Remotely operated underwater vehicles (ROVs) are being extensively used in marine industry for exploration, pollution control, and military applications. With time ROVs have become smaller, less expensive, reliable and practical for small scale use. This paper presents the design of a compact low-cost ROV for river exploration with a modular structure. The ROV is neutrally buoyant which increases its efficiency. The ROV uses three thrusters for its movement inside water and has 3 degrees of freedom (DOF). A detailed 3D model is developed using SOLIDWORKS and stress analysis has been carried out to ensure it will not fail under hydrodynamic pressure. Hydrodynamic characteristics are studied using ANSYS FLUENT, which helps in determining the maximum thrust required for the vehicle propulsion and the maximum achievable velocity. The prototype is manufactured with glass fiber composite and fitted with different electronics components, sensors, and battery. The field test of the ROV is carried out in a controlled underwater environment.
[1]
Takao Sawa,et al.
Development of 7000m work class ROV “KAIKO Mk-IV”
,
2016,
OCEANS 2016 MTS/IEEE Monterey.
[2]
Robert S. McEwen,et al.
Automating MBARI's midwater time-series video surveys: The transition from ROV to AUV
,
2016,
OCEANS 2016 MTS/IEEE Monterey.
[3]
Martin Ludvigsen,et al.
Automatic relative motion control and photogrammetry mapping on steep underwater walls using ROV
,
2016,
OCEANS 2016 MTS/IEEE Monterey.
[4]
N. Nowald,et al.
MARUM-Squid - a powerful, yet compact 2000 m ROV system designed for marine research operations from smaller vessels
,
2016,
OCEANS 2016 MTS/IEEE Monterey.