Marine rudders, hydrofoils and control surfaces : principles, data, design and applications /

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autores principales: Molland, Anthony F. (Autor), Turnock, Stephen R. (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Amsterdam : Butterworth-Heinemann, 2021.
Edición:Second edition.
Temas:
Steering-gear.
Ships > Hydrodynamics.
Gouvernail.
Navires > Hydrodynamique.
Ships > Hydrodynamics
Steering-gear
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Part 1: Principles. 1. Introduction
  • 2. Control Surface Types: 2.1 Control Surfaces and applications
  • 2.2 Rudder Types
  • 2.3 Hydrofoils
  • 2.4 Other Control Surfaces
  • 3. Physics of Control Surface Operation: 3.1 Background
  • 3.2 Basic Flow Patterns and Terminology
  • 3.3 Properties of lifting foils
  • 3.4 Induced Drag
  • 3.5 Rudder-Propeller Interaction
  • 3.6 Propeller-Induced Velocity Upstream of Rudder
  • 3.7 Influence of Hull on Rudder-Propeller Performance
  • 4. Hydrofoils: 4.1 Background
  • 4.2 Allications
  • 4.3 Layout of hydrofoil-supported craft
  • 4.4 Hydrofoil characteristics
  • 4.5 Free surface effects
  • 4.6 Ventilation
  • 4.7 Cavitation
  • 4.8 Foil boards
  • 4.9 Shape-adaptive foils/bend-twist coupling
  • 5. Control Surface Requirements
  • 5.1 Rudder Requirements
  • 5.2 Rudder design within the ship design process
  • 5.3 Requirements for other control surfaces
  • 5.4 Rudder and control surface design strategy
  • Part 2: Design Data Sources. 6. Rudder Experimental Data
  • 6.1 Review of Experimental Data and Performance Prediction
  • 6.2 Presentation of Experimental Data
  • 6.3 Experimental Data for rudder in free stream
  • 6.4 Experimental Data for rudder behind propeller
  • 6.5 Effective Aspect Ratio
  • 6.6 Rudder and control surface area
  • 6.7 Free surface effects
  • 6.8 Cavitation on control surfaces
  • 6.9 Propulsive effects
  • 6.10 Hull pressures
  • 6.11 Advanced experimental methods
  • 7. Theoretical and numerical methods
  • 7.1 Available methods
  • 7.2 Potential flow methods
  • 7.3 Navier-Stokes Methods
  • 7.4 Interpretation of numerical analysis
  • 7.5 Free-stream rudders
  • 7.6 Rudder-propeller interaction
  • 7.7 Numerical methods for computation of free surface and cavitation
  • 7.8 Unsteady behavior
  • 7.9 Future developments
  • Part 3: Design Strategy and Methodology. 8. Detailed Rudder Design
  • 8.1 Background and philosophy of design approach
  • 8.2 Rudder Design Process
  • 8.3 Applications of numerical methods
  • 8.4 Guidelines for design
  • 9. Manoeuvering
  • 9.1 Rudder Forces
  • 9.2 Hull upsteam
  • 9.3 Influence of Drift Angle
  • 9.4 Low and zero speed and four quadrants
  • 9.5 Shallow water/bank effects
  • 10. Other Control Surfaces
  • 10.1 Fin Stabilisers
  • 10.2 Hydroplanes
  • 10.3 Autonomous underwaters gliders
  • 10.4 Control of high-speed craft
  • 11. Propulsion
  • 11.1 Propeller-rudder Interaction
  • 11.2 Propeller Effects
  • 11.3 Rudder Effects
  • 11.4 Energy efficiency design index
  • 11.5 Overall Effects
  • Part 4: Design Applications. 12. Applications
  • 12.1 Background
  • 12.2 Large Ships
  • 12.3 Small Craft
  • 12.4 Low speed and manoeuvering
  • 12.5 Control
  • 12.6 Hydrofoils
  • Appendix: Tabulated Test Data.

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