Overview

Knowledge of added body masses that interact with fluid is necessary in various research and applied tasks of hydro- and aeromechanics: steady and unsteady motion of rigid bodies, total vibration of bodies in fluid, local vibration of the external plating of different structures. This reference book contains data on added masses of ships and various ship and marine engineering structures. Also theoretical and experimental methods for determining added masses of these objects are described. A major part of the material is presented in the format of final formulas and plots which are ready for practical use. The book summarises all key material that was published in both Russian and English-language literature. This volume is intended for technical specialists of shipbuilding and related industries. The author is one of the leading Russian experts in the area of ship hydrodynamics.

Full Product Details

Author:   Alexandr I. Korotkin
Publisher:   Springer-Verlag New York Inc.
Imprint:   Springer-Verlag New York Inc.
Edition:   2009 ed.
Volume:   88
Dimensions:   Width: 15.50cm , Height: 2.30cm , Length: 23.50cm
Weight:   1.640kg
ISBN:  

9781402094316

ISBN 10:   1402094310
Pages:   392
Publication Date:   18 December 2008
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Active
Availability:   In Print  
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Language:   English

Table of Contents

1. General discussion of Body Motion in Ideal Infinite Fluid 1.1 Formulation of The Problem 1.2 Kinetic Energy of the Fluid 1.3 Transformation of added masses under a change of coordinate System 1.4 Hydrodynamic force and torque influencing a body moving in an ideal incompressible fluid 1.5 Ellipsoids of added masses and ellipsoids of added moments of inertia 2. The added masses of planar contours moving in ideal unlimited fluid 2.1 Sedov's Technique 2.2 The added masses of simple contours 2.2.1 Elliptic contour, circular contour and interval (plate) 2.2.2 Elliptic contour with one rib, T-shape contour 2.2.3 Elliptic contour with two symmetric ribs 2.2.4 Elliptic contour with horizontal and vertical ribs 2.2.5 Symmetrical profile made up of two intersecting intervals (plates) 2.2.6 Circle with two hitches 2.2.7 Circle with two side ribs 2.2.8 Circle with cross-like positioned ribs 2.2.9 Circle with two tangent horizontal ribs 2.2.10 Regular inscribed polygon 2.2.11 Zhukowskiy's foil profile 2.2.12 Arch of the circle under different positions of coordinate axes 2.2.13 Lense formed by two circular arches 2.2.14 Hexagon, rectangle, rhomb, octagon, square with four ribs 2.2.15 Plate with flap 2.3 Added masses of lattices 2.3.1 Two plates located on one line 2.3.2 Three plates located on one line 2.3.3 Lattice of plates 2.3.4 Lattice of rectangles 2.4 Added masses of a duplicated shipframe contour moving in unlimited fluid 2.5 Added masses of inclined shipframe 2.6 Added masses of catamarans and twin rudders 3. Added masses of three-dimensional bodies in infinite fluid 3.1 Added masses of ellipsoid moving in infinite fluid 3.2 Added massesof oblate spheroid, elongated ellipsoid of revolution, sphere, disc and elliptic plates 3.3 Added masses of thin finite-span airfoils 3.4 Added masses of thin circular cylindrical airfoil 3.5 Approximate methods to determine added masses of 3D bodies 3.5.1 Method of plane sections 3.5.2 Method of equivalent ellipsoid 3.5.3 Approximate formulas for added masses of the hull 4. Added masses of interacting bodies Added masses of interacting bodies moving in fluid Formulation of the problem Motion of two spheres in infinite fluid Added masses of bodies moving close to solid boundary 4.2.1 Sphere moving close to solid wall 4.2.2 Circular cylinder moving near flat hard wall 4.2.3 Elliptic cylinder moving near flat hard wall 4.2.4 Elliptic cylinder moving between two flat walls in the direction parallel to the walls 4.2.5 Motion of parallelepipeds in infinite fluid and between flat walls 4.2.6 Ellipsoid of revolution moving near a flat wall 4.2.7 Three-axial ellipsoid moving near a flat wall 4.2.8 System of oblate ellipsoids of revolution 4.2.9 Infinite chain of three-axial ellipsoids 4.2.10 Sphere in various systems (chains, lattices) 4.2.11 Ellipsoid of revolution moving in bisecting plane of dihedral angle 4.2.12 Influence of the boundary and the free surface on added masses of foils Added masses of bodies moving in enclosed space filled with fluid 4.3.1 Motion of a sphere in the fluid contained within a spherical concentric shell 4.3.2 Ellipsoid of revolution moving in fluid within confocal elliptic cavity 5. Added masses of bodies moving close to free surface 5.1 Boundary conditions on free surface

Reviews

This book impresses by its width and completeness, as well as by consistency of presentation; it is going to be extremely useful in our work. (Nekrasov V.A., Professor, Chair of Departments of ship theory, Nikolaev State University, Ukraine) <p> One should stress that this reference book can be used not only in ship engineering, but also in aviation engineering, hydrotechnique, machine engineering, i.e. everywhere where one deals with interaction of constructions with fluid. (editorial, Morskoj Vestnik, No. 1 (25), p.105, 2008) <p> In applied problems of design of engineering objects, interacting with a liquid medium, added masses determine the forces and moments acting on the constructions, especially in non-stationary regimes of motion. The book of Professor Korotkin, in which the majority of existing data on added masses of various bodies is collected, will take a reputable position in reference literature on hydromechanics. (Kirill V. Rozhdestvenskij, Vice-Chancellor and Head of the Department of Applied Mathematics and Mathematical Modeling of St. Petersburg State Maritime Technical University) <p> This book is unique. It will undoubtedly be called for by designers of ships and of other engineering structures interacting with fluids. For these specialists the reference book will certainly become an indispensable source of information. The book is encyclopedic because the author has combined a wide range of diverse issues related to the determination of added masses: analytical and numerical methods of calculation, approximate computation methods, experimental techniques. <br>Book materials are presented in the form of final formulas, graphs and tables, handy for practicalapplication. (Aron S. Ginevskij, professor, Central Aerohydrodynamic Institute, Moscow, Russia) <p> In various problems of hydrodynamics of ships, vessels and conversion aids of the World Ocean, an important role is played by researching of non-stationary movements of objects. Information about added masses of various structures is a key element in the process of solving these problems. The book by Professor A. I. Korotkin Added masses of ship structures is a reference book of high quality, based on many years of experience of the author and experts of Krylov Shipbuilding Research Institute. (Alexander V. Pustoshnyi, Corresponding member of the Russian Academy of Sciences, Member of the National Committee on Mechanics of the Russian Academy of Sciences, Head of Department and Deputy Director of Krylov Shipbuilding Research Institute, St.Petersburg, Russia)

This book impresses by its width and completeness, as well as by consistency of presentation; it is going to be extremely useful in our work. (Nekrasov V.A., Professor, Chair of Departments of ship theory, Nikolaev State University, Ukraine) One should stress that this reference book can be used not only in ship engineering, but also in aviation engineering, hydrotechnique, machine engineering, i.e. everywhere where one deals with interaction of constructions with fluid. (editorial, Morskoj Vestnik, No. 1 (25), p.105, 2008) In applied problems of design of engineering objects, interacting with a liquid medium, added masses determine the forces and moments acting on the constructions, especially in non-stationary regimes of motion. The book of Professor Korotkin, in which the majority of existing data on added masses of various bodies is collected, will take a reputable position in reference literature on hydromechanics. (Kirill V. Rozhdestvenskij, Vice-Chancellor and Head of the Department of Applied Mathematics and Mathematical Modeling of St. Petersburg State Maritime Technical University) This book is unique. It will undoubtedly be called for by designers of ships and of other engineering structures interacting with fluids. For these specialists the reference book will certainly become an indispensable source of information. The book is encyclopedic because the author has combined a wide range of diverse issues related to the determination of added masses: analytical and numerical methods of calculation, approximate computation methods, experimental techniques. Book materials are presented in the form of final formulas, graphs and tables, handy for practical application. (Aron S. Ginevskij, professor, Central Aerohydrodynamic Institute, Moscow, Russia) In various problems of hydrodynamics of ships, vessels and conversion aids of the World Ocean, an important role is played by researching of non-stationary movements of objects. Information about added masses of various structures is a key element in the process of solving these problems. The book by Professor A. I. Korotkin Added masses of ship structures is a reference book of high quality, based on many years of experience of the author and experts of Krylov Shipbuilding Research Institute. (Alexander V. Pustoshnyi, Corresponding member of the Russian Academy of Sciences, Member of the National Committee on Mechanics of the Russian Academy of Sciences, Head of Department and Deputy Director of Krylov Shipbuilding Research Institute, St.Petersburg, Russia)

"""This book impresses by its width and completeness, as well as by consistency of presentation; it is going to be extremely useful in our work."" (Nekrasov V.A., Professor, Chair of Departments of ship theory, Nikolaev State University, Ukraine) ""One should stress that this reference book can be used not only in ship engineering, but also in aviation engineering, hydrotechnique, machine engineering, i.e. everywhere where one deals with interaction of constructions with fluid."" (editorial, Morskoj Vestnik, No. 1 (25), p.105, 2008) ""In applied problems of design of engineering objects, interacting with a liquid medium, added masses determine the forces and moments acting on the constructions, especially in non-stationary regimes of motion. The book of Professor Korotkin, in which the majority of existing data on added masses of various bodies is collected, will take a reputable position in reference literature on hydromechanics."" (Kirill V. Rozhdestvenskij, Vice-Chancellor and Head of the Department of Applied Mathematics and Mathematical Modeling of St. Petersburg State Maritime Technical University) ""This book is unique. It will undoubtedly be called for by designers of ships and of other engineering structures interacting with fluids. For these specialists the reference book will certainly become an indispensable source of information. The book is encyclopedic because the author has combined a wide range of diverse issues related to the determination of added masses: analytical and numerical methods of calculation, approximate computation methods, experimental techniques. Book materials are presented in the form of final formulas, graphs and tables, handy for practical application."" (Aron S. Ginevskij, professor, Central Aerohydrodynamic Institute, Moscow, Russia) ""In various problems of hydrodynamics of ships, vessels and conversion aids of the World Ocean, an important role is played by researching of non-stationary movementsof objects. Information about added masses of various structures is a key element in the process of solving these problems. The book by Professor A. I. Korotkin ""Added masses of ship structures"" is a reference book of high quality, based on many years of experience of the author and experts of Krylov Shipbuilding Research Institute."" (Alexander V. Pustoshnyi, Corresponding member of the Russian Academy of Sciences, Member of the National Committee on ""Mechanics"" of the Russian Academy of Sciences, Head of Department and Deputy Director of Krylov Shipbuilding Research Institute, St.Petersburg, Russia)"

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