Flow Around an Autonomous Underwater Vehicle With Bio-Inspired Coating

Scott Watkins; Jose Montoya-Segnini; Burak Aksak; Serdar Gorumlu; Amirkhosro Kazemi; Oscar Curet; Humberto Bocanegra Evans; Leonardo Chamorro; Gerardo Carbajal; Luciano Castillo


Flow Around an Autonomous Underwater Vehicle With Bio-Inspired Coating
Published in:	Innovation in Education and Inclusion : Proceedings of the 16th LACCEI International Multi-Conference for Engineering, Education and Technology
Date of Conference:	July 18-20, 2018
Location of Conference:	Lima, Perú
Authors:	Scott Watkins (Texas Tech University, US) Jose Montoya-Segnini (Purdue University, US) Burak Aksak (Texas Tech University, US) Serdar Gorumlu (Texas Tech University, US) Amirkhosro Kazemi (Florida Atlantic University, US) Oscar Curet (Florida Atlantic University, US) Humberto Bocanegra Evans (Texas Tech University, US) Leonardo Chamorro (University of Illinois at Urbana–Champaign, US) Gerardo Carbajal (Universidad del Turabo, PR) Luciano Castillo (Purdue University, US)
Full Paper:	#505

Abstract: Flow separation is a major factor in the form drag experienced by a moving object. In particular, suppressing or reducing flow separation is critical in the reduction of energy expenditure of autonomous underwater vehicles. Previous research suggests that bio-inspired micro-fibrillar structures are capable of reducing the boundary layer separation in a turbulent flow. Here, we present laboratory measurements using particle tracking velocimetry near the wall of two submersible vessel models: one coated with an array of micro-fibers and a second one with smooth walls. The flow around the vessels was enticed by the ordered fibers to remain closer to the wall of the vessel. The experiments suggest that separation of the flow may be reduced by the use of the bio-inspired fibers.

Flow Around an Autonomous Underwater Vehicle With Bio-Inspired Coating

Abstract: