for the prevention of chemotherapy-induced alopecia. A validated numerical model and custom-built free-convection test rig were used to investigate the heat sink’s performance over the orientation range of 0 deg to 135 deg. HS17 maintained relatively robust performance over the 0 deg to 90 deg range; however, the thermal resistance (Rth) at 112.5 deg and 135 deg was 6% and 11% higher compared to the 90 deg case, respectively. The heat sink design was modified to include a 22.5 deg wedge base (named HS17-W) to mitigate this performance decline, which is important to ensure safe and continued operation of the cryotherapy device. Compared to the flat base heat sink, the wedge-base design successfully reduced Rth from 11.9 K/W, 12.5 K/W, and 12.8 K/W to 11.5 K/W, 11.8 K/W, and 12.3 K/W at 90 deg, 112.5 deg, and 135 deg, respectively. These results demonstrate the effectiveness of the current proposed design to improve the performance of free-convection heat sinks at downward-facing orientations.

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Evaluation of Nusselt number and pressure drop in hexagonal and rectangular micro-channels in the presence of nano-fluids

Proceedings of the Institution of Mechanical Engineers Part E Journal of Process Mechanical Engineering ◽

10.1177/0954408920935725 ◽

2020 ◽

Vol 234 (6) ◽

pp. 665-672

Author(s):

S Emami ◽

MH Dibaei Bonab ◽

M Mohammadiun ◽

H Mohammadiun ◽

M Sadi

Keyword(s):

Heat Transfer ◽

Nusselt Number ◽

Pressure Drop ◽

Cross Section ◽

Rectangular Cross Section ◽

Heat Sinks ◽

Nano Particles ◽

Geometrical Parameters ◽

Micro Channels ◽

Nano Fluids

Few papers investigated the effect of different nano-fluids and geometrical parameters of the micro channels on the performance of heat sinks. In this study, Nusselt number and pressure drop are investigated in differential geometry and Reynolds numbers. Then the effect of the micro-channel is studied for different heat flux. The results show that hexagonal micro-channels represents a better performance than the rectangular and the heat transfer of without using nano-particles in the hexagonal cross-section is about 9% higher than the rectangular cross-section and with the presence of nanoparticles (Al2O3 - CUO- TiO2, φ = 4%), heat transfer is about 30 to 40% higher than the base liquid.

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Experimental Investigation of Free Convection from Foam Heat Sinks in an Inclined Rectangular Channel

Cumhuriyet Science Journal ◽

10.17776/csj.418688 ◽

2018 ◽

Author(s):

Ayla DOĞAN ◽

Oğuzhan Özbalcı

Keyword(s):

Experimental Investigation ◽

Free Convection ◽

Rectangular Channel ◽

Heat Sinks

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Numerical thermal performance of free convection in metal foam heat sinks with fin edges

University of Thi-Qar Journal for Engineering Sciences ◽

10.31663/tqujes.11.1.375(2020) ◽

2020 ◽

Author(s):

Aqeel Mtasher Uglah ◽

Abbas J. Jubear

Keyword(s):

Free Convection ◽

Thermal Performance ◽

Metal Foam ◽

Heat Sinks

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Transient Numerical Analysis of Free Convection in Cylindrical Enclosure

MATEC Web of Conferences ◽

10.1051/matecconf/202030701029 ◽

2020 ◽

Vol 307 ◽

pp. 01029

Author(s):

Mohamed Amine Medebber ◽

Nourddine Retiel ◽

belkacem Ould said ◽

Abderrahmane Aissa ◽

Mohammed El Ganaoui

Keyword(s):

Free Convection ◽

Vertical Wall ◽

Vertical Cylinder ◽

Geometrical Parameters ◽

Uniform Temperature ◽

Governing Equations ◽

Simpler Algorithm ◽

Prandtl Numbers ◽

Volume Method ◽

Rayleigh Numbers

A transient two dimensional study of free convection in a vertical cylinder partially annulus is conducted numerically. Uniform temperature is imposed cross a vertical wall, while the top and bottom walls are adiabatic. The governing equations are solved numerically by using a finite volume method. The coupling between the continuity and momentum equations is effected using the SIMPLER algorithm. Solutions have been obtained for Prandtl numbers equal to 7.0, Rayleigh numbers of 103to 106and height ratios 0.5. The influence of physical and geometrical parameters on the isotherms, velocity fields, average Nusselt has been numerically investigated.

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