Propulsion system can experience large power absorption fluctuations during tight maneuvers. In the case of a turning circle manoeuvre for a twin-screw ship, the power required by the two shaft lines can be completely different; in case of non conventional propulsion system, like cross-connect configurations, a compromise must be met in order to design a safe control system without affecting dramatically the vessel's manoeuvring performance. In this work, a series of free running model tests on a unmanned surface twin screw ship model have been carried out in order to investigate the influence of different propulsion system operation settings on the vessel's manoeuvring characteristics.
Influence of propulsion system configuration on the manoeuvring performances of a surface twin-screw ship
Salvatore Mauro
2013
Abstract
Propulsion system can experience large power absorption fluctuations during tight maneuvers. In the case of a turning circle manoeuvre for a twin-screw ship, the power required by the two shaft lines can be completely different; in case of non conventional propulsion system, like cross-connect configurations, a compromise must be met in order to design a safe control system without affecting dramatically the vessel's manoeuvring performance. In this work, a series of free running model tests on a unmanned surface twin screw ship model have been carried out in order to investigate the influence of different propulsion system operation settings on the vessel's manoeuvring characteristics.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
