Hydrodynamic manipulation cloak for redirecting fluid flow

Due to fluid viscosity, marine vehicles and structures immersed in fluids are inevitably affected by various fluid resistances. To obtain an effective method to eliminate drag and achieve hydrodynamic invisibility, we propose an innovative theory, called arbitrary space transformation (AST) theory,...

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Bibliographic Details
Published in:Physics of fluids (1994) 2022-05, Vol.34 (5)
Main Authors: Pang, Haixiang, You, Yunxiang, Feng, Aichun, Chen, Ke
Format: Article
Language:English
Subjects:
Angles (geometry)
Coordinates
Drag reduction
Fluid dynamics
Fluid flow
Inflow
Organs
Visibility
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Summary:Due to fluid viscosity, marine vehicles and structures immersed in fluids are inevitably affected by various fluid resistances. To obtain an effective method to eliminate drag and achieve hydrodynamic invisibility, we propose an innovative theory, called arbitrary space transformation (AST) theory, to design hydrodynamic cloaks. This AST theory provides a strategy that enables spatial transformation between different coordinate systems, compressing arbitrary geometric space into a shell-shaped space, thereby realizing the hydrodynamic concealment and excellent drag reduction effect of arbitrary shaped target objects. The flow manipulation cloak shows outstanding performance for eliminating drag and cloaking aquatic and submerged objects under different inflow conditions. In addition, it can reduce the risk of erosion and blockage that cloaked arbitrary shaped objects or organs may encounter by shifting the angles between the inflow and the frontal surface of structures. This investigation enables a powerful means of fluid design, which will make it possible for complex geometries to be undetectable by an external observer and remain hidden in an environment filled with fluid forces.
ISSN:1070-6631
1089-7666
DOI:10.1063/5.0088996