Logo - springer
Slogan - springer

Materials - Mechanics | Flow Visualization and Image Analysis

Flow Visualization and Image Analysis

Nieuwstadt, F.T. (Ed.)

1993, IX, 279 p.

Available Formats:
eBook
Information

Springer eBooks may be purchased by end-customers only and are sold without copy protection (DRM free). Instead, all eBooks include personalized watermarks. This means you can read the Springer eBooks across numerous devices such as Laptops, eReaders, and tablets.

You can pay for Springer eBooks with Visa, Mastercard, American Express or Paypal.

After the purchase you can directly download the eBook file or read it online in our Springer eBook Reader. Furthermore your eBook will be stored in your MySpringer account. So you can always re-download your eBooks.

 
$279.00

(net) price for USA

ISBN 978-94-011-2690-8

digitally watermarked, no DRM

Included Format: PDF

download immediately after purchase


learn more about Springer eBooks

add to marked items

Hardcover
Information

Hardcover version

You can pay for Springer Books with Visa, Mastercard, American Express or Paypal.

Standard shipping is free of charge for individual customers.

 
$349.00

(net) price for USA

ISBN 978-0-7923-1994-8

free shipping for individuals worldwide

usually dispatched within 3 to 5 business days


add to marked items

Softcover
Information

Softcover (also known as softback) version.

You can pay for Springer Books with Visa, Mastercard, American Express or Paypal.

Standard shipping is free of charge for individual customers.

 
$349.00

(net) price for USA

ISBN 978-94-010-5191-0

free shipping for individuals worldwide

usually dispatched within 3 to 5 business days


add to marked items

Progress in fluid mechanics depends heavily on the availability of good experimental data which can inspire new ideas and concepts but which are also necessary to check and validate theories and numerical calculations.
With the advent of new recording and image analysis techniques new and promising experimental methods in fluid flows have presented themselves which are rather newly developed techniques such as particle tracking velocimetry (PTV), particle image velocimetry (PIV) and laser fluorescene (LIF).
This volume presents state-of-the-art research on these techniques and their application to fluid flow. Selected papers from the EUROMECH conference on Image Analysis are published in this volume.

Content Level » Research

Keywords » Particle Image Velocimetry - development - fluid mechanics - laser - mechanics - turbulence - waves

Related subjects » Classical Continuum Physics - Engineering - Mechanics - Physics

Table of contents 

Theory of cross-correlation analysis of PIV images.- Decay of rotating turbulence: Some particle tracking experiments.- Measurement of product concentration of two parallel reactive jets using digital image processing.- Image analysis of oil film interferometry - a method of measuring wall shear stress distributions.- Recent advances in LSV, PIV and PTV.- Development of particle image velocimetry: A new computation method with directional resolution.- Algorithms for automatic measurements of size and velocity of spray droplets from holography reconstructions.- Characterization of Savonius rotor wake using image analysis processing techniques.- An application of image processing methods to determine the critical shear stress in sewer systems.- A three dimensional particle image velocimetry system and its application to the measurement of acoustic streaming.- A camera for measuring density, size and velocity of rising air bubbles and water velocity in a bubble plume.- The application of PIV to turbulent two-phase flow.- A critical analysis of the particle image velocimetry technique as applied to waves.- A colored method for PIV technique.- Digital PIV applied to flows around artificial heart valves: Analysis by autocorrelation.

Popular Content within this publication 

 

Articles

Read this Book on Springerlink

Services for this book

New Book Alert

Get alerted on new Springer publications in the subject area of Engineering Fluid Dynamics.