Publication:
Liquid cooling applications on automotive exterior LED lighting

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Date

2018

Authors

Aktaş, Mehmet
Kılıç, Muhsin

Authors

Şenyüz, Tunç
Şenyıldız, Teoman
Akkus, B.
Öktem, Y
Çilli, A.
Güzelçimen, F.
Doğan, G. S.

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Amer Inst Physics

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Abstract

In this study cooling of a LED unit with heatsink and liquid cooling block which is used in automotive head lamp applications has been investigated numerically and experimentally. Junction temperature of a LED which is cooled with heatsink and liquid cooling block obtained in the experiment. 23 degrees C is used both in the simulation and the experiment phase. Liquid cooling block material is choosed aluminium (Al) and polyamide. All tests and simulation are performed with three different flow rate. Temperature distribution of the designed product is investigated by doing the numerical simulations with a commercially software. In the simulations, fluid flow is assumed to be steady, incompressible and laminar and 3 dimensional (3D) Navier-Stokes equations are used. According to the calculations it is obtained that junction temperature is higher in the heatsink design compared to block cooled one. By changing the block material, it is desired to investigate the variation on the LED junction temperature. It is found that more efficient cooling can be obtained in block cooling by using less volume and weight. With block cooling lifetime of LED can be increased and flux loss can be decreased with the result of decreased junction temperature.

Description

Bu çalışma, 06-10, Eylül 2017 tarihlerinde Bodrum[Türkiye]’de düzenlenen 33. International Physics Congress of the Turkish-Physical-Society (TPS) Kongresi‘nde bildiri olarak sunulmuştur.

Keywords

Physics

Citation

Akkuş, B. vd. (2018). ''Liquid cooling applications on automotive exterior LED lighting''. ed. M. Aktaş vd. AIP Conference Proceedings, Turkish Physical Society 33. International Physics Congress, (TPS 33), 1935.

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