04464nam 2200565Ia 450 991100699310332120200520144314.01-281-07703-897866110770370-08-051452-9(CKB)1000000000327021(EBL)330193(OCoLC)154320141(SSID)ssj0000072768(PQKBManifestationID)11110075(PQKBTitleCode)TC0000072768(PQKBWorkID)10103191(PQKB)10451198(MiAaPQ)EBC330193(PPN)147186803(EXLCZ)99100000000032702120000505d2000 uy 0engur|n|---|||||txtrdacontentcrdamediacrrdacarrierPractical ship hydrodynamics /Volker BertramOxford ;Boston Butterworth-Heinemann20001 online resource e (x, 270 pages) illustrationsDescription based upon print version of record.0-7506-4851-1 Includes bibliographical references (p. 265-268) and index.Front Cover; Practical Ship Hydrodynamics; Copyright Page; Contents; Preface; Chapter 1. Introduction; 1.1 Overview of problems and approaches; 1.2 Model tests - similarity laws; 1.3 Full-scale trials; 1.4 Numerical approaches (computational fluid dynamics); 1.5 Viscous flow computations; Chapter 2. Propellers; 2.1 Introduction; 2.2 Propeller curves; 2.3 Analysis of propeller flows; 2.4 Cavitation; 2.5 Experimental approach; 2.6 Propeller design procedure; 2.7 Propeller-induced pressures; Chapter 3. Resistance and propulsion; 3.1 Resistance and propulsion concepts; 3.2 Experimental approach3.3 Additional resistance under service conditions 3.4 Simple design approaches; 3.5 CFD approaches for steady flow; 3.6 Problems for fast and unconventional ships; 3.7 Exercises: resistance and propulsion; Chapter 4. Ship seakeeping; 4.1 Introduction; 4.2 Experimental approaches (model and full scale); 4.3 Waves and seaway; 4.4 Numerical prediction of ship seakeeping; 4.5 Slamming; 4.6 Exercises: seakeeping; Chapter 5. Ship manoeuvring; 5.1 Introduction; 5.2 Simulation of manoeuvring with known coefficients; 5.3 Experimental approaches; 5.4 Rudders; 5.5 Exercises: manoeuvringChapter 6. Boundary element methods 6.1 Introduction; 6.2 Source elements; 6.3 Vortex elements; 6.4 Dipole elements; 6.5 Special techniques; Chapter 7. Numerical example for BEM; 7.1 Two-dimensional flow around a body in infinite fluid; 7.2 Two-dimensional wave resistance problem; 7.3 Three-dimensional wave resistance problem; 7.4 Strip method module (two dimensional); 7.5 Rankine panel method in the frequency domain; References; IndexThe author has provided the reader with comprehensive coverage of ship hydrodynamics with a focus on numerical methods now in use. The book provides a global overview of experimental and numerical methods for ship resistance and propulsion, manoeuvring and seakeeping. As boundary element techniques are now in standard use, these are covered in sufficient detail for independent code development. The book is divided into seven chapters. Chapter one contains an overview of problems and approaches, including the basics of model and full scale testing. An introduction to computational fluid dynamics is given, including a discussion of applications. The next four chapters cover the subjects: propellers, resistance and propulsion, seakeeping and manoeuvring. These chapters present basic methods, such as model testing, extrapolation to full scale, and procedures for design. Substantial parts of each chapter include numerical methods and their applications. The last two chapters are devoted to boundary element methods for resistance and seakeeping. Web-supported text. Questions provided in chapters with answers on the web Covers well-established methods as well as the newest numerical procedures in the area of ship hydrodynamics.ShipsHydrodynamicsMarine engineeringShipsHydrodynamics.Marine engineering.623.8/12Bertram Volker30601MiAaPQMiAaPQMiAaPQBOOK9911006993103321Practical ship hydrodynamics1213502UNINA