2018
DOI: 10.3390/en12010056
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Torque Analysis of a Flat Reconfigurable Magnetic Coupling Thruster for Marine Renewable Energy Systems Maintenance AUVs

Abstract: The concept of reconfigurable magnetic coupling thrusters (RMCT) applied to the vectorial thrust of autonomous underwater vehicles (AUV) has been recently developed and presented. This technology ensures greater robot watertightness with enhanced maneuvering capabilities, which are desired features in agile AUVs for marine renewable energy (MRE) system maintenance. It is possible since in RMCTs the driving torque is magnetically transmitted to the propeller, which has its orientation changed. This work is focu… Show more

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Cited by 9 publications
(4 citation statements)
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“…A recent development in this field involves the implementation of reconfigurable magnetic coupling thrusters in the vectorial thrust of autonomous underwater vehicles. This technology offers improved water-tightness and enhanced maneuvering capabilities, which are highly desirable features in agile underwater vehicles used for visual inspection and maintenance of TSTs [43,44]. While the concept shows great promise, it is important to develop viable submersible prototypes that feature full waterproof mechanisms in order to effectively implement the technology.…”
Section: Biofouling Detection and Estimationmentioning
confidence: 99%
“…A recent development in this field involves the implementation of reconfigurable magnetic coupling thrusters in the vectorial thrust of autonomous underwater vehicles. This technology offers improved water-tightness and enhanced maneuvering capabilities, which are highly desirable features in agile underwater vehicles used for visual inspection and maintenance of TSTs [43,44]. While the concept shows great promise, it is important to develop viable submersible prototypes that feature full waterproof mechanisms in order to effectively implement the technology.…”
Section: Biofouling Detection and Estimationmentioning
confidence: 99%
“…To create a torque between rotors, it is necessary to create a misalignment between them, with θ l = θ m . This behaviour makes the magnetic coupling working as a non-linear torsional spring, which allows naming the difference between θ l and θ m as the magnetic spring angle θ [101]. Sometimes, θ is defined as the relative mechanical displacement angle [102].…”
Section: Advances In Reconfigurable Magnetic Couplingsmentioning
confidence: 99%
“…A further torque analysis of this F-RMC is addressed in [101]. It states that, when α = 0°we have classical magnetic couplings (parallel rotors axes).…”
Section: Advances In Reconfigurable Magnetic Couplingsmentioning
confidence: 99%
“…As far as most available AUVs, propulsion systems can be classified into three kinds: Propeller propulsion, biomimetic propulsion and vectorial propulsion [8,9]. In this paper, our team focuses on vectorial propulsion system because it outperforms the others in excellent steering ability.…”
Section: Introductionmentioning
confidence: 99%