Nomenclature: Difference between revisions

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Revision as of 21:17, 27 October 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

---- MOVE THIS TO CONCEPT ---

Reynold's Decomposition

Variable names for Decomposition of total, mean, turbulent and waves.
Needs to be decided across the ADV/ADCP working groups

---- MOVE THIS TO FUNDAMENTALS ---

Background (total) velocity

---- MAKE SURE TO BE CONSISTENT WITH NETCDF TABLE --- ---- NETCDF TABLE will have own page (periodic copy&paste of excel sheet)---

Symbol	Description	Units
u	zonal velocity	$m s^{- 1}$
v	meridional velocity	$m s^{- 1}$
$u_{e}$	error velocity	$m s^{- 1}$
V	velocity perpendicular to mean flow	$m s^{- 1}$
$W_{d}$	Profiler fall speed	$m s^{- 1}$
$U_{P}$	Flow speed past sensor	$m s^{- 1}$
b	Along-beam velocity from acoustic Doppler sensor	$m s^{- 1}$
$b^{'}$	Along-beam velocity from acoustic Doppler sensor with background flow deducted	$m s^{- 1}$
$δ z$	Vertical size of measurement bin for acoustic Doppler sensor	$m$
r	Along-beam distance from acoustic Doppler sensor	$m$
$δ r$	Along-beam bin size for acoustic Doppler sensor	$m$
$θ$	Beam transmit and receive angle relative to instrument axis for acoustic Doppler sensor	$\circ$

Turbulence properties

Symbol	Description	Eqn	Units
$ε$	Turbulent kinetic energy dissipation rate		$W k g^{- 1}$
Ri	Richardson number	$R i = \frac{N^{2}}{S^{2}}$
$R i_{f}$	Flux gradient Richardson number	$\frac{B}{P}$ or Ivey & Imberger? Karan et cie
$κ_{ρ}$	Turbulent eddy diffusivity via Osborn's model	$κ = Γ ε N^{- 2}$	$m^{2} s^{- 1}$
$D_{L L}$	Second-order longitudinal structure function	$D_{L L} = ⟨ [b^{'} (r) - b^{'} (r + n δ r)]^{2} ⟩$	$m^{2} s^{- 2}$

Fluid properties and background gradients for turbulence calculations

Symbol	Description	Eqn	Units
$S_{a}$	Salinity	$\sim 35$
T	Temperature	$\sim - 2 \to 40$	$^{\circ} C$
P	Pressure	$0 \to \sim 1 \times 1 0^{4}$	$d b a r$
$ρ$	Density of water	$ρ = ρ (T, S_{a}, P)$	$k g m^{- 3}$
$α$	Temperature coefficient of expansion	$α = \frac{1}{ρ} \frac{\partial ρ}{\partial T}$	$K^{- 1}$
$β$	Saline coefficient of contraction	$β = \frac{1}{ρ} \frac{\partial ρ}{\partial S_{a}}$
S	Background velocity shear	$S = {({(\frac{\partial U}{\partial z})}^{2} + {(\frac{\partial V}{\partial z})}^{2})}^{1 / 2}$	$s^{- 1}$
$ν_{35}$	Temperature dependent kinematic viscosity of seawater at a salinity of 35	$\sim 1 \times 1 0^{- 6}$	$m^{2} s^{- 1}$
$ν_{00}$	Temperature dependent kinematic viscosity of freshwater	$\sim 1 \times 1 0^{- 6}$	$m^{2} s^{- 1}$
$Γ$	Adiabatic temperature gradient -- salinity, temperature and pressure dependent	$\sim 1 \times 1 0^{- 4}$	$K d b a r^{- 1}$
$N$	Background stratification, i.e buoyancy frequency	$N^{2} = g [α (Γ + \frac{\partial T}{\partial z}) - β \frac{\partial S_{a}}{\partial z}]$	$r a d s^{- 1}$

Theoretical Length and Time Scales

Symbol	Description	Eqn	Units
$τ_{N}$	Buoyancy timescale	$τ_{N} = \frac{1}{N}$	$s$
$T_{N}$	Buoyancy period	$T_{N} = \frac{2 π}{N}$	$s$
$L_{E}$	Ellison length scale (limit of vertical displacement without irreversible mixing)	$L_{E} = \frac{⟨ ρ'^{2} ⟩^{1 / 2}}{\partial \overline{ρ} / \partial z}$	$m$
$L_{ρ}$	Density length scale	$L_{ρ}$	$m$
$L_{S}$	Corssin length scale	$L_{S} = \sqrt{ε / S^{3}}$	$m$
$η$	Kolmogorov length scale (smallest overturns)	$η = {(\frac{ν^{3}}{ε})}^{1 / 4}$	$m$
$L_{K}$	Kolmogorov length scale (smallest overturns)	$L_{K} = {(\frac{ν^{3}}{ε})}^{1 / 4}$	$m$
$L_{o}$	Ozmidov length scale, measure of largest overturns in a stratified fluid	$L_{o} = {(\frac{ε}{N^{3}})}^{1 / 2}$	$m$
$L_{T}$	Thorp length scale	$L_{T}$	$m$

Turbulence Spectrum

These variables are used to express the Turbulence spectrum expected shapes.

CynthiaBluteau (talk) 01:08, 14 October 2021 (CEST) add theses to table.

- $Ψ_{v a r i a b l e}$ 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

Symbol	Description	Eqn	Units
$Δ t$	Sampling interval	$\frac{1}{f_{s}}$	$s$
$f_{s}$	Sampling rate	$f_{s} = \frac{1}{Δ t}$	$s^{- 1}$
$Δ s$	Sample spacing	$Δ s = U_{P} Δ t$	$m$
$Δ l$	Linear dimension of sampling volume (instrument dependent)		$m$
$f$	Cyclic frequency	$f = \frac{ω}{2 π}$	$H z$
$ω$	Angular frequency	$ω = 2 π f$	$r a d s^{- 1}$
$f_{N}$	Nyquist frequency	$f_{N} = 0.5 f_{s}$	$H z$
$k$	Cyclic wavenumber	$k = \frac{f}{U_{P}}$	$c p m$
$\hat{k}$	Angular wavenumber	$\hat{k} = \frac{ω}{U_{P}} = 2 π k$	$r a d m^{- 1}$
$k_{Δ}$	Nyquist wavenumber, based on sampling volume size $Δ l$	$k_{Δ} = \frac{0.5}{Δ l}$	$c p m$
$k_{N}$	Nyquist wavenumber, via Taylor's hypothesis	$k_{N} = \frac{f_{N}}{U_{P}}$	$c p m$
$Ψ_{v a r i a b l e} (k)$	Theoretical, empirical or model spectrum of any given variable		units of the variable squared/units of k (i.e.,cpm)

@@ Line 250: / Line 250: @@
 ! Eqn
 ! Units
-|-
-| <math>\Psi_{\mathrm{variable}}(k)</math>
-| Theoretical, empirical or model spectrum of any given variable
-|
-| units of the variable squared/units of k (i.e.,cpm)
 |-
 | <math>\Delta t</math>
@@ Line 310: / Line 305: @@
 | <math>k_N=\frac{f_N}{U_P}</math>
 | <math> \mathrm{cpm} </math>
+|-
+| <math>\Psi_{\mathrm{variable}}(k)</math>
+| Theoretical, empirical or model spectrum of any given variable
+|
+| units of the variable squared/units of k (i.e.,cpm)
 |}
 </div>

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Revision as of 21:17, 27 October 2021

Contents

Frame of reference

Reynold's Decomposition

Background (total) velocity

Turbulence properties

Fluid properties and background gradients for turbulence calculations

Theoretical Length and Time Scales

Turbulence Spectrum

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Nomenclature: Difference between revisions

Revision as of 21:17, 27 October 2021

Frame of reference

Reynold's Decomposition

Background (total) velocity

Turbulence properties

Fluid properties and background gradients for turbulence calculations

Theoretical Length and Time Scales

Turbulence Spectrum

Navigation

Wiki tools

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