Marine propellers and propulsion /

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Propulsion technology is a complex, multidisciplinary topic with design, construction, operational and research implications. Bringing together a wealth of disparate information from the field, Marine Propellers and Propulsion provides comprehensive and cutting edge coverage to equip marine engineer...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Carlton, J. S. (John S.)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Amsterdam : Elsevier, 2012.
Edición:3rd ed.
Temas:
Propellers.
Ships > Hydrodynamics.
Ship propulsion.
Hélices.
Navires > Hydrodynamique.
Navires > Propulsion.
TECHNOLOGY & ENGINEERING > Marine & Naval.
TRANSPORTATION > Ships & Shipbuilding > Pictorial.
Propellers
Ship propulsion
Ships > Hydrodynamics
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Marine Propellers and Propulsion; Copyright; Dedication; Contents; Preface; Preface to the Third Edition; Preface; Preface to the Second Edition; Preface; Preface to the First Edition; General Nomenclature; Chapter 1
  • The Early Development of the Screw Propeller; REFERENCES; FURTHER READING; Chapter2
  • Propulsion Systems; 2.1 FIXED PITCH PROPELLERS; 2.2 DUCTED PROPELLERS; 2.3 PODDED AND AZIMUTHING PROPULSORS; 2.4 CONTRA-ROTATING PROPELLERS; 2.5 OVERLAPPING PROPELLERS; 2.6 TANDEM PROPELLERS; 2.7 CONTROLLABLE PITCH PROPELLERS; 2.8 SURFACE PIERCING PROPELLERS.
  • 2.9 WATERJET PROPULSION2.10 CYCLOIDAL PROPELLERS; 2.11 PADDLE WHEELS; 2.12 MAGNETOHYDRODYNAMIC PROPULSION; 2.13 WHALE-TAIL PROPULSION; REFERENCES AND FURTHER READING; Chapter3
  • Propeller Geometry; 3.1 FRAMES OF REFERENCE; 3.2 PROPELLER REFERENCE LINES; 3.3 PITCH; 3.4 RAKE AND SKEW; 3.5 PROPELLER OUTLINES AND AREA; 3.6 PROPELLER DRAWING METHODS; 3.7 SECTION GEOMETRY AND DEFINITION; 3.8 BLADE THICKNESS DISTRIBUTION AND THICKNESS FRACTION; 3.9 BLADE INTERFERENCE LIMITS FOR CONTROLLABLE PITCH PROPELLERS; 3.10 CONTROLLABLE PITCH PROPELLER OFF-DESIGN SECTION GEOMETRY.
  • 3.11 MISCELLANEOUS CONVENTIONAL PROPELLER GEOMETRY TERMINOLOGYREFERENCES AND FURTHER READING; Chapter4
  • The Propeller Environment; 4.1 DENSITY OF WATER; 4.2 SALINITY; 4.3 WATER TEMPERATURE; 4.4 VISCOSITY; 4.5 VAPOR PRESSURE; 4.6 DISSOLVED GASES IN SEA WATER; 4.7 SURFACE TENSION; 4.8 WEATHER; 4.9 SILT AND MARINE ORGANISMS; REFERENCES AND FURTHER READING; Chapter5
  • The Ship Wake Field; 5.1 GENERAL WAKE FIELD CHARACTERISTICS; 5.2 WAKE FIELD DEFINITION; 5.3 THE NOMINAL WAKE FIELD; 5.4 ESTIMATION OF WAKE FIELD PARAMETERS; 5.5 EFFECTIVE WAKE FIELD; 5.6 WAKE FIELD SCALING.
  • 5.7 WAKE QUALITY ASSESSMENT5.8 WAKE FIELD MEASUREMENT; REFERENCES AND FURTHER READING; Chapter6
  • Propeller Performance Characteristics; 6.1 GENERAL OPEN WATER CHARACTERISTICS; 6.2 THE EFFECT OF CAVITATION ON OPEN WATER CHARACTERISTICS; 6.3 PROPELLER SCALE EFFECTS; 6.4 SPECIFIC PROPELLER OPEN WATER CHARACTERISTICS; 6.5 STANDARD SERIES DATA; 6.6 MULTI-QUADRANT SERIES DATA; 6.7 SLIPSTREAM CONTRACTION AND FLOW VELOCITIES IN THE WAKE; 6.8 BEHIND-HULL PROPELLER CHARACTERISTICS; 6.9 PROPELLER VENTILATION; REFERENCES AND FURTHER READING; Chapter7
  • Theoretical Methods
  • Basic Concepts.
  • 7.1 BASIC AEROFOIL SECTION CHARACTERISTICS7.2 VORTEX FILAMENTS AND SHEETS; 7.3 FIELD POINT VELOCITIES; 7.4 THE KUTTA CONDITION; 7.5 THE STARTING VORTEX; 7.6 THIN AEROFOIL THEORY; 7.7 PRESSURE DISTRIBUTION CALCULATIONS; 7.8 BOUNDARY LAYER GROWTH OVER AN AEROFOIL; 7.9 THE FINITE WING; 7.10 MODELS OF PROPELLER ACTION; 7.11 SOURCE AND VORTEX PANEL METHODS; 7.12 EULER, LAGRANGIAN AND NAVIER-STOKES METHODS; REFERENCES AND FURTHER READING; Chapter8
  • Theoretical and Analytical Methods Relating to Propeller Action; 8.1 MOMENTUM THEORY
  • RANKINE (1865); R.E. FROUDE (1887).
  • 8.2 blade element theory
  • w. froude (1878).

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