CFD and CAD in ship design : proceedings of the International Symposium on CFD and CAD in Ship Design, Wageningen, the Netherlands, 25-26 September 1990

In the field of hydrodynamics, various methods have been developed for the prediction of calm water resistance and manoeuvring characteristics. These methods range from rather simple empirical methods to very advanced Computational Fluid Dynamics (CFD). In ship design, Computer Aided Design (CAD) applications mainly focus on the description of the geometry of the ship and the calculation of hydrostatic properties. Considerable attention has been given to drawing systems and connectivity to systems for supporting the production process of ships - Computer Aided Manufacturing (CAM). This volume reviews the rapid advances that have been made in computer applications to ship hydrodynamics and ship design, due to developments in the performance of computer hardware. Special attention is paid to the integration of hydrostatic calculations in ship design software offering new possibilities to ship designers for optimizing the design of ships.

On the integration of CFD and CAD in ship design (B. Johnson). Sessions: I. CAD Developments. The development of CAD-tools at MARIN (G. Glijnis). Concept exploration models for merchant ships (C. Georgescu et al.). Geometric design of hull forms using partial differential equations (M.I.G. Bloor, M.J. Wilson). Design and representation of hull form using rational cubic bezier curves (J.S. Kouh, S.W. Chau). PROSEL - Propulsion installation selection (J. Klein Woud et al.). II. User Experience with CAD and CFD. Practical experience with a hull form surface modelling (C. Rossier). Impact of CFD on aerodynamic design (N. Voogt). Practical applications of an integrated design system in ship hydrodynamics (I. Kuutti). III. CFD Developments. Automatic panel generation for seakeeping and wave resistance calculations (P.S. Jensen). Incorporation of seakeeping theories in CAD (O. Faltinsen, T. Svensen). Free-surface potential flow calculations for merchant vessels (W. van den Berg et al.). IV. Future Developments. IDEAS: Interactive design, evaluation and analysis system (N. Salvesen). Feature-based design synthesis and performance analysis of underwater bodies (D.E. Calkins, M.A. Razzaghi). The development of a design guidance system for the early stages of design (B. Bras et al.). Predicting the hydrodynamic performance in ship design: Tests or computations? (G. van Oortmerssen).