English

Active flow control over a sphere using a smart morphable skin

Fluid Dynamics 2024-05-16 v1

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 (ReRe). 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 ReRe 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 6×104Re1.3×1056\times10^4 \leq Re \leq 1.3\times10^5, and dimple depth ratios of 0k/d2×1020 \leq k/d \leq 2\times10^{-2} using the morphable sphere. It is observed that the dimple depth ratio k/dk/d significantly affects both the onset of the drag crisis and the minimum achievable drag. As k/dk/d increases, the critical Reynolds number for the drag crisis decreases. However, the minimum achievable drag coefficient decreases as k/dk/d increases. By carefully adjusting the k/dk/d to ReRe using the morphable approach, our experiments show that CDC_D reductions up to 50 % can be achieved when compared to a smooth counterpart for all the ReRe considered. For a constant ReRe, drag reduces as k/dk/d 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 k/dk/d, causing the separation angle to shift downstream. However, when k/dk/d 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 k/dk/d with ReRe to minimize drag. This model also serves as the basis for adaptive drag control of the sphere for a wide range of Reynolds number.

Keywords

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}
}
R2 v1 2026-06-28T16:27:28.278Z