Nomenclature: Difference between revisions

Revision as of 13:02, 31 March 2021

Frame of reference

Define frame of reference, and notation. Use u,v,w and x,y, and z?
Dumping a sketch would be useful

Reynold's Decomposition

Variable names for Decomposition of total, mean, turbulent and waves.

Turbulence properties

Symbol	Description	Eqn	Units
$ϵ$	Turbulent kinetic energy dissipation		W/kg
$ν$	Viscosity of water for seawater at 35psu and 20 oC	$1 \times 1 0^{- 6}$	m2/s
$N$	Buoyancy frequency	$N = \sqrt{\frac{- g}{\bar{ρ}} \frac{\partial \bar{ρ}}{\partial z}}$	rad/s
$τ_{N}$	Buoyancy timescale	$τ_{N} = \frac{2 π}{N}$	s
$η$	Kolmogorov length scale (smallest overturns)	$η = {(\frac{ν^{3}}{ϵ})}^{1 / 4} = \frac{1}{2 π {\hat{k}}_{K}}$	m [per rad?]
$L_{o}$	Ozmidov length scale, measure of largest overturns in a stratified fluid	$L_{o} = {(\frac{ϵ}{N^{3}})}^{1 / 2}$	m [per rad?]

Theoretical Length and Time Scales

Symbol	Description	Eqn	Units
$ϵ$	Turbulent kinetic energy dissipation		W/kg
$ν$	Viscosity of water for seawater at 35psu and 20 oC	$1 \times 1 0^{- 6}$	m2/s
$N$	Buoyancy frequency	$N = \sqrt{\frac{- g}{\bar{ρ}} \frac{\partial \bar{ρ}}{\partial z}}$	rad/s
$τ_{N}$	Buoyancy timescale	$τ_{N} = \frac{2 π}{N}$	s
$η$	Kolmogorov length scale (smallest overturns)	$η = {(\frac{ν^{3}}{ϵ})}^{1 / 4} = \frac{1}{2 π {\hat{k}}_{K}}$	m [per rad?]
$L_{o}$	Ozmidov length scale, measure of largest overturns in a stratified fluid	$L_{o} = {(\frac{ϵ}{N^{3}})}^{1 / 2}$	m [per rad?]

Turbulence Spectrum

Taylor's Frozen Turbulence for converting temporal to spatial measurements $({\bar{u}}_{1} \frac{\partial}{\partial x} = \frac{\partial}{\partial t})$

Missing the y-axi variable. CEB proposes:
- $Ψ_{v a r i a b l e}$ for model/theoretical spectrum of variable e.g., du/dx or u
- $Φ_{v a r i a b l e}$ for observed spectrum of variable e.g., du/dx or u
Lowest frequency and wavenumber resolvable

Symbol	Description	Eqn	Units
$Δ t$	Sampling interval	$\frac{1}{f_{s}}$	s
$Δ s$	Sampling volume dimension		m
$f$	Frequency	$\frac{ω}{2 π}$	Hz
$f_{n}$	Nyquist frequency	$f_{n} = 0.5 f_{s}$	Hz
$f_{s}$	Sampling frequency	$f_{s} = \frac{1}{Δ t}$	Hz
$k$	Wavenumbers (angular)	$k = \frac{f}{\bar{u}} = 2 π \hat{k}$	rad/m
$\hat{k}$	Wavenumbers	$\hat{k} = \frac{k}{2 π}$	cpm
${\hat{k}}_{Δ}$	Nyquist wavenumber, based on sampling volume's size $Δ l$	${\hat{k}}_{Δ} = \frac{0.5}{Δ l}$	cpm
${\hat{k}}_{n}$	Nyquist wavenumber, via Taylor's hypothesis (temporal measurements)	${\hat{k}}_{n} = \frac{f_{n}}{u}$	cpm
$ω$	Angular frequency	$2 π f$	rad/s

@@ Line 9: / Line 9: @@
+== Turbulence properties ==
+{| class="wikitable"
+|- Style="font-weight:bold; "
+! Symbol
+! Description
+! Eqn
+! Units
+|-
+| <math>\epsilon</math>
+| Turbulent kinetic energy dissipation
+|
+| W/kg
+|-
+| <math>\nu</math>
+| Viscosity of water for seawater at 35psu and 20 oC
+| <math> 1\times 10^{-6}</math>
+| m2/s
+|-
+| <math>N</math>
+| Buoyancy frequency
+| <math> N = \sqrt{\frac{-g}{\bar{\rho}} \frac{\partial\bar{\rho}}{\partial z}}</math>
+| rad/s
+|-
+| <math>\tau_N</math>
+| Buoyancy timescale
+| <math> \tau_N = \frac{2\pi}{N}</math>
+| s
+|-
+| <math>\eta</math>
+| Kolmogorov length scale (smallest overturns)
+| <math>\eta=\left(\frac{\nu^3}{\epsilon}\right)^{1/4}=\frac{1}{2\pi\hat{k}_K}</math>
+| m [per rad?]
+|-
+| <math>L_o</math>
+| Ozmidov length scale, measure of largest overturns in a stratified fluid
+| <math>L_o=\left(\frac{\epsilon}{N^3}\right)^{1/2}</math>
+| m [per rad?]
+|}
 == Theoretical Length and Time Scales ==

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Revision as of 13:02, 31 March 2021

Contents

Frame of reference

Reynold's Decomposition

Turbulence properties

Theoretical Length and Time Scales

Turbulence Spectrum

Test

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Nomenclature: Difference between revisions

Revision as of 13:02, 31 March 2021

Frame of reference

Reynold's Decomposition

Turbulence properties

Theoretical Length and Time Scales

Turbulence Spectrum

Test

Navigation

Wiki tools

Page tools