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Book Cover
E-book
Author Kerwin, Justin E. (Justin Elliot)

Title Propulsion / Justin E. Kerwin and Jacques B. Hadler
Published Jersey City, N.J. : Society of Naval Architects and Marine Engineers, 2010

Copies

Description 1 online resource (xxii, 183 pages) : illustrations (some color)
Series The principles of naval architecture series
Principles of naval architecture series.
Contents 1. Powering of Ships. 1.1 Historical Discussion -- 1.2 Types of Ship Machinery -- 1.3 Definition of Power -- 1.4 Propulsive Efficiency
2. Two-Dimensional Hydrofoils. 2.1 Introduction -- 2.2 Foil Geometry -- 2.3 Conformal Mapping -- 2.4 Linearized Theory for a Two-Dimensional Foil Section -- 2.5 Glauter's Solution for a Two-Dimensional Foil -- 2.6 The Design of Mean Lines: The NACA a-Series -- 2.7 Linearized Pressure Coefficient -- 2.8 Comparison of Pressure Distributions -- 2.9 Solution of the Linearized Thickness Problem -- 2.10 Superposition of Camber, Angle of Attack, and Thickness -- 2.11 Correcting Linear Theory near the Leading Edge -- 2.12 Two-Dimensional Vortex Lattice Theory -- 2.13 Two-Dimensional Panel Methods -- 2.14 The Cavitation Bucket Diagram -- 2.15 Viscous Effects: Two-Dimensional Foil Sections
3. Three-Dimensional Hydrofoil Theory. 3.1 Introductory Concepts -- 3.2 The Strength of the Free Vortex Sheet in the Wake -- 3.3 The Velocity Induced by a Three-Dimensional Vortex Line -- 3.4 Velocity Induced by a Straight Vortex Segment -- 3.5 Linearized Lifting-Surface Theory for a Planar Foil -- 3.6 Lift and Drag -- 3.7 Lifting Line Theory -- 3.8 Lifting Surface Results
4. Hydrodynamic Theory of Propulsors. 4.1 Inflow -- 4.2 Notation -- 4.3 Actuator Disk -- 4.4 Axisymmetric Euler Solver Simulation of an Actuator Disk -- 4.5 The Ducted Actuator Disk -- 4.6 Axisymmetric Euler Solver Simulation of a Ducted Actuator Disk -- 4.7 Propeller Lifting Line Theory -- 4.8 Optimum Circulation Distributions -- 4.9 Lifting Line Theory for Arbitrary Circulation Distributions -- 4.10 Propeller Vortex Lattice Lifting Line Theory -- 4.11 Propeller Lifting-Surface Theory and Computational Methods
5. Unsteady Propeller Forces. 5.1 Types of Unsteady Forces -- 5.2 Basic Equations for Linearized Two-Dimensional Unsteady Foil Theory -- 5.3 Analytical Solutions for Two-Dimensional Unsteady Flows -- 5.4 Numerical Time Domain Solution -- 5.5 Wake Harmonics and Unsteady Propeller Forces -- 5.6 Transverse Alternating Forces -- 5.7 Unsteady Three-Dimensional Computational Methods for Propellers -- 5.8 Unsteady Propeller Force Example
6. Theory of Cavitation. 6.1 Introduction -- 6.2 Noncavitating Flow - Cavitation Inception -- 6.3 Cavity Flows - Formulation of the Problem -- 6.4 Cavitating Hydrofoils - Linearized Formulation -- 6.5 Numerical Methods -- 6.6 Leading Edge Correction -- 6.7 Panel Methods for Two-Dimensional and Three-Dimensional Cavity Flows -- 6.8 Cavitating Propeller -- 6.9 Comparisons with Experiments -- 6.10 Effects of Viscosity on Cavitation -- 6.11 Design in the Presence of Cavitation
7. Scaling Laws and Model Tests. 7.1 Introduction -- 7.2 Law of Similitude for Propellers -- 7.3 Open-Water Tests -- 7.4 Model Self-Propulsion Tests -- 7.5 Wake Survey -- 7.6 Propeller Cavitation Tests
8. Propeller Design. 8.1 Introduction -- 8.2 The Design and Analysis Loop -- 8.3 Definition of the Problem -- 8.4 Preliminary Design -- 8.5 Design Point -- 8.6 Analysis and Optimization of the Design
9. Waterjet Propulsion. 9.1 Hydrodynamic Issues -- 9.2 Inlet Analysis -- 9.3 Pump Design and Analysis -- 9.4 Tip Leakage Flow
10. Other Propulsion Devices. 10.1 Introduction -- 10.2 Tunnel Sterns -- 10.3 Vertical-Axis Propellers -- 10.4 Overlapping Propellers -- 10.5 Supercavitating Propellers -- 10.6 Surface Piercing Propellers -- 10.7 Controllable-Pitch Propellers
11. Propeller Strength. 11.1 Introduction -- 11.2 Stresses Based on Modified Cantilever Beam Analysis -- 11.3 Bending Moments due to Hydrodynamic Loading -- 11.4 Centrifugal Force -- 11.5 Strength Analysis -- 11.6 Stresses Based on Finite Element Analysis -- 11.7 Minimum Blade Thickness Based on Classification Society Rules -- 11.8 Fatigue Analysis -- 11.9 Materials
12. Ship Standardization Trials. 12.1 Purpose of Trials -- 12.2 Preparation for Trials -- 12.3 General Plan of Trials -- 12.4 Measurement of Speed -- 12.5 Analysis of Speed Trials -- 12.6 Derivation of Model-Ship Correlation Allowance
Bibliography Includes bibliographical references and index
Notes English
Print version record
Subject Ship propulsion.
Ship propulsion
Military & Naval Science.
Law, Politics & Government.
Naval Architecture.
Form Electronic book
Author Hadler, Jacques B.
Paulling, J. Randolph.
LC no. 2010040103
ISBN 9781613441398
1613441398
9780939773831
093977383X