New methodological approach to estimate the turbulent kinetic energy dissipation rate
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The length scale and the spatio-temporal variation of turbulence intensity
has relevant implications on phytoplankton dynamics. Thus, it is important to estimate
the relevant parameters that characterize the turbulence in the water column,
such as epsilon (kinetic energy dissipation rates). One of the main objectives in this
work is the characterization of the physical dynamics at scales relevant to the biology.
Here we show different approaches to estimate the epsilon in the Alfacs Bay
(Ebre Delta), where recurrent harmful algal bloom events occur. First, we applied
the solid boundary layer theory wind velocities obtained by a nearby meteorological
station. Secondly, the gradient temperature microstructure method, based on
the Batchelor spectrum adjustment was applied on temperature data obtained by
a Self-Contained Autonomous MicroProfiler (SCAMP). These two approaches have
methodological restrictions, i.e. isotropic turbulent or the process applied to do the
Batchelor spectrum fitting.
A new method to characterize the turbulence is proposed. The velocity fields measured
by a deployed high resolution 2 MHz acoustic Doppler current profiler were
processed using the Reynolds decomposition to obtain an empirical parameter
which provides us the information about the turbulent kinetic energy in the water
column.
has relevant implications on phytoplankton dynamics. Thus, it is important to estimate
the relevant parameters that characterize the turbulence in the water column,
such as epsilon (kinetic energy dissipation rates). One of the main objectives in this
work is the characterization of the physical dynamics at scales relevant to the biology.
Here we show different approaches to estimate the epsilon in the Alfacs Bay
(Ebre Delta), where recurrent harmful algal bloom events occur. First, we applied
the solid boundary layer theory wind velocities obtained by a nearby meteorological
station. Secondly, the gradient temperature microstructure method, based on
the Batchelor spectrum adjustment was applied on temperature data obtained by
a Self-Contained Autonomous MicroProfiler (SCAMP). These two approaches have
methodological restrictions, i.e. isotropic turbulent or the process applied to do the
Batchelor spectrum fitting.
A new method to characterize the turbulence is proposed. The velocity fields measured
by a deployed high resolution 2 MHz acoustic Doppler current profiler were
processed using the Reynolds decomposition to obtain an empirical parameter
which provides us the information about the turbulent kinetic energy in the water
column.
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Quesada López, Rubén et al. «New methodological approach to estimate the turbulent kinetic energy dissipation rate». Instrumentation viewpoint, n.º 8, https://raco.cat/index.php/Instrumentation/article/view/196473.
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