Description
Book SynopsisDeals with flows over propellers and the hydrodynamic forces and moments which the propeller generates on the shaft and on the ship hull. The first part of the book is devoted to fundamentals of uniform flow. The second part covers unsteady section and blade forces arising from operation in non-uniform hull wakes.
Trade Review"...an excellent desk reference for a research engineer performing propeller design or ocean-related research...a high quality publication that will prove valuable to the ocean and ship research community." Yu-Tai Lee, Applied Mechanics Reviews
Table of ContentsPreface; Notation; Abbreviations; 1. Brief review of basic hydrodynamic theory; 2. Properties of distributions of singularities; 3. Kinematic boundary conditions; 4. Steady flows about thin, symmetrical sections in two-dimensions; 5. Pressure distributions and lift on flat and cambered sections at small angles of attack; design of hydrofoil sections; 7. Real fluid effects and comparisons of theoretically and experimentally determined characteristics; 8. Cavitation; 9. Actuator disk theory; 10. Wing theory; 11. Lifting-line representation of propellers; 12. Propeller design via computer and practical considerations; 13. Hull-wake characteristics; 14. Pressure fields generated by blade loading and thickness in uniform flows; comparisons with measurements; 15. Pressure fields generated by blade loadings in hull wakes; 16. Vibratory forces on simple surfaces; 17. Unsteady forces on two-dimensional sections and hydrofoils of finite span in gusts; 18. Lifting-surface theory; 19. Correlations of theories with measurements; 20. Outline of theory of intermittently cavitating propellers; 21. Forces on simple bodies generated by intermittent cavitation; 22. Pressures on hulls of arbitrary shape generated by blade loading, thickness and intermittent cavitation; 23. Propulsor configurations for increased efficiency; Appendices; Mathematical compendium; References; Index.
