Active flow control over a sphere using a smart morphable skin
Abstract
Dimples on a sphere's surface can lead to significant drag reduction. However, the optimal dimple depth to minimize the drag varies with the Reynolds number (). In this study, a smart surface-morphing technique is devised that can adjust dimple depth based on the flow conditions to minimize drag across a wide range of values. By depressurizing the core of a rigid skeleton enclosed with a thin latex membrane, the dimple depth can be precisely controlled in response to flow velocity changes. A comprehensive series of systematic experiments are performed for Reynolds number range of , and dimple depth ratios of using the morphable sphere. It is observed that the dimple depth ratio significantly affects both the onset of the drag crisis and the minimum achievable drag. As increases, the critical Reynolds number for the drag crisis decreases. However, the minimum achievable drag coefficient decreases as increases. By carefully adjusting the to using the morphable approach, our experiments show that reductions up to 50 % can be achieved when compared to a smooth counterpart for all the considered. For a constant , drag reduces as increases. However, there is a critical threshold beyond which drag amplification starts to occur. Particle image velocimetry (PIV) reveals a delay in flow separation on the sphere's surface with increasing , causing the separation angle to shift downstream. However, when exceeds the critical threshold, flow separation moves upstream, causing an increase in drag. By using the experimental data, a control model is also developed relating optimum with to minimize drag. This model also serves as the basis for adaptive drag control of the sphere for a wide range of Reynolds number.
Cite
@article{arxiv.2405.08896,
title = {Active flow control over a sphere using a smart morphable skin},
author = {Rodrigo Vilumbrales-Garcia and Putu Brahmanda Sudarsana and Anchal Sareen},
journal= {arXiv preprint arXiv:2405.08896},
year = {2024}
}