Synopses & Reviews
Sailing craft form an expanding sector of the marine industry and events such as the America's Cup and the Volvo Ocean Race (formerly the Whitbread Round-the-World Race) are receiving increased public interest. The science and technology associated with the design, construction and operation of sailing yachts is developing at a rapid rate. New design tools based on computational techniques are emerging and the fabrication and construction materials technology is advancing very quickly.
This two volume set, Sailing Yacht Design: Theory and Sailing Yacht Design: Practice, provides a guide to the fundamental principles governing how and why a sailing yacht behaves in the way it does. It also provides an understanding of the physics involved and the mathematical modelling of yachts, The material was compiled for a WEGEMT School held at the University of Southampton in September 1998. WEGEMT is an association of European universities in marine technology. Sailing Yacht Design: Theory
- Contains the fundamental theory of hull and sail static force equilibria, shape definition and associated stability.
- Discusses the aerodynamics and hydrodynamics of the sail, hull, keel and rudder, and their influence on the seakeeping abilities of the yacht.
- Looks at the different materials used in hull construction.
- Includes structural design techniques and mast/rigging design.
- Describes the different computational and experimental techniques of good design.
- Looks at how safety provides the overall backdrop for yacht design.
The three editors are all at the University of Southampton, which has pioneered the education of ship science students at both undergraduate and postgraduate levels with specializations in yacht and small craft design.
The contributors are all internationally renowned authorities. They work in the fields of sailing yacht design, construction, design consultancy, classification societies, yachting associations. materials supply research establishments and universities.
Synopsis
This book forms part of a two-volume guide to the fundamental principles governing how and why a sailing yacht behaves in the way it does including an understanding of the physics involved and mathematical modelling.
About the Author
Dr Shenoi is Reader in Lightweight Structures, Department of Ship Science, University of Southampton. He is a specialist in high performance materials and lightweight structures and has published extensively in this area. He has wide-ranging research and industrial links with colleagues from around the world.
Table of Contents
1. Introduction.
2. Balance of Air & Water Forces.
3. Statical Stability.
4. Aerodynamics of Sails.
5. Hydrodynamics of Hull, Keel and udder.
6. Seakeeping & Manoeuvring.
7. Velocity Prediction Programs - VPP.
8. Materials in Construction.
9. Mechanics of Composite Materials.
10. Structural Design of Hull Elements.
11. Structural Design of Mast & Rigging.
12. Hull Design & Geometry efinition.
13. Background to Computational Fluid Dynamics.
14. Background to Finite Element Analysis.
15. Experimental Techniques.
16. Safety Engineering.