14 November 2008

[RS/yim043] Carlton-Marine Propellers and Propulsion-2e

Although the propeller lies submerged out of sight, it is a complex component in both the hydrodynamic and structural sense. Marine Propellers and Propulsion fulfils the need for a comprehensive and cutting edge volume that brings together a great range of knowledge on propulsion technology, a multi-disciplinary and international subject. The book comprises three main sections covering hydrodynamics; materials and mechanical considerations; and design, operation and performance. The discussion relates theory to practical problems of design, analysis and operational economy, and is supported by extensive design information, operational detail and tabulated data. Fully updated and revised to cover the latest advances in the field, the new edition now also includes four new chapters on azimuthing and podded propulsors, propeller-rudder interaction, high-speed propellers, and propeller-ice interaction.

1 The early development of the screw propeller
2 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 Waterjet propulsion 2.9 Cycloidal propellers 2.10 Paddle wheels 2.11 Magnetohydrodynamic propulsion 2.12 Superconducting motors for marine propulsion
3 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 terminology
4 The propeller environment
5 The wake field
6 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
7 Theoretical methods – basic concepts
7.1 Basic aerofoil section characteristics 7.2 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
8 Theoretical methods – propeller theories
8.1 Momentum theory – Rankine (1865); R. E. Froude (1887) 8.2 Blade element theory ?W. Froude (1878) 8.3 Propeller-Theoretical development (1900-1930) 8.4 Burrill?s analysis procedure (1944) 8.5 Lerbs analysis method (1952) 8.6 Eckhardt and Morgan?s design method (1955) 8.7 Lifting surface correction factors – Morgan et al. 8.8 Lifting surface models 8.9 Lifting-line – lifting-surface hybrid models 8.10 Vortex lattice methods 8.11 Boundary element methods 8.12 Methods for specialist propulsors 8.13 Computational fluid dynamics methods
9 Cavitation
9.1 The basic physics of cavitation 9.2 Types of cavitation experienced by propellers 9.3 Cavitation considerations in design 9.4 Cavitation inception 9.5 Cavitation-induced damage 9.6 Cavitation testing of propellers 9.7 Analysis of measured pressure data from a cavitating propeller 9.8 Propeller-rudder interaction
10 Propeller noise
11 Propeller-ship interaction
12 Ship resistance and propulsion
12.1 Froude's analysis procedure 12.2 Components of calm water resistance 12.3 Methods of resistance evaluation 12.4 Propulsive coefficients 12.5 The influence of rough water 12.6 Restricted water effects 12.7 High-speed hull form resistance 12.8 Air resistance
13 Thrust augmentation devices
13.1 Devices before the propeller 13.2 Devices at the propeller 13.3 Devices behind the propeller 13.4 Combinations of systems
14 Transverse thrusters
15 Azimuthing and podded propulsors
16 Waterjet propulsion
17 Full-scale trials
18 Propeller materials
19 Propeller blade strength
20 Propeller manufacture
21 Propeller blade vibration
22 Propeller design
23 Operational problems
24 Service performance and analysis
25 Propeller tolerances and inspection
26 Propeller maintenance and repair

# Marine Propellers and Propulsion, Second Edition
# John Carlton
# Publisher: Butterworth-Heinemann
# Number Of Pages: 560
# Publication Date: 2007-07-23
# ISBN-10 / ASIN: 0750681500
# ISBN-13 / EAN: 9780750681506
# Binding: Hardcover

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cesar said...

the link is no working any more


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