Add to ORKGIn the present work the phenomenon of asymmetrical shaft power increase during tight manoeuvres is investigated by means of the analysis of turning circle manoeuvres at different speeds and rudder angles performed during sea trials for a series of twin screw naval ships; a common trend for shaft power increase has been found, and possible reasons for it have been examined. It is believed that, for unconventional propulsion plant arrangements, in which for instance two shaft axes are powered by the same prime mover via a unique reduction gear, automation plant will need to monitor carefully these effects, in order to avoid possible problems
Abstract. The paper explores the accuracy of a low-cost CFD based approach to evaluate the propelle...
Ship manoeuvrability is a wide term which consist of number of various parameters. Knowing the influ...
This thesis investigates the potential for a reduction in required propeller power by optimizing the...
In the present work the phenomenon of asymmetrical shaft power increase during tight maneuvers is in...
Marine propulsion plants can experience large power fluctuations during tight maneuvers, with increa...
Twin screw ships may experience considerably asymmetrical propeller functioning during manoeuvres. T...
Twin screw ships may experience considerably asymmetric propeller functioning during manoeuvres. Thi...
Twin screw ships may experience considerably asymmetric propeller functioning during manoeuvres. Thi...
the present work addresses the asymmetrical functioning of rudder/propeller complex of twin screw/tw...
Marine propulsion plants can experience large power fluctuations during tight manoeuvres. During the...
The complexity and accuracy of the mathematical model describing the interaction between the element...
THE PRESENT WORK ADDRESSES THE ASYMMETRICAL FUNCTIONING OF RUDDER/PROPEL LER COMPLEX OF TWIN SCREW/T...
The interference between the hull, propeller and rudder remarkably affects the control and maneuveri...
The present article deals with investigation of possible causes of the additional torque on the yach...
Use of electronic control onboard to handle complex and powerful propulsion systems has constantly i...
Abstract. The paper explores the accuracy of a low-cost CFD based approach to evaluate the propelle...
Ship manoeuvrability is a wide term which consist of number of various parameters. Knowing the influ...
This thesis investigates the potential for a reduction in required propeller power by optimizing the...
In the present work the phenomenon of asymmetrical shaft power increase during tight maneuvers is in...
Marine propulsion plants can experience large power fluctuations during tight maneuvers, with increa...
Twin screw ships may experience considerably asymmetrical propeller functioning during manoeuvres. T...
Twin screw ships may experience considerably asymmetric propeller functioning during manoeuvres. Thi...
Twin screw ships may experience considerably asymmetric propeller functioning during manoeuvres. Thi...
the present work addresses the asymmetrical functioning of rudder/propeller complex of twin screw/tw...
Marine propulsion plants can experience large power fluctuations during tight manoeuvres. During the...
The complexity and accuracy of the mathematical model describing the interaction between the element...
THE PRESENT WORK ADDRESSES THE ASYMMETRICAL FUNCTIONING OF RUDDER/PROPEL LER COMPLEX OF TWIN SCREW/T...
The interference between the hull, propeller and rudder remarkably affects the control and maneuveri...
The present article deals with investigation of possible causes of the additional torque on the yach...
Use of electronic control onboard to handle complex and powerful propulsion systems has constantly i...
Abstract. The paper explores the accuracy of a low-cost CFD based approach to evaluate the propelle...
Ship manoeuvrability is a wide term which consist of number of various parameters. Knowing the influ...
This thesis investigates the potential for a reduction in required propeller power by optimizing the...