Dutch Ministry of Defence chooses sustainability with Sonihull Ultrasonic Anti-Fouling system
Lamers System Care recently installed the Sonihull Ultrasonic Anti-Fouling system on 11 landing-craft vessels for the Dutch Ministry of Defence, to keep them permanently free from algae, weeds and other bio-fouling.
The Royal Dutch Navy, along with its worldwide fleet and personnel, is committed to maritime safety and the protection of the marine environment. So, with sustainability in mind, the Ministry of Defence has chosen Sonihull’s ultrasonic system to provide an environmentally-safe solution for the antifouling of its landing craft.
A Landing Craft Vehicle Personnel (LCVP) is a small vessel designed for the transportation of vehicles or personnel. The type MkV (c) can transport up to 35 fully-equipped personnel. The LCVPs are stationed in a protected nature reserve. As a result, antifouling coatings that contain toxic chemicals cannot be applied to the ship’s hull, in case harmful substances end up in the nature reserve’s water.
Because traditional biocide-based antifouling can’t be used, the ships’ hulls are colonised by algae, weeds, barnacles and other bio-fouling very rapidly. This growth on the LCVPs results in increased fuel-consumption, reduced speed, damage to the hull and reduced lifespan of the vessel, which is not desirable.
The Sonihull ultrasonic antifouling system creates microscopic ultrasound-induced cavitation on the surface of the vessels. This disrupts the first stages of the food chain, without damaging the surface being protected. The action prevents the build-up of algae, slime and bigger more complex organisms on surfaces where biofouling is not wanted. The system is silent and the movement of water on the protected surface also prevents the adhesion of juvenile barnacles and mussels.
Each of the LCVP units has one Sonihull DUO system, which consists of a control box and two transducers. The transducers are installed on the inside of the vessels to protect the hull from fouling. Instead of the standard composite transducer rings that are glued in place, aluminium mounting rings were used. The rings were bonded to the aluminium hull using a 2-part epoxy resin. The Dutch Ministry of Defence opted for aluminium rings, so that it is possible to weld the rings to the hull if they ever need to be re-located.
The control boxes are connected to both the 220 VAC (shore power) and the 24 VDC, so that the systems remain active 24/7. Due to the extremely low energy consumption (7.2 Watt per transducer), this has no significant impact on the vessels’ energy management.
The Sonihull ultrasonic antifouling system is a preventive, environmentally-friendly and sustainable system with low energy consumption. For this reason, this system fits perfectly with the sustainable goals of the Ministry of Defence and the Royal Dutch Navy. The Lamers System Care team is very pleased to be able to contribute to this sustainability.
Currently, 95% of all antifouling systems rely on the release of toxins into the environment – this is not environmentally sustainable. The clock is ticking because the world is legislating towards ‘zero harm’ solutions. Sonihull technology has zero biocides, zero poisons are leached into the oceans, zero microplastics are shed from ablative coatings and it has zero impact on other marine life.
Microscopic ultrasound-induced cavitation disrupts the first stages of the food chain without damaging the surface being protected. This action prevents the build-up of algae, slime and bigger more complex organisms on surfaces where biofouling is not wanted. The system is silent and the movement of water on the protected surface prevents the adhesion of juvenile barnacles and mussels.
You might be also be interested in
Protect your vessel
Sonihull’s mission is to deliver environmentally safe, cost effective antifouling wherever unwanted bio-fouling persists. Our vision is:
To make dosing the oceans with poisonous biocides and microplastics a thing of the past
To deliver effective antifouling systems using the power of ultrasound
To save the oceans, one ship at a time