Experimental Investigation of the Effect of Waves, Ventilation and Cavitation in Bollard Pull Conditions

AuthorsG. Hagesteijn and J. Brouwer
Conference/JournalOMAE ASME 32nd International Conference on Ocean, Offshore and Arctic Engineering
DateJun 14, 2013

Ventilation is a feared working condition of ship propulsors, especially in Dynamic Positioning operation, since it leads to the lost of thrust of the propeller resulting into an uncontrollable ship. Experience showed that the risk of ventilating propellers was negligently underestimated in traditional towing tank experiments but better predicted in depressurised towing tanks, where the ambient pressure is scaled down according to Froude similarity.In 2012 MARIN's Depressurized Wave Basin (DWB) has taken into service. This unique facility is the only one in the world that is able to generate waves in a large depressurized towing tank. This ensures correct representation of the pressure inside the enclosed ventilation bubbles and vortices, resulting into a correct physic behaviour. The EU-funded Streamline project was the first project for which ventilation inception measurements were carried out in the DWB. Tests were carried out with a fully instrumented podded ship model, sailing and in bollard pull condition, in waves and depressurised conditions.In order to acquire detailed load measurements, MARIN used their in house developed 6 component and 5 component transducers.

sustainable propulsionwaves, impacts and hydrostructuralmeasurements and controldata scienceresistance and propulsionmarine systemsdefencepassengers and yachtingtransport and shippingmodel testingcavitationbollard pulldepressurised wave basindwbwaves