Donate!

Tuesday, July 21, 2015

Static Stability



If the environment is cooling slower than the wet adiabatic lapse rate is 
Stable
If the parcel is cooling faster than the dry adiabatic lapse rate
Unstable
̶        Depends on if the parcel is cooling at the wet adiabatic lapse rate or the dry adiabatic lapse rate

̶         When ΓE falls between ΓW and ΓD.
Conditionally unstable
Depends on water vapor capacity
Saturation


 


̶        Race to get cold (lapse rate): Instability is in a race (atmosphere) between the environment and the parcel, we want the environment to win (by being colder) at a rate of 10 at the PBL (planetary boundary layer)
̶        PBL (Planetary Boundary Layer): The part of the atmosphere that cools at a rate of 10/km



“Since the density differences are affected by the differences between the adiabatic lapse rates and the environmental lapse rate, one may denote absolute instability occurring when the environmental lapse rate, ΓE , exceeds the dry adiabatic lapse rate, ΓD; absolute stability occurring when ΓE is less than the wet adiabatic lapse rate, ΓW ; and conditional instability when ΓE falls between ΓW and Γ . The atmosphere may be considered potentially unstable, (or synonymously convectively unstable) when referring to the atmosphere's potential for releasing instability, even when the atmosphere appears to be stable. A layer may be strongly stable (that is, it has a negative D lapse rate) and yet still considered to be potentially unstable. This is favored when the bottom of a specific layer is warm and moist while the top of the layer is substantially drier.”









Dynamically lifting a layer of the atmosphere

̶        Lapse rate decreases as it goes up
̶        Bottom layer saturates more quickly than the top


“The original layer is considered convectively unstable if at the point of total saturation, the layer has a lapse rate greater than the ΓW. This criterion can be represented by determining the change of the equivalent potential temperature with height. If dθe/ dZ<0, the atmosphere is considered convectively unstable.”

“If θe at the bottom is greater than θe at the top, as it is in this case, then the layer’s lapse rate is greater than the local wet adiabatic lapse rate and the layer is convectively unstable.”


̶        Turbulent Eddies mixes the atmosphere in the PBL (or CBL)
o   Mechanically induced T.E.
§ 
Result of roughness and wild speed
o   Thermally induced T.E
̶        Redistributes heat and water vapor (w)
̶       
Constant: Heat, w, potential temperature,

Sun give off radiation à ground absorbs radiation à warms up the ground à ground warms up the air à upward flux of sensible heat

Flux: flow through an area
Sensible heat: The heat through touch

Three ways to transfer heat
o   Convection
o   Conduction
o   Radiation

How does the density change with height?
̶        Decrease with height because pressure is decreasing with height because there is less weight of the air above you
̶        dp / dz > 0
̶        Heating the air makes it less dense and needs to cool at 34C /km

As I go down into the molecular boundary layer the decrease in density due to an increase in temperature has to more than compensate for the increase in density due to an increase in pressure.

What 2 things influence density?
̶        Temperature
̶        Pressure




OLR (Outgoing Long-wave Radiation): making the ground cold à air in contact with ground gets cold à atmosphere more dense à doesn’t want to overturn àT.E. makes it overturn anyway (calm night will be the coldest) àcauses frost because the temperature closer to the ground is colder



LLNJ (Low Level Nocturnal Jet)


CCL - Convective condensation level; the lowest level at which condensation will occur as a result of convection due to surface heating.

The CCL, or Convection Condensation Level, is the height to which a parcel of air, if heated sufficiently from below, will rise adiabatically until condensation begins. In the most common case, this is the height of the base of cumulus clouds which are produced by thermally-induced turbulent eddies (convection solely from surface heating).

The CAP will break when the PBE between the LFC and EL is greater than the NBE/CIN above the EL and the next LFC.

T and TD affect θe.

The higher the θe the more likely I am to get thunderstorms.

The Anvil forms at the EL and the overshooting top is when the parcel bounces around the EL.

To break a CAP
̶        Increase temperature
̶        Increase Dewpoint
̶        Convective battering
                                                         
What is the effect of the air coming down into the boundary layer?
̶        The air is colder but as I bring it down it gets warmer

Convective battery
Mon Test: Part 2 of lab, soundings,

Tues: Multiple choice and short answer



Labeling the Graph
LIFTED INDEX LI = T500 - Tp500
If ( - ) then it is unstable


θ on the dry adiabat = constant
θ on the wet adiabat = increasing

θe = total heat, never changes


PBL (Planetary Boundary Layer): The part of the atmosphere that cools at a rate of 10/km

NBE/CIN/CAP

No comments:

Post a Comment