Marine Rudders, Hydrofoils and Control Surfaces (2^nd Ed.) Principles, Data, Design and Applications

The course keeping and manoeuvring requirements for a ship are governed by international maritime law. In assessing and predicting the course keeping and manoeuvring capabilities of the ship, knowledge is required of the rudder forces necessary to keep a course or facilitate a manoeuvre. The second edition of Marine Rudders, Hydrofoils and Control Surfaces includes up-to-date data and rudder design techniques that enable the rudder forces to be estimated, together with any interactions due to the hull and propeller. The new edition describes the design and application of hydrofoils including shape adaptive design, and their applications including hydrofoil craft, yachts, and kite surfing hydrofoils. The professional will also face the need to design control surfaces for motion control, such as roll and pitch, for surface vessels and submersibles, and the book contains the necessary techniques and data to carry out these tasks.

This book is for practicing naval architects and marine engineers, small craft designers, yacht designers, hydrodynamicists, undergraduate and postgraduate students of naval architecture, maritime engineering and ship science, and the broader engineering community involved in the development of marine craft that rely on the generation of ?lift? such as control engineers and aerodynamicists.

1. Control surface types
2. Physics of control surface operation
3. Control surface requirements
4. Experimental data
5. Theoretical and numerical methods
6. Detailed rudder design
7. Manoeuvring
8. Other control surfaces
9. Propulsion
10. Applications

ANTHONY F. MOLLAND is Emeritus Professor of Ship Design at the University of Southampton. Professor Molland has extensively researched and published papers on ship design and ship hydrodynamics including ship rudders and control surfaces, propellers and ship resistance components. He also acts as a consultant to industry in these subject areas and has gained international recognition through presentations at conferences and membership of committees of the International Towing Tank Conference (ITTC). Professor Molland is the co-author of Ship Resistance and Propulsion (2017) and editor of the Maritime Engineering Reference Book (2008).
STEPHEN R. TURNOCK is Professor of Maritime Fluid Dynamics at the University of Southampton. He teaches Masters modules in Ship Resistance and Propulsion and Marine Renewables. His research encompasses both experimental, theoretical and simulation work in the areas of decarbonisation of shipping through improved energy efficiency of shipping, future fuels and maritime autonomy. He works extensively in marine renewables devices, underwater systems, propulsors and control surfaces. The Performance Sports Engineering Lab he led at Southampton was awarded the Queen’s Anniversary award for Higher Education in 2012. He acts as a consultant to industry and was on committees of the ITTC and International Ship and Offshore Structures Congress (ISSC). Professor Turnock is the co-author of Ship Resistance and Propulsion (2017).