Last edited by Akinocage
Saturday, July 25, 2020 | History

5 edition of Hydrodynamic Propulsion and Its Optimization found in the catalog.

Hydrodynamic Propulsion and Its Optimization

(Analytic Theory) (Fluid Mechanics and Its Applications)

by J.A. Sparenberg

  • 41 Want to read
  • 31 Currently reading

Published by Springer .
Written in English

    Subjects:
  • Marine engineering,
  • Mechanics of fluids,
  • Science,
  • Engineering Fluid Mechanics,
  • Transportation,
  • Science/Mathematics,
  • Ships & Shipbuilding - Engineering,
  • Engineering - Mechanical,
  • Mechanics - General,
  • Science / Mechanics,
  • Science-Mechanics - General,
  • Technology-Engineering - Mechanical,
  • Hydrodynamics,
  • Mathematical models,
  • Mathematical optimization,
  • Ship propulsion

  • The Physical Object
    FormatHardcover
    Number of Pages396
    ID Numbers
    Open LibraryOL7807680M
    ISBN 100792332016
    ISBN 109780792332015

    Description: HYDRODYNAMIC PROPULSION AND ITS OPTIMIZATION ANALYTIC THEORY Hydrodynamic propulsion has been of major interest ever since craft took to the water. In the course of time, many attempts have been made to invent, develop, or to improve hydrodynamic propulsion devices. Hydrodynamic Propulsion and Its Optimization. Rocket Propulsion Elements remains the definitive guide to the field, providing a comprehensive introduction to essential concepts and applications. This book will help readers: * Understand the physics of flight and the chemistry of propulsion * Analyze liquid, solid, gas, and hybrid.

    J. A. Sparenberg has written: 'Elements of hydrodynamic propulsion' -- subject(s): Ship propulsion 'Hydrodynamic propulsion and its optimization' -- subject(s): Mathematical models, Mathematical. Books shelved as hydrodynamics: Hydrodynamics by Horace Lamb, Ship Resistance and Propulsion by A.F. Molland, Hydrodynamics of High-Speed Marine Vehicles.

    Practical Ship Hydrodynamics, Second Edition, introduces the reader to modern ship hydrodynamics. It describes experimental and numerical methods for ship resistance and propulsion, maneuvering, seakeeping, hydrodynamic aspects of ship vibrations, and hydrodynamic options for fuel efficiency, as well as new developments in computational methods and model testing techniques relating to marine /5(14). Hydromechanics of Swimming Propulsion—Part 3: Swimming and Optimum Movements of Slender Fish With Side Fins Hydrodynamic Propulsion by Large Amplitude Oscillation of an Airfoil With Chordwise Flexibility,” D. B., Lauder, G. V., and. Smits, A. J., , “ Maximizing the Efficiency of a Flexible Propulsor Using Experimental Author: Samane Zeyghami, Keith W. Moored.


Share this book
You might also like
Easy

Easy

A history of Europe from 1815 to 1923.

A history of Europe from 1815 to 1923.

Rural China; imperial control in the nineteenth century.

Rural China; imperial control in the nineteenth century.

Grocery trade in the 21st century

Grocery trade in the 21st century

Tindall America - A Narrative History (Paper Onl Y)

Tindall America - A Narrative History (Paper Onl Y)

management plan for Mississippis marine fisheries

management plan for Mississippis marine fisheries

A short defence of infants baptism

A short defence of infants baptism

In the wake of Hellerstein

In the wake of Hellerstein

Ragged romance

Ragged romance

The storehouse of Sundry valuables

The storehouse of Sundry valuables

Market Weighton, Yorkshire: the official guide.

Market Weighton, Yorkshire: the official guide.

Variable intensity of on-the-job search

Variable intensity of on-the-job search

The life and death of Sacco and Vanzetti.

The life and death of Sacco and Vanzetti.

Lineages of European citizenship

Lineages of European citizenship

Confessions of a dealer

Confessions of a dealer

Hydrodynamic Propulsion and Its Optimization by J.A. Sparenberg Download PDF EPUB FB2

HYDRODYNAMIC PROPULSION AND ITS OPTIMIZATION ANALYTIC THEORY Hydrodynamic propulsion has been of major interest ever since craft took to the water. In the course of time, many attempts have been made to invent, develop, or to improve hydrodynamic propulsion by: HYDRODYNAMIC PROPULSION AND ITS OPTIMIZATION ANALYTIC THEORY Hydrodynamic propulsion has been of major interest ever since craft took to the water.

In the course of time, many attempts have been made to invent, develop, or to improve hydrodynamic propulsion devices. Remarkable achievements in this. HYDRODYNAMIC PROPULSION AND ITS OPTIMIZATION ANALYTIC THEORY Hydrodynamic propulsion has been of major interest ever since craft took to the water.

In the course of time, many attempts have been made to invent, develop, or to improve hydrodynamic propulsion devices. HYDRODYNAMIC PROPULSION AND ITS OPTIMIZATION ANALYTIC THEORY Hydrodynamic propulsion has been of major interest ever since craft took to the water.

Hydrodynamic Propulsion and Its Optimization: Analytic Theory. [J A Sparenberg] -- This work is an extended version of Elements of Hydrodynamic Propulsion (Martinus Nijhoff ), and treats many subjects in a more general way or with more far-reaching results.

Cite this chapter as: Sparenberg J.A. () Optimization Theory. In: Hydrodynamic Propulsion and Its Optimization. Fluid Mechanics and Its Applications, vol capability or other characteristics of Azipod system operation. Benefits The new optimization solutions are designed to improve the efficiency of the Azipod unit.

Through optimized hydrodynamic characteristics of the Azipod propulsor, it is possible to improve the efficiency of propeller operation and the flow of water around the Azipod propulsor.

The hydrodynamic shape of high speed diver propulsion vehicle (DPV) is very important to its performance. One of the basic optimization steps is minimizing DPV drag force to reduce power required.

In the present paper, the research has been started by optimization process with a basic design and it would be graduallyAuthor: M. Sadeghizadeh, B.

Saranjam, R. Kamali. 5 State of the Art Propulsion Improving Devices (PID) Propulsion Improving Devices are stationary flow- directing devices positioned near the propeller. These can be positioned either ahead of the propeller fixed to the ship‟s structure, or behind, fixed either to the rudder or the propeller Size: 1MB.

A method for optimizing hull forms with respect to their hydrodynamic performance in calm and rough water is presented. The method is based on an initial optimization of a parent hull form for Author: Gregory Grigoropoulos.

In this study, a genetic algorithm was used to optimize the hydro-acoustic and hydrodynamic performance of propellers. The main objectives of this optimization were to reduce the propeller noise and increase its hydrodynamic efficiency.

Modifying the propeller geometry is one of the most effective methods for optimizing a propeller : Abouzar Ebrahimi, Mohammad Saeed Seif, Ali Nouri-Borujerdi.

Practical Ship Hydrodynamics, Second Edition, introduces the reader to modern ship hydrodynamics. It describes experimental and numerical methods for ship resistance and propulsion, maneuvering, seakeeping, hydrodynamic aspects of ship vibrations, and hydrodynamic options for fuel efficiency, as well as new developments in computational methods.

About the author () Tony Marchaj is a former research fellow in the department of aeronautics and astronautics at Southampton University and is now an independent aerodynamics consultant whose ability and advice are sought throughout the world.5/5(1).

A magnetohydrodynamic drive or MHD accelerator is a method for propelling vehicles using only electric and magnetic fields with no moving parts, accelerating an electrically conductive propellant (liquid or gas) with magnetohydrodynamics.

The fluid is directed to the rear and as. Aero-hydrodynamics of Sailing Czesław A. Marchaj No preview available - Computational Fluid Dynamics With Moving Boundaries Wei Shyy, H. Udaykumar, Madhukar M. Rao Limited preview - Hydrodynamic Propulsion and Its Optimization: Analytic Theory All Book Search results » Bibliographic information.

Title: Aero. The AUV, AUTOSUB, developed by the Ocean Engineering Department of the Southampton Oceanography Centre is a versatile vehicle for the collection of scienti. Azipod Hydrodynamic Optimization offers several new solutions for improved efficiency of Azipod operation.

The structural changes in the strut, fin, and pod cap enable the same thrust while the Azipod propulsor uses less energy. The propeller modification is designed to improve the propeller’s hydrodynamic efficiency.

A series of eight hull forms is considered in this study. These hull forms, previously analyzed in, within the mid-term sealift ship technology development program, are variants of the baseline hull form that is depicted in Fig. 1 and is identified as DTMB model in.The other seven hull forms are identical to the baseline hull form shown in Fig.

1 except for the shape of the bow bulb Cited by: Looking for books by J.A. Sparenberg. See all books authored by J.A. Sparenberg, including Elements of Hydrodynamic Propulsions (Mechanics of Fluids & Transport Processes), and Hydrodynamic Propulsion and Its Optimization: Analytic Theory, and more on Hydrodynamic performance engineering is critical to the optimal design of any vessel.

Our solutions enable analysis of vessel hydrodynamics at full scale, and under realistic operating conditions. Use a virtual towing tank to examine any flow or performance aspect such as hull resistance, self-propulsion, maneuvering, vessel acceleration, or.

For such high speeds the hydrodynamic design of the propeller with its housing is critical due to the danger of cavitation on both propeller blades and supporting strut. This paper deals with the optimization process of the propeller housing using RANS solver by: 3.Harries et al. () investigates optimization strategies for the hydrodynamic design of fast ferries.

A commercial optimization system is used to integrate various computer-aided design (CAD. Influence of Reciprocal Effect Between Swimming Models and Undulating Fin Morphology on Robotics Propulsion Performance 20 August | Journal of Robotics and Mechatronics, Vol.

24, No. 4 Numerical simulation for hydrodynamic characteristics of a bionic flapping hydrofoil.