Computational Methods For Hydrofoil Craft In Steady And Unsteady Flow
TOC
1. INTRODUCTION
1.1 General
1.2 Surface piercing hydrofoil systems
1.3 Fully submerged hydrofoil systems
1.4 Hydrofoil section types
1.5 Hydrofoil craft hull forms
1.6 Hydrodynamic aspects in hydrofoil craft design
2. COMPUTATIONAL METHOD FOR STEADY FLOW CONDITIONS
2.1 Review of steady hydrofoil theories
2.2 Simplification of the steady flow problem and adopted approach
2.3 Hull-foil, foil-hull and fore-aft foil interaction
2.4 Equilibrium equations
2.5 Foil system forces
2.6 Viscosity effects on foil characteristics
2.7 Hull, propulsor and appendage force components
2.8 Design and analysis program Hydres Ill
3. VALIDATION OF THE STEADY FLOW METHODS HYDVLM AND HYDRES
3.1 Introduction
3.2 Numerical validation of Hydvlm
3.3 Validation of Hydvlm on free surface effects and foil interaction
3.4 Validation of Hydres
4. COMPUTATIONAL METHOD FOR UNSTEADY FLOW CONDITIONS
4.1 Introduction
4.2 Review of unsteady hydrofoil theories
4.3 Choice of computational method
4.4 Simulation model Hydsim
4.5 Unsteady hydrofoil method
5. VALIDATION OF THE UNSTEADY FLOW METHODS UNVLM AND HYDSIM
5.1 Introduction
5.2 Numerical validation, linearization effects and foil interaction
5.3 Validation of Unvlm
5.4 Simulation examples and validation of Hydsim
6. CONCLUSIONS AND RECOMMENDATIONS
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