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Amer Al-Damook
Researcher at University of Anbar
Publications - 27
Citations - 488
Amer Al-Damook is an academic researcher from University of Anbar. The author has contributed to research in topics: Heat sink & Heat transfer. The author has an hindex of 9, co-authored 20 publications receiving 327 citations. Previous affiliations of Amer Al-Damook include University of Leeds.
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An experimental and computational investigation of thermal air flows through perforated pin heat sinks
TL;DR: The benefits of using pin fin heat sinks with multiple perforations using complementary experimental and Computational Fluid Dynamics (CFD) methods were investigated by as mentioned in this paper, which showed that the effect of perforated pin fin design on heat transfer and pressure drops across the heat sinks was found to agree with predictions from a CFD model for the conjugate heat transfer into the cooling air stream.
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Computational design and optimisation of pin fin heat sinks with rectangular perforations
TL;DR: In this article, the benefits of using pin heat sinks (PHSs) with single, rectangular slotted or notched pin perforations, were explored computationally, using a conjugate heat transfer model.
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Experimental evaluation of an unglazed solar air collector for building space heating in Iraq
Amer Al-Damook,Wissam H. Khalil +1 more
TL;DR: In this article, the benefits of using an unglazed solar air collector with a perforated absorber plate (PAP) are experimentally and theoretically investigated to evaluate this kind of collector under western Iraq climate conditions.
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A numerical investigation of the thermal-hydraulic characteristics of perforated plate fin heat sinks
TL;DR: In this paper, the benefits of using notch, slot and multiple circular perforations in plate fin heat sinks (PFHSs) were investigated numerically, using a conjugate heat transfer model.
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A numerical investigation of thermal airflows over strip fin heat sinks
TL;DR: In this paper, the benefits of using strip fin heat sinks (SFHSs) where the cross-sectional aspect ratio of the fins lie between those for plate fins (high aspect ratio) and pin fins (aspect ratio ≤ 1) were explored computationally, using a conjugate heat transfer model.