Marine Rudders and Control Surfaces

Marine Rudders and Control Surfaces guides naval architects from the first principles of the physics of control surface operation, to the use of experimental and empirical data and applied computational fluid dynamic modelling of rudders and control surfaces. The empirical and theoretical methods applied to control surface design are described in depth and their use explained through application to particular cases. The design procedures are complemented with a number of worked practical examples of rudder and control surface design. • The only text dedicated to marine control surface design • Provides experimental, theoretical and applied design information valuable for practising engineers, designers and students • Accompanied by an online extensive experimental database together with software for theoretical predictions and design development

Produk Detail:

  • Author : Anthony F. Molland
  • Publisher : Elsevier
  • Pages : 448 pages
  • ISBN : 9780080549248
  • Rating : 5/5 from 1 reviews
CLICK HERE TO GET THIS BOOKMarine Rudders and Control Surfaces

Marine Rudders and Control Surfaces

Marine Rudders and Control Surfaces
  • Author : Anthony F. Molland,Stephen R. Turnock
  • Publisher : Elsevier
  • Release : 24 February 2011
GET THIS BOOKMarine Rudders and Control Surfaces

Marine Rudders and Control Surfaces guides naval architects from the first principles of the physics of control surface operation, to the use of experimental and empirical data and applied computational fluid dynamic modelling of rudders and control surfaces. The empirical and theoretical methods applied to control surface design are described in depth and their use explained through application to particular cases. The design procedures are complemented with a number of worked practical examples of rudder and control surface design. • The

Ship Motion Control

Ship Motion Control
  • Author : Tristan Perez
  • Publisher : Springer Science & Business Media
  • Release : 30 March 2006
GET THIS BOOKShip Motion Control

engineers into a single volume whilst concentrating on two important research control design problems: autopilots with rudder-roll stabilization and fin and combined rudder-fin stabilization. He has been guided by some of the leading marine control academics, in particular Mogens Blanke and Thor Fossen; indeed Chapters 3 and 4 on kinematics and kinetics of ship motion are jointly authored with Professor Fossen. There are some 240 cited references – an invaluable resource for interested readers. The volume is likely to appeal to a wide range

Ship Resistance and Propulsion

Ship Resistance and Propulsion
  • Author : Anthony F. Molland,Stephen R. Turnock,Dominic A. Hudson
  • Publisher : Cambridge University Press
  • Release : 08 August 2011
GET THIS BOOKShip Resistance and Propulsion

Ship Resistance and Propulsion provides a comprehensive approach to evaluating ship resistance and propulsion. Informed by applied research, including experimental and CFD techniques, this book provides guidance for the practical estimation of ship propulsive power for a range of ship types. Published standard series data for hull resistance and propeller performance enables practitioners to make ship power predictions based on material and data contained within the book. Fully worked examples illustrate applications of the data and powering methodologies; these include

The Maritime Engineering Reference Book

The Maritime Engineering Reference Book
  • Author : Anthony F. Molland
  • Publisher : Elsevier
  • Release : 13 October 2011
GET THIS BOOKThe Maritime Engineering Reference Book

The Maritime Engineering Reference Book is a one-stop source for engineers involved in marine engineering and naval architecture. In this essential reference, Anthony F. Molland has brought together the work of a number of the world's leading writers in the field to create an inclusive volume for a wide audience of marine engineers, naval architects and those involved in marine operations, insurance and other related fields. Coverage ranges from the basics to more advanced topics in ship design, construction and

The Oxford Handbook of Maritime Archaeology

The Oxford Handbook of Maritime Archaeology
  • Author : Alexis Catsambis,Ben Ford,Donny L. Hamilton
  • Publisher : Oxford University Press
  • Release : 01 February 2014
GET THIS BOOKThe Oxford Handbook of Maritime Archaeology

The Oxford Handbook of Maritime Archaeology is a comprehensive survey of the field at a time when maritime archaeology has established itself as a mature branch of archaeology. This volume draws on the expertise of nearly fifty international scholars who examine the many distinct and universal aspects of the discipline.

Practical Ship Hydrodynamics

Practical Ship Hydrodynamics
  • Author : Volker Bertram
  • Publisher : Elsevier
  • Release : 25 August 2011
GET THIS BOOKPractical Ship Hydrodynamics

Practical Ship Hydrodynamics provides a comprehensive overview of hydrodynamic experimental and numerical methods for ship resistance and propulsion, maneuvering, seakeeping and vibration. Beginning with an overview of problems and approaches, including the basics of modeling and full scale testing, expert author Volker Bertram introduces the marine applications of computational fluid dynamics and boundary element methods. Expanded and updated, this new edition includes: Otherwise disparate information on the factors affecting ship hydrodynamics, combined to provide one practical, go-to resource. Full coverage

Control of Ships and Underwater Vehicles

Control of Ships and Underwater Vehicles
  • Author : Khac Duc Do,Jie Pan
  • Publisher : Springer Science & Business Media
  • Release : 09 August 2009
GET THIS BOOKControl of Ships and Underwater Vehicles

Most ocean vessels are underactuated but control of their motion in the real ocean environment is essential. Starting with a review of the background on ocean-vessel dynamics and nonlinear control theory, the authors’ systematic approach is based on various nontrivial coordinate transformations coupled with advanced nonlinear control design methods. This strategy is then used for the development and analysis of a number of ocean-vessel control systems with the aim of achieving advanced motion control tasks including stabilization, trajectory-tracking, path-tracking and