Jesús María Blanco Ilzarbe scite author profile

This study characterized the morphology, density and orientation of the dermal denticles along the body of a shortfin mako shark Isurus oxyrinchus and identified the hydrodynamic parameters of its body through a computational fluid-dynamics model. The study showed a great variability in the morphology, size, shape, orientation and density of dermal denticles along the body of I. oxyrinchus. There was a significant higher density in dorsal and ventral areas of the body and their highest angular deviations were found in the lower part of the mouth and in the areas between the pre-caudal pit and the second dorsal and pelvic fins. A detailed three-dimensional geometry from a scanned body of a shark was carried out to evaluate the hydrodynamic properties such as drag coefficient, lift coefficient and superficial (skin) friction coefficient of the skin together with flow velocity field, according to different roughness coefficients simulating the effect of the dermal denticles. This preliminary approach contributed to detailed information of the denticle interactions. As the height of the denticles was increased, flow velocity and the effect of lift decreased whereas drag increased. The highest peaks of skin friction coefficient were observed around the pectoral fins.

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Optimizing the design of a two-phase cooling system loop heat pipe: Wick manufacturing with the 3D selective laser melting printing technique and prototype testing

Esarte¹,

Ilzarbe²,

Bernardini³

et al. 2017

Applied Thermal Engineering

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Energy assessment and optimization of perforated metal sheet double skin façades through Design Builder; A case study in Spain

Ilzarbe

Buruaga

Rojí

et al. 2016

Energy and Buildings

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Investigating the thermal behavior of double-skin perforated sheet façades: Part A: Model characterization and validation procedure

Ilzarbe

Arriaga

Rojí

et al. 2014

Building and Environment

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