Oil in Water | Part III | |
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1 Refer to Section 2.3, Part II,for Testing of System on AnalysisUnit.
C Sample Conditioning System Operation
Please read the conditioning system of part III thoroughly.
1Starting with the Flow path entering the main sample system after the initial bypass loop, refer to the piping diagram (B74592) for the following sample train for the measuring path through the analyzer and to drain:
aMeasuring flow train: Sample exits 3 way solenoid valve SV1.
bAuto zero path flow train is: Out of sample header and/or homogenizer if applicable, splits into the 3 micron Filter, thru F1 and 0.2 micron of F2 if total oil needed, then into F3 (0.2 micron filter) a continuous bypass filter then on into the sample cell, Sv1.
cThe F2 0.2 micron which removes the dissolved oil. NOTE: Dissolved oil measuring is an option that the customer may so choose depending upon the need to measure total oil or only the
dAutomatic cell cleaning system is built in into the sample cell design and the N2 blowback when specific to certain applications.
D Calibration
1Review Section 5.0 thru 5.4, then proceed at 5.5 of the manual.
2Check to assure that the blender is available for sample homogenization. See 5.5.1.
3Continue thru sections 5.5.2 thru 5.6.3 using known specific oil encountered in the process.
4Follow 5.6.4 for correlation to lab test results if alternate acceptable lab methods available.
E Set up of internal calibration span flag
1See section 5.6.3 after cal fluid introduction. The span flag is then introduced into the light path of the detection system on top of the N2 background which resembles the clean steam condensate stream, etc., The set up procedure is explained in the manual under 3.3.8 of the Control Unit section.
FSet up for Automatic Sampling Sample System
Teledyne Analytical Instruments | Part III: |
