This definitive text describes the theory and design both of Air Cushion Vehicles (ACV) and Surface Effect Ships (SES). It begins by introducing hovercraft types and their development and application throughout the world in the last three decades, before going on to discuss the theoretical aspects of ACV and SES craft covering their hovering performance, dynamic trim over calm water, resistance, stability, manoeuvrability, skirt configuration and analysis of forces acting on the skirts, ACV and SES seakeeping, and the methodology of scaling aerodynamic and hydrodynamic forces acting on the ACV/SES from model test data.
The latter chapters describe a design methodology, including design criteria and standard methods for estimating craft performance, lift system design, skirt design, hull structure, propulsion systems and power unit selection. Much technical information, data, and references to further work on hovercraft and SES design is provided. The book will be a useful reference to engineers, technicians, teachers, students (both undergraduate and postgraduate), operators etc. who are involved in ACV/SES research, design, construction and operation.
- Guides the reader on how to perform machinery and systems selection within ACV and SES overall design
- For teachers, students (both at under- and post-graduate level), engineers and technicians involved in ACV/SES
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Air cushion theory
Steady drag forces
Trim and water surface deformation under the cushion
Design and analysis of ACV and SES skirts
Motions in waves
Model experiments and scaling laws
Design methodology and performance estimation
Determination of principal dimensions of ACV
Lift system design
Propulsion system design
Power unit selection