An exhaustive review of studies on bio-inspired convergent-divergent riblets

Abstract

Inspired by the unique textures of shark skin and bird flight feathers and tails, the convergent-divergent surface pattern holds promise in modulating boundary layer structures. This surface pattern exhibits protrusions precisely aligned obliquely (angled in the streamwise direction), often referred to as riblets. These riblets are renowned for their ability to influence the large-scale and very-large-scale structures that dominate the boundary layer. This study seeks to elucidate the influence of convergent-divergent riblets on the boundary layer, with a particular focus on the spanwise direction. We offer a review of research concerning vortex generation physics, emphasizing helicoidal and rotational motions within and adjacent to the riblet valleys. In addition, we examine research, both experimental and numerical, addressing key physical parameters of convergent-divergent riblets, including yaw angle, wavelength, viscous-scaled riblet height, fetch length, and the transition from riblets to a smooth surface. The potential for drag reduction using these bio-inspired riblets is examined. In addition, we delve into the different manufacturing techniques for convergent-divergent riblets. Finally, we discuss the possible commercial applications of the convergent-divergent design.