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Boundary Layer Notes 5

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How do sonic anemometers work? Derive speed of sound c = gamma RTv/m ... Sketch sonic anemometer layout, to justify Vd = c2/2d*(t2-t1) ... Sonic Anemometer, cont'd. ... – PowerPoint PPT presentation

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Title: Boundary Layer Notes 5


1
Boundary Layer Notes 5
  • Observational Techniques

2
Observational Techniques
  • Sources Kaimal Finnegan, Atmospheric Boundary
    Layer Flows their structure and measurement,
    Oxford University Press, 1994
  • In situ techniques
  • Important boundary layer measurements
  • T, u, v, w, q, trace gases (e.g. CO2, CH4)

3
Observational Techniques
  • We need to measure both mean quantities and
    fluctuations.
  • Why fluctuations? After all we can use
    flux-gradient relationships to determine fluxes
    using mean conditions. Answer because we
    dont know if we can trust the flux-gradient
    relationships especially in very turbulent,
    nearly well-mixed boundary layers.

4
  • For means, standard measurement techniques are
    acceptable (thermistors, wind vanes,
    cup-anemometers, propellers, hygristors,
    psychrometer, dew-point hygrometer)
  • Sketch dew-point hygrometer, psychrometer.

5
  • For fluctuations, we need to get more clever.
  • Why? Response time. We need independent
    measurements every 0.1 s to produce reliable flux
    measurements.
  • Solution sonic anemometers, sonic thermometers,
    and TDL (and other radiometric) observations of
    trace gases.
  • How do sonic anemometers work?
  • Derive speed of sound c vgamma RTv/m
  • Note approximateness of Tv dependence derive (1
    0.38e/p) factor.
  • Sketch sonic anemometer layout, to justify Vd
    c2/2d(t2-t1),
  • (old fashioned measurement, when anemometer only
    measures the difference between the times).
  • Vd d/2(1/t1 1/t2)
  • Mast issues have to place instruments far away,
    and not down-wind of towers.

6
  • Remote sensingfine for mean state of boundary
    layer, not for direct flux measurements.
  • Describe
  • radar wind profiles
  • Sodar
  • Lidar
  • Radio Acoustic Sounding System (bouncing radar
    off of density gradients caused by sound wave
    emissions).(lidar very expensive as of 94
    anyway).
  • Old wind profilers werent useful for boundary
    layer studies because their minimum ranges were
    1 km. Newer ones at 915 Mhz can measure from
    100 m to 1.5 km with 50 m resolution. But
    time constant is still a few minutes.

7
Sonic Anemometer
Derive speed of sound
Sketch anemometer layout, and derive
8
Sonic Anemometer, contd.
  • We can now make our measurement of the
    temperature more accurate, by adding together the
    reciprocals of the separate times, and if were
    using a three-dimensional sonic anemometer, we
    can get t1 and t2 from the vertical anemometer
    axis, and Vn from the magnitude of the horizontal
    wind.

9
A bunch of sonic anemometers from Applied
Technologies. Data rates range from 10/s to
1/s.f
10
Li-Cor (brand) IR absorbtion Gas Analyzers.
Funny-looking one is an open cell, for
eddy-correlation measurements.
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