Teledyne 200A User Manual download pdf (Page 110)

Teledyne API Model 200A NO

Analyzer Instruction Manual, 02246, Rev. G, DCN 5247

1. Select an NO standard gas that has a nominal concentration in the range of 50 to 100

ppm. Determine the exact concentration [NO]

STD

by referencing against an NIST-SRM, as

discussed in Section 2.0.7 (Q.A. Handbook).

2. Determine the volume (cm

) of the calibrator reaction chamber (V

). If the actual

volume is not known, estimate the volume by measuring the approximate dimensions of the

chamber and using an appropriate formula.

3. Determine the required minimum total flow output (F

) using Equation 7-1:

= analyzer flow demand (cm

/min) x 110/100 Equation 7-1

If more than one analyzer is to be calibrated at the same time, multiply F

by the number of

analyzers.

4. Calculate the NO concentration [NO]

OUT

needed to approximate 90% of the URL of the

analyzer to be calibrated, using Equation 7-2:

[NO]

OUT

= URL of analyzer (ppm) x 90/100 Equation 7-2

5. Calculate the NO flow (F

) required to generate the NO concentration [NO]

OUT

, using

Equation 7-3:

]

[NO

]

[NO

STD

OUT

Equation 7-3

6. Calculate the required flow through the ozone generator (F

), using Equation 7-4:

min-ppm 2.75

]

[NO

STD

Equation 7-4

7. Verify that the residence time (t

) in the reaction chamber is <2 min, using Equation 7-5:

min2

NOO





 Equation 7-5

8. Verify that the dynamic parameter specification (P

) of the calibrator's reaction chamber

is >2.75 ppm-min using Equation 7-6:



75.2

NOP

NOO

STDR









 Equation 7-6

7-17

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