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ChicagoLand Glider Council

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... the air at the surface must attain to form the first cumulus. ... In such circumstances, cumulus clouds, or even cumulonimbus (thunderstorms) are likely. ... – PowerPoint PPT presentation

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Title: ChicagoLand Glider Council


1
ChicagoLand Glider Council
Soaring Weather and Data Analysis Greg
Chisholm December 19, 2000
Al McDonald Photo
2
Outline
  • The internet - so much data so little time
  • Brief introduction
  • Introduce SkewT/LogP
  • Examples
  • Discussion on how to improve our page

3
Whats out there! Meteo-Speak
  • Sounding diagrams provide a important means for
    determining the stability of the atmosphere above
    a specific location. By using the concept of an
    air parcel, lifting it or lowering it and
    comparing the resulting parcel conditions to the
    conditions of the surrounding environment as
    defined by the balloon sounding.
  • Parcels of unsaturated air tend to follow the dry
    adiabat lines as they ascend or descend. The
    saturation adiabats lines show how parcels
    saturated with water vapor will ascend or
    descend. Descending parcels will tend to
    unsaturate immediately. The mixing ratio lines
    relate to the amount of water vapor in a parcel
    in grams of water vapor per kilograms of dry air.
    Parcels of air attempt to maintain a constant
    mixing ratio as they ascend or descend.
    Generally, a parcel will rise, following the dry
    adiabat until it saturates. This occurs when dry
    adiabat crosses the initial mixing ratio line.
    This is considered the LCL. If lifting continues,
    the parcel cools following the saturation
    adiabat. If the parcel descends, it will always
    follow the dry adiabat as it will immediately
    unsaturate if saturated. By then comparing the
    parcel temperature to the environment, you can
    determine whether it is stable (parcel cooler) or
    unstable (parcel warmer). An unstable parcel will
    accelerate upwards and is the primary means for
    thunderstorm development. A stable parcel will
    decelerate and eventually descend. This is the
    typical atmospheric condition and it the primary
    condition in high pressure areas. The descending
    air desaturates the atmosphere and leads to
    clearing skies and calm conditions

4
What we want
  • Top and strength of the lift
  • Thermal Indices
  • Cloud base estimates
  • Perturbations, i.e.,
  • Clamp
  • Sea Breeze Front
  • Conditions over our airfield and changes over
    time
  • Thermals are a product of instability -
    their height depends on the depth of the unstable
    layer and their strength depends on the degree of
    instability. To arrive at an estimate of the
    thermal height and strength, a thermal index (TI)
    is computed ... (Extract from SSA's Soaring
    Flight Manual)

5
Kevin Fords Offering - Abbreviated
6
Partial output for an ILX request
7
Introduction SkewT/LogP
  • Temperature as a function of height (denoted by
    pressure)
  • Pressure is plotted horizontally on an inverse
    log scale LogP
  • Temperature is plotted with a skew to the right
    SkewT
  • Dry and saturation adiabats are drawn to aid
    analysis
  • Winds as a function of height are also plotted
  • Additional esoteric meteo-stuff is provided

8
GOES SkewT
9
Thermal Soaring and the SkewT Valley Soaring
Association P.J. Kelley
  • Want to predict height and strength of thermals
  • Most SkewT diagrams are too complicated for our
    use
  • especially since were only interested in the
    bottom 25
  • For example -- 0-50K pressure/alt
    temperature dry adiabat sat. adiabat mixing
    ratio dewpoint hodogram wind)
  • Note the following is provided by soaring pilots
    for soaring pilots meteorologists be warned

10
Blank Soaring SkewT
11
Building Your Own SkewT
  • Plot the forecast high temperature for the day,
    e.g., 86F., at airfield elevation
  • Plot the forecast temperatures aloft, e.g.,
  • 3,000, 260/8, no temp
  • 6,000, 270/7, 12C ? 53F
  • 9,000, 300/15, 7C ? 45F
  • 12,000, 290/15, -2C ? 28F
  • Connect the dots
  • The top of the thermals is the intersection of
    the dry adiabat for todays high and the
    temperature aloft plot (sounding)

12
Example
12K ?,28F
  • Forecast Hi
  • Temps aloft
  • Connect dots
  • Intersection Top

9K ?,45F
This Days Thermal Top
6K?,53F
Forecast Hi
13
Thermal Strength
  • Thermal Index (RAOB based ala Kevin Ford)
  • At any altitude below the top of the lift, the
    difference between
  • the dry adiabatic temperature (i.e., the
    intersection of the adiabat eminating from the
    forecast high temperature/field altitude point on
    the graph and the altitude of interest), for the
    days forecast high temp. and
  • the sounding temp.
  • Thermal Index (time dependant)
  • ..., the difference between
  • the dry adiabat temperature (i.e., the
    intersection of the adiabat eminating from the
    ground temperature/field altitude point on the
    graph and the altitude of interest), and
  • the sounding temperature

14
Kevin Ford Example
15
SkewT/LogP Example
16
SkewT/LogP Example (Earlier Time)
17
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18
Clouds
  • Will there be clouds?
  • Follow the morning dew point from the ground,
    along the line of constant mixing ratio.
  • If this line never crosses the sounding, a parcel
    will not saturate and clouds will not form.
  • If the relative humidity is 100 percent (i.e.,
    dew point temperature and actual air temperature
    are the same), this does NOT necessarily mean
    that precipitation will occur. It simply means
    the air is holding as much moisture as it can at
    the particular temperature the air is at.
    Saturation may result in fog (at the surface)
    and clouds aloft (which consist of tiny water
    droplets suspended in the air).

19
Will there be clouds?
  • The LCL may have little realistic significance if
    the air parcels do not lift.
  • Therefore, it is useful to anticipate convective
    lifting that may be realized when the air is
    heated from the earth's surface, most likely
    during sunshine.
  • This leads to the concept of convective
    condensation level (CCL). This is the level where
    the saturation mixing ratio isopleth through the
    surface wet-bulb temperature intersects the
    ambient temperature. The dry adiabat through the
    CCL point on the ambient temperature goes through
    the temperature (convective temperature) at the
    level po.
  • This is the temperature that the air at the
    surface must attain to form the first cumulus. In
    other words, if the air at the surface is heated
    to the convective temperature, then the
    convection will be deep enough to form clouds at
    the CCL

20
Where is cloudbase?
  • Unsaturated air rises along the dry adiabat. As
    it rises, its dew point follows a line of
    constant mixing ratio.
  • At some point, the temperature and dew point
    curves meet. At this point, the rising air is
    saturated and clouds form.
  • The level at which this occurs is known as the
    lifting condensation level (LCL), and it defines
    the cloud base, if the air is lifted from the
    surface
  • (Surface Max. Temp. Surface DewPoint)/4.5
    Cloudbase Altitude (temps. n degrees F.)
  • (60F-40F)/4.54444'

21
Where are the tops of the clouds?
  • If the air is lifted still further, both the dew
    point and temperature follow a pseudoadiabat
    (TTd for this saturated air).
  • If this pseudoadiabat becomes warmer than the
    environmental air, the rising volume of air will
    be buoyant at that level and will begin to rise
    freely.
  • In such circumstances, cumulus clouds, or even
    cumulonimbus (thunderstorms) are likely.
  • Continuing along the pseudoadiabat, the ascending
    air eventually returns to meet the environmental
    temperature curve, and is no longer buoyant. This
    point is a good estimate for cloud top height

22
http//www.arl.noaa.gov/ready-bin/metgram1.pl
23
Fig
24
CGC Wx, part 2
25
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26
(No Transcript)
27
Short List
28
But what about?
  • Clamp
  • Wind
  • Inversion Layers
  • ...

29
Summary
  • The web is a wonderful source of information
  • However, distillation of information leaves more
    time for flying
  • Please offer suggestions on what youd like to
    see presented on the Wx page
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