Variable outputVariablesConst
outputVariables: {
dqt: {
symbol: "Δq";
title: "Specific humidity jump";
unit: "kg kg⁻¹";
};
dtheta: {
symbol: "Δθ";
title: "Potential temperature jump";
unit: "K";
};
dthetav: {
symbol: "Δθᵥ";
title: "Virtual temperature jump at h";
unit: "K";
};
du: {
symbol: "Δu";
title: "U-wind jump at h";
unit: "m s⁻¹";
};
dv: {
symbol: "Δv";
title: "V-wind jump at h";
unit: "m s⁻¹";
};
h: {
symbol: "h";
title: "ABL height";
unit: "m";
};
qt: {
symbol: "q";
title: "Specific humidity";
unit: "kg kg⁻¹";
};
t: {
symbol: "t";
title: "Time";
unit: "s";
};
theta: {
symbol: "θ";
title: "Potential temperature";
unit: "K";
};
u: {
symbol: "u";
title: "Mixed-layer u-wind component";
unit: "m s⁻¹";
};
v: {
symbol: "v";
title: "Mixed-layer v-wind component";
unit: "m s⁻¹";
};
we: {
symbol: "wₑ";
title: "Entrainment velocity";
unit: "m s⁻¹";
};
wq: {
symbol: "(w'q')ₛ";
title: "Surface kinematic heat flux";
unit: "kg kg⁻¹ m s⁻¹";
};
ws: {
symbol: "wₛ";
title: "Large-scale vertical velocity";
unit: "m s⁻¹";
};
wtheta: {
symbol: "(w'θ')ₛ";
title: "Surface kinematic heat flux";
unit: "K m s⁻¹";
};
wthetav: {
symbol: "(w'θ')ᵥ";
title: "Surface virtual heat flux";
unit: "K m s⁻¹";
};
wthetave: {
symbol: "(w'θ')ᵥₑ";
title: "Entrainment virtual heat flux";
unit: "K m s⁻¹";
};
} = ...