DOC-STYLE: various release changes
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Kutalmis Bercin
@ -33,10 +33,10 @@ Group
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Description
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Computes the Obukhov length field and associated friction velocity field.
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When scaled by the ground-normal height, i.e. z, the Obukhov length becomes
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a dimensionless stability parameter, i.e. z/L, for atmospheric boundary
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layer modelling, expressing the relative roles of buoyancy and shear in the
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production and dissipation of turbulent kinetic energy.
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When scaled by the ground-normal height, i.e. \c z, the Obukhov length
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becomes a dimensionless stability parameter, i.e. \c z/L, for atmospheric
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boundary layer modelling, expressing the relative roles of buoyancy and
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shear in the production and dissipation of turbulent kinetic energy.
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\f[
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u^* = \sqrt{\max (\nu_t \sqrt{2 |\symm{\grad{\u}}|^2}, VSMALL)}
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@ -85,11 +85,11 @@ Description
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Required fields:
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\verbatim
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U | Velocity [m/s]
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T | Temperature [K]
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nut | Turbulent viscosity [m2/s]
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alphat | Kinematic turbulent thermal conductivity [m2/s]/[kg/m/s]
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g | Gravitational acceleration [m/s2]
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U | Velocity [m/s]
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T | Temperature [K]
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nut | Turbulent viscosity [m2/s]
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alphat | Kinematic turbulent thermal conductivity [m2/s]/[kg/m/s]
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g | Gravitational acceleration [m/s2]
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\endverbatim
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\table
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@ -134,7 +134,7 @@ Usage
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rhoRef | Reference density (to convert from kinematic to static <!--
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--> pressure) | scalar | no | 1.0
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kappa | von Kármán constant | scalar | no | 0.40
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beta | Thermal expansion coefficient [1/K] | scalar | no | 3e-3
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beta | Thermal expansion coefficient | scalar | no | 3e-3
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\endtable
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The inherited entries are elaborated in:
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