Epa protocol calibration, Calibration requirements – Teledyne 6200T - Sulfides Analyzer User Manual

6200T Total Sulfur Analyzer

EPA Protocol Calibration

Teledyne Analytical Instruments

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10. EPA PROTOCOL CALIBRATION

10.1. Calibration Requirements

If the 6200T is to be used for EPA SLAMS monitoring, it must be calibrated in
accordance with the instructions in this section.
In order to insure that high quality, accurate measurements are obtained at all times, the
6200T must be calibrated prior to use. A quality assurance program centered on this
aspect and including attention to the built-in warning features of the 6200T , periodic
inspection, regular zero/span checks and routine maintenance is paramount to achieving
this.
The US EPA strongly recommends obtaining a copy of the Quality Assurance
Handbook for Air Pollution Measurement Systems, Volume II, Part I (abbreviated Q.A.
Handbook Volume II).
Special attention should be paid to Section 2.9 of the EPA handbook which deals with
fluorescence based SO

2

analyzers and upon which most of this section is based. Specific

regulations regarding the use and operation of ambient sulfur dioxide analyzers can be
found in 40 CFR 50 and 40 CFR 58.

10.1.1. Calibration of Equipment

In general, calibration is the process of adjusting the gain and offset of the 6200T against
some recognized standard. The reliability and usefulness of all data derived from any
analyzer depends primarily upon its state of calibration. In this section the term dynamic
calibration is used to express a multipoint check against known standards and involves
introducing gas samples of known concentration into the instrument in order to adjust
the instrument to a predetermined sensitivity and to produce a calibration relationship.
This relationship is derived from the instrumental response to successive samples of
different known concentrations. As a minimum, three reference points and a zero point
are recommended to define this relationship. The true values of the calibration gas must
be traceable to NIST-SRM (refer to Table 9-1).
All monitoring instrument systems are subject to some drift and variation in internal
parameters and cannot be expected to maintain accurate calibration over long periods of
time. Therefore, it is necessary to dynamically check the calibration relationship on a
predetermined schedule. Zero and span checks must be used to document that the data
remains within control limits. These checks are also used in data reduction and
validation. Table 10-1 summarizes the initial quality assurance activities for calibrating
equipment. Table 10-2 is a matrix for the actual dynamic calibration procedure.
Calibrations should be carried out at the field monitoring site. The Analyzer should be in
operation for at least several hours (preferably overnight) before calibration so that it is
fully warmed up and its operation has stabilized. During the calibration, the 6200T
should be in the CAL mode, and therefore sample the test atmosphere through all
components used during normal ambient sampling and through as much of the ambient
air inlet system as is practicable. If the instrument will be used in more than one range
(i.e. DUAL OR AUTO ranges), it should be calibrated separately on each applicable
range. Calibration documentation should be maintained with each analyzer and also in a
central backup file.