TE-5200 16 Operations Manual
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Example Problems
The following example problems use data from the attached calibration
After all the sampling site information, calibrator information, and
meteorological information have been recorded on the worksheet, standard air
flows need to be determined from the orifice manometer readings taken during
the calibration using the following equation:
Qstd = 1/m[Sqrt((H2O)(Pa/760)(298/Ta))-b]
Qstd = actual flow rate as indicated by the calibrator orifice, m3/min
H2O = orifice manometer reading during calibration, in. H2O
Ta = ambient temperature during calibration, K ( K = 273 + Co)
298 = standard temperature, a constant that never changes, K
Pa = ambient barometric pressure during calibration, mm Hg
760 = standard barometric pressure, a constant that never changes, mm Hg
m = Qstandard slope of orifice calibration relationship
b = Qstandard intercept of orifice calibration relationship.
Note that the ambient temperature is needed in degrees Kelvin to satisfy the
Qstd equation. Also, the barometric pressure needs to be reported in
millimeters of mercury and it has to be at the site pressure.
The following conversions may be needed:
2. degrees Kelvin = [5/9 (degrees Fahrenheit - 32)] + 273
or degrees Kelvin = degrees Celsius + 273
3. millimeters of mercury = 25.4 * (inches of Hg)
Inserting the numbers from the calibration worksheet run point number one
we get:
4. Qstd = 1/1.47574[Sqrt((5.7)(757/760)(298/293)) - (-.00613)]
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