Turbulence generation and measurement: application to studies on plankton

Turbulence generation and measurement: application to studies on plankton

24 páginas, 10 figuras, 2 tablas.-- Contribución a "Lectures on Plankton and Turbulence" (C. Marrasé, E. Saiz and J.M. Redondo, eds)

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Main Authors: Peters, Francesc, Redondo, José M.
Format: artículo biblioteca
Language:English
Published: Consejo Superior de Investigaciones Científicas (España) 1997-03
Subjects:Small-scale turbulence, Plankton, Laboratory generated vs. oceanic turbulence, Kolmogorov microscales, Laboratory experiments, Grid-generated turbulence, Couette cylinders, Energy dissipation rate, Spectral density, Integral length, Hot-wire anemometry, Doppler anemometry, Imaging methods,
Online Access:http://hdl.handle.net/10261/28231
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spelling dig-icm-es-10261-282312019-02-20T10:15:02Z Turbulence generation and measurement: application to studies on plankton Peters, Francesc Redondo, José M. Small-scale turbulence Plankton Laboratory generated vs. oceanic turbulence Kolmogorov microscales Laboratory experiments Grid-generated turbulence Couette cylinders Energy dissipation rate Spectral density Integral length Hot-wire anemometry Doppler anemometry Imaging methods 24 páginas, 10 figuras, 2 tablas.-- Contribución a "Lectures on Plankton and Turbulence" (C. Marrasé, E. Saiz and J.M. Redondo, eds) Interest in the effects of small-scale turbulence on aquatic organisms has increased tremendously in recent years. Since the complete understanding of turbulence is still one of the last frontiers in physics, a study of its effects on organisms needs a multidisciplinary approach. With this in mind, and as an outgrowth of the EC MAST course Ocean turbulence: a basic environmental property for plankton, we review methods to generate turbulence in the laboratory and techniques to measure such turbulence in relation to their applicability to experiments with aquatic organisms. First we introduce several basic concepts to build a common ground for readers with a variety of backgrounds and interests. Then we discuss several methods to generate turbulence in the laboratory and mention the characteristics of the generated flows. We follow by describing different ways to estimate turbulence and we finish the chapter discussing a few topics that should be of interest to readers planning on doing experiments with organisms under turbulence. We will have fulfilled our objectives if this chapter is read by physicists and biologists alike and its reading develops into highly needed multidisciplinary research Funding for this work was provided by a EU grant MAS3-CT95-0016. F.P. also acknowledges a Spanish Ministry of Education Postdoctoral Fellowship, and J.M.R. acknowledges CAICYT grant UE95-0016 and EU grant MAS2-CT93-0053 Peer reviewed 2010-10-06T09:44:57Z 2010-10-06T09:44:57Z 1997-03 artículo http://purl.org/coar/resource_type/c_6501 Scientia Marina 61(S1): 205-228 (1997) 0214-8358 http://hdl.handle.net/10261/28231 1886-8134 en http://www.icm.csic.es/scimar/index.php/secId/6/IdArt/29/ open 606525 bytes application/pdf Consejo Superior de Investigaciones Científicas (España)
institution ICM ES
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country España
countrycode ES
component Bibliográfico
access En linea
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libraryname Biblioteca del ICM España
language English
topic Small-scale turbulence
Plankton
Laboratory generated vs. oceanic turbulence
Kolmogorov microscales
Laboratory experiments
Grid-generated turbulence
Couette cylinders
Energy dissipation rate
Spectral density
Integral length
Hot-wire anemometry
Doppler anemometry
Imaging methods
Small-scale turbulence
Plankton
Laboratory generated vs. oceanic turbulence
Kolmogorov microscales
Laboratory experiments
Grid-generated turbulence
Couette cylinders
Energy dissipation rate
Spectral density
Integral length
Hot-wire anemometry
Doppler anemometry
Imaging methods
spellingShingle Small-scale turbulence
Plankton
Laboratory generated vs. oceanic turbulence
Kolmogorov microscales
Laboratory experiments
Grid-generated turbulence
Couette cylinders
Energy dissipation rate
Spectral density
Integral length
Hot-wire anemometry
Doppler anemometry
Imaging methods
Small-scale turbulence
Plankton
Laboratory generated vs. oceanic turbulence
Kolmogorov microscales
Laboratory experiments
Grid-generated turbulence
Couette cylinders
Energy dissipation rate
Spectral density
Integral length
Hot-wire anemometry
Doppler anemometry
Imaging methods
Peters, Francesc
Redondo, José M.
Turbulence generation and measurement: application to studies on plankton
description 24 páginas, 10 figuras, 2 tablas.-- Contribución a "Lectures on Plankton and Turbulence" (C. Marrasé, E. Saiz and J.M. Redondo, eds)
format artículo
topic_facet Small-scale turbulence
Plankton
Laboratory generated vs. oceanic turbulence
Kolmogorov microscales
Laboratory experiments
Grid-generated turbulence
Couette cylinders
Energy dissipation rate
Spectral density
Integral length
Hot-wire anemometry
Doppler anemometry
Imaging methods
author Peters, Francesc
Redondo, José M.
author_facet Peters, Francesc
Redondo, José M.
author_sort Peters, Francesc
title Turbulence generation and measurement: application to studies on plankton
title_short Turbulence generation and measurement: application to studies on plankton
title_full Turbulence generation and measurement: application to studies on plankton
title_fullStr Turbulence generation and measurement: application to studies on plankton
title_full_unstemmed Turbulence generation and measurement: application to studies on plankton
title_sort turbulence generation and measurement: application to studies on plankton
publisher Consejo Superior de Investigaciones Científicas (España)
publishDate 1997-03
url http://hdl.handle.net/10261/28231
work_keys_str_mv AT petersfrancesc turbulencegenerationandmeasurementapplicationtostudiesonplankton
AT redondojosem turbulencegenerationandmeasurementapplicationtostudiesonplankton
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