The Influence of Surface Roughness on the Flow Fields Generated by an Oscillating Cantilever

Conway, Ciaran; Punch, Jeff

doi:10.1051/epjconf/201818002017

Cited by 2 publications

(1 citation statement)

References 14 publications

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“…They demonstrated that folded blades can increase the velocity of the air and the vorticity compared to rectangular blades. Conway and Punch 18 were the first to analyze the effect of surface roughness on the airflow induced by the fan.…”

Section: Introductionmentioning

confidence: 99%

Experimental and numerical investigations on the thermal performance over corrugated surfaces with different wave shapes induced by piezoelectric fan

Zhang

Tan

et al. 2022

Proceedings of the Institution of Mechanical Engineers, Part A:

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In this paper, the thermal performance of the corrugated surfaces cooled with a piezoelectric fan was studied. A total of 25 corrugated surfaces with different wave shapes have been tested under different Re and gap heights ( G). The results showed that only the corrugated surface with the A/ WPF of 0.167 and T/ WPF of 0.533 produces the highest Nuarea values for all conditions, which is approximately 50% higher than that of a flat surface. It is confirmed that the corrugated shape is not only conducive to promoting the development of the vortex structure but also beneficial to increase the effective heat transfer area so that the overall heat transfer is optimal. An empirical correlation for estimating Nuarea on the hot corrugated surfaces was developed which has a mean absolute deviation of 11.0% and a mean relative deviation of 0.2%, predicting 75.9% of the entire database within a ±20% band. In addition, a corresponding simulation on the flow field revealed that the gap distance between adjacent wave crests is the key to balance the increasing effective heat transfer area and promoting the development of the vortex structure.

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Section: Introductionmentioning

confidence: 99%

Experimental and numerical investigations on the thermal performance over corrugated surfaces with different wave shapes induced by piezoelectric fan

Zhang

Tan

et al. 2022

Proceedings of the Institution of Mechanical Engineers, Part A:

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The Influence of Surface Roughness on the Flow Fields Generated by an Oscillating Cantilever

Conway

Punch

2018

EPJ Web Conf.

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Abstract. With the current trend of miniaturisation of electronic devices, piezoelectric fans have attracted increasing interest as a means of inducing forced convection cooling, instead of traditional rotary solutions. Although there exists an abundance of research on various piezo-actuated flapping fans in the literature, the geometries of these fans all consist of a smooth rectangular cross section with thicknesses typically of the order of 100 µm. The focus of these studies has primarily been on variables such as frequency, amplitude and, in some cases, resonance mode. It is generally noted that the induced flow dynamics are a direct consequence of the pressure differential at the fan tip as well as the pressure driven 'over the top' vortices generated at the upper and lower edges of the fan. Rough surfaces such as golf ball dimples or vortex generators on an aircraft wing have proven to be beneficial by tripping the boundary layer and energising the adjacent airflow. This paper aims to examine the influence of surface roughness on the airflow generation of a flapping fan, and to determine if the induced wake can be manipulated or enhanced by energising the airflow around the fan tip. Particle-Image Velocimetry (PIV) is carried out on mechanically oscillated rigid fans with surfaces consisting of protruding pillars and dimples. A smooth rigid fan surface is also investigated as a control. No significant difference was noted between the smooth and roughened fans through observation of the induced flow fields. Both fans produced results that were largely consistent with the existing literature on oscillating cantilevers. The results of this paper may be used to inform the design of piezoelectric fans and to aid in understanding the complex aerodynamics inherent in flapping wing flight.

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The Influence of Surface Roughness on the Flow Fields Generated by an Oscillating Cantilever

Cited by 2 publications

References 14 publications

Experimental and numerical investigations on the thermal performance over corrugated surfaces with different wave shapes induced by piezoelectric fan

Experimental and numerical investigations on the thermal performance over corrugated surfaces with different wave shapes induced by piezoelectric fan

The Influence of Surface Roughness on the Flow Fields Generated by an Oscillating Cantilever

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