The use of an unsteady computational fluid dynamic analysis of the manoeuvring performance of a self-propelled ship requires a large computational resource that restricts its use as part of a ship design process. A method is presented that significantly reduces computational cost by coupling a blade element momentum theory (BEMT) propeller model with the solution of the Reynolds averaged Navier Stokes (RANS) equations. The approach allows the determination of manoeuvring coefficients for a self-propelled ship travelling straight ahead, at a drift angle and for differing rudder angles. The swept volume of the propeller is divided into discrete annuli for which the axial and tangential momentum changes of the fluid passing through the propell...
The propeller of a self-propelled marine vehicle isthe key to understanding the hull-propeller inter...
Accurate prediction of ship manoeuvring in a seaway is one of the most critical requirements in ship...
The ability to accurately predict the ship's powering and manoeuvring performance in waves is of hig...
Ship maneuverability is one of the most essential performance indicators in the ship design process....
The prediction of a ship’s wake field and self-propulsion capabilities has traditionally been center...
Achieving a reliable and accurate numerical prediction of the self-propulsion performance of a ship ...
The operation of the propeller dominates the flow interaction effects on the upstream hull and a dow...
The missions being proposed for autonomous underwater vehicles (AUVs), by both marine scientists and...
The paper deals with the self-propulsion problem, i.e. the solution of the flow around the hull that...
The operation of a marine propeller dominates the flow interaction effects and alters the resistance...
The turning circle manoeuvre of a self-propelled tanker like ship model is numerically simulated thr...
The purpose of this study is to investigate the feasibility of a simple but robust approach for the ...
The paper presents the results of computational evaluation of the hull-propeller interaction coeffic...
It is important to consider the detailed hydrodynamics of the propeller, the associated flow condit...
The turning circle manoeuvre of a self-propelled tanker like ship model is numerically simulated thr...
The propeller of a self-propelled marine vehicle isthe key to understanding the hull-propeller inter...
Accurate prediction of ship manoeuvring in a seaway is one of the most critical requirements in ship...
The ability to accurately predict the ship's powering and manoeuvring performance in waves is of hig...
Ship maneuverability is one of the most essential performance indicators in the ship design process....
The prediction of a ship’s wake field and self-propulsion capabilities has traditionally been center...
Achieving a reliable and accurate numerical prediction of the self-propulsion performance of a ship ...
The operation of the propeller dominates the flow interaction effects on the upstream hull and a dow...
The missions being proposed for autonomous underwater vehicles (AUVs), by both marine scientists and...
The paper deals with the self-propulsion problem, i.e. the solution of the flow around the hull that...
The operation of a marine propeller dominates the flow interaction effects and alters the resistance...
The turning circle manoeuvre of a self-propelled tanker like ship model is numerically simulated thr...
The purpose of this study is to investigate the feasibility of a simple but robust approach for the ...
The paper presents the results of computational evaluation of the hull-propeller interaction coeffic...
It is important to consider the detailed hydrodynamics of the propeller, the associated flow condit...
The turning circle manoeuvre of a self-propelled tanker like ship model is numerically simulated thr...
The propeller of a self-propelled marine vehicle isthe key to understanding the hull-propeller inter...
Accurate prediction of ship manoeuvring in a seaway is one of the most critical requirements in ship...
The ability to accurately predict the ship's powering and manoeuvring performance in waves is of hig...