Examples of 'turbulent flows' in a sentence
Meaning of "turbulent flows"
Turbulent flows refer to the movement or behavior of fluid (liquid or gas) in a chaotic and irregular manner. It is characterized by unpredictable fluctuations, eddies, and rapid changes in velocity and pressure. Turbulent flows are commonly studied in fluid dynamics and have applications in various fields, including engineering, environmental science, and meteorology
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- plural of turbulent flow
How to use "turbulent flows" in a sentence
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turbulent flows
Turbulent flows have been computed inboth phases.
Turbulent combustion is a combustion characterized by turbulent flows.
Turbulent flows are unsteady by definition.
The behavior becomes even interesting in turbulent flows.
Examples of turbulent flows are presented.
Polymer additives can dramatically reduce drag in turbulent flows.
The turbulent flows from the fans brake then each other effectively.
Effects of compressibility on turbulent flows.
All turbulent flows of fluids have common characteristics such as irregular motion and dissipation.
Intermittency in turbulent flows.
This constant change in the values of a given property is a characteristic of turbulent flows.
This numerical tool is then applied to rotating turbulent flows confined in a cylindrical geometry.
The manuscript continues with the principles of modeling of turbulent flows.
Turbulent flows and atmospheric movements are certainly that can be modelled by the NavierStokes equations.
You can calculate heat transfer in laminar and turbulent flows.
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The equations that govern these turbulent flows have been known for two centuries.
Low order models are built for several kinds of turbulent flows.
The equations governing turbulent flows can only be solved directly for simple cases of flow.
A major issue is then to couple detailed chemical mechanisms to turbulent flows.
It is then used to study turbulent flows in the Alderney Race using a nesting strategy.
The objective is here to perform a detailed study of radiation effect on turbulent flows.
Turbulent flows are inherently multi-scale.
This work proposes a contribution to the topological optimization of turbulent flows in buildings.
However, some turbulent flows are visible.
He has already developed methods for investigating and constructing turbulent flows.
Turbulent flows in pipes are of importance for many every-day applications.
This paper presents an experimental and numerical study of turbulent flows in compound channels.
Turbulent flows were employed either with linear and non-linear turbulence closures.
This section lists some commonly used computational models for turbulent flows.
That 's turbulence in action, and turbulent flows have certain characteristics in common.
These turbulence models are simplified constitutive equations that predict the statistical evolution of turbulent flows.
Laminar flows occur at low Reynolds numbers whereas turbulent flows occur at high Reynolds numbers.
Laminar boundary layers create smaller frictional drag forces on an aerofoil body than turbulent flows.
That 's why dealing with turbulent flows in a precise, mathematical way is very hard.
Flow divider device for air manifolds adapted to generate turbulent flows in combustion chambers.
High and turbulent flows can increase particle impaction, increasing particle deposition in the proximal airways.
You say that researchers can not solve the equations that govern turbulent flows.
This step has been shown critical to deal with turbulent flows characterized by high-frequency noise.
This dissertation addresses these points separately through the experimental study of two different turbulent flows.
The horrible predictability problems of turbulent flows then will descend on climate science with a vengeance . '.
This model accurately predicted the deposition rates for lab scale under laminar and turbulent flows.
Turbulent flows at high flow velocities can obviously wet the surface better than slow-running water.
RANS is a widely used method for modeling turbulent flows.
Mean and turbulent flows are characterized by laser velocimetry techniques ( PIV and LDV ).
NuL applies to all fluids for both laminar and turbulent flows.
GB, The iconic equation that governs turbulent flows is the Navier-Stokes equation.
The code is mainly intended to be used for Large Eddy Simulations of turbulent flows.
Summer school, Fundamental aspects of turbulent flows in climate dynamics.
Practical fluid dynamics relies on techniques such as time-averaging to model turbulent flows.
Abstract, The study of supersonic turbulent flows by Laser Doppler Velocimétry raises many specific difficulties.
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