ESS Method 130.1:
General Auto Analyzer Procedures
Environmental Sciences Section
Inorganic Chemistry Unit
Wisconsin State Lab of Hygiene
465 Henry Mall
Madison, Wl 53706
Revised October 1992
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ESS Method 130.1:
General Auto Analyzer Procedures
1.0 Scope and Application
The continuous flow analysis method may be used to determine many chemical constituents in
drinking and surface waters and wastes.
2.0 Apparatus and Summary of Method
2.1 The Auto Analyzer II system is comprised of five separate modules interconnected by tubing and
electrical cables. The typical system includes: 1) Sampler; 2) Proportioning Pump; 3) Manifold;
4) Colorimeter; and 5) Printer/Plotter.
2.2 The Proportioning Pump uses flow-rated tubing to proportion the flow of samples and reagents
through the system. Samples are separated by segments of wash solution. Segments of air are
introduced at two second intervals to help separate samples, mix reagents, and cleanse tubing.
Each parameter has a unique Manifold for introducing reagents, mixing, heating and diluting as
needed. The Printer/Plotter is used to record the concentrations of constituents determined by the
Colorimeter response.
3.0 Sample Handling, Preservation and Pretreatment
3.1 Samples are collected in specified containers and preserved according to Method 100.1 - Sample
Preservation and Holding Times.
3.2 Samples must be free of particulate matter when introduced into the system. To accomplish this,
samples are filtered according to Method 100.2. Total phosphorus and total Kjeldahl nitrogen
samples should be centrifuged or held overnight after digestion to allow particulates to settle.
4.0 General Operating Procedures
4.1 Check maintenance log for any needed instrument care.
4.2 Turn on Colorimeter lamps at beginning of a work week and leave on until the end of the week.
Allow to warm up for 30 minutes.
4.3 Check heating baths' temperatures. Clean platen with alcohol and install. Start Proportioning
Pump.
4.4 Hydraulic Check
4.4.1 Pump Milli-Q water with appropriate wetting agent through the system. TKN(NH3) and
sulfate washes require Brij-35. Dissolved phosphorus and silica washes need sodium
lauryl sulfate.
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Volume 3, Chapter 2 ESS Method 130.1. General Auto Analyzer Procedures
4.4.2 Check for leaks and pinched lines.
4.4.3 Establish a good bubble pattern.
4.5 Prepare any needed reagents and standards.
4.6 Check colorimeter output for each channel used.
4.6.1 On Colorimeter, turn Display Rotary Switch to Zero. Using a screwdriver, adjust Zero
control to obtain zero on the voltmeter.
4.6.2 Turn Display Rotary Switch to Full Scale. Using a screwdriver, adjust Full Scale control
to obtain full range (5.00 volts on the voltmeter).
4.7 Baseline Checks
4.7.1 On Colorimeter, turn Display Rotary Switch to Damp 1, set Std Cal at 1.0, and set
reversing switch to "D".
4.7.2 When system is thoroughly washed with water and wetting agent, adjust Baseline control
to obtain zero on the voltmeter. Check for straight baseline.
4.7.3 Introduce appropriate reagents into the system as directed in different methods and allow
reagents to flow until a straight baseline is obtained. Using Baseline control, reset meter
to Zero. This is correcting for background contamination in reagents.
4.8 Calibration Procedures
4.8.1 Load sample tray with standards specified in various method Tray Protocols. Glass dispo
culture tubes (10 mL) are used for dissolved P, TKN, TOT-P, and low level TOT-P.
Polystyrene dispo beakers (4 mL) are used for dissolved Silica and Sulfates. Fill
remaining cups with unknown samples, duplicates, spikes, and mid-range standard checks
according to Tray Protocol.
4.8.2 Place red peg at last cup. When an analysis requires use of the B wash solution
receptacle, the red peg is placed at the second to last cup.
4.8.3 For each channel used, set Std Cal control on the Colorimeter to an approximate value
expected (the approximate value can be obtained from previous day's run as recorded on
the chart for Baseline and Std Cal settings). Raise baseline about 10% (approximately . 14
on voltmeter).
4.8.4 Start Sampler.
4.8.5 When the first standard (primer) comes through, adjust the Std Cal control on the
Colorimeter so that the top of the peak registers about 95% of full range (approximately
4.80 on voltmeter). Record Std Cal values on appropriate Baseline and Std Cal Settings
chart.
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Volume 3, Chapter 2 ESS Method 130.1. General Auto Analyzer Procedures
4.9 Shutdown Procedures
4.9.1 After last cup has been sampled, turn off Sampler.
4.9.2 Check the return to 10% baseline after last sample value has been printed, to check on
baseline drift.
4.9.3 Connect reagent tubes to wash bottles and flush at high speed, if available. Continue to
wash with water and wetting agents until system is rinsed completely. Reset Std Cal to
1.0, and adjust baseline to zero.
4.9.4 Remove chart from Printer/Plotter, Initial, record Std Cal, & calculate correlation
coefficient(r).
4.9.5 Shut off pump. Lift platen off and store upside down. Adjust pump so that the air bar is
up. Disconnect wash water tubing from containers. Caution: Wash solution will siphon
onto the laboratory bench if the wash water tubing is not removed from the containers.
4.9.6 Discard all used sample cups.
5.0 Quality Assurance Procedures
5.1 Baseline and Std Cal Settings Chart.
5.1.1 The Std Cal values for each nutrient and each range used are recorded.
5.1.2 Included in this chart are the date and analyst's initials.
5.2 Pump Tubing Chart
The lot numbers of all flow-rated pump tubing and date the packages are opened are recorded.
5.3 A calibration curve as described in each method is run at the beginning of each range to establish
system linearity. Subsequently, mid-range standards are included after every 10-20 samples
(depending on method) to verify the curve and at the end of the run.
5.4 Precision is checked every day by analyzing 10% of all samples in duplicate. When filtered
samples are analyzed in duplicate, the sample and its duplicate must be filtered separately and be
treated as independent samples. The absolute differences between duplicates are plotted on
Shewhart Charts to verify that the analyses are within the quality control limits.
5.5 Accuracy is verified daily by analyzing a sample spiked with a standard solution.
5.5.1 For soluble chemical constituents, a spike sample is made by mixing an equal volume of
sample with an equal volume of a standard solution of approximately the same
concentration. The calculations are as follows:
Spiked Sample Concentration - '/2 sample cone. X100 = % Recovery
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'/2 Standard cone.
5.5.2 For total phosphorus and total Kjeldahl nitrogen digested on the Block Digester, a volume
of sample (10 mL or less) is pipetted into the digester tube and a volume of standard
(10 mL or less) is added and run through the digestion procedure with samples and
standards. The standard added can be Nicotinic Acid for TKN or AMP for TP separately
or a combination of Glutamic Acid and KH2PO4 for a dual spike. The calculations are as
follows:
Spiked Sample Concentration - Sample Background Concentration X100 = % Recovery
Spike Concentration
5.5.3 The % Recoveries are plotted on Shewhart Charts to verify that the analyses are within the
quality control limits.
5.6 Daily worksheets are stamped with "Q.C. Audit Date " whereby another chemist can
verify, initial and date that the analyses meet the Q.C. criteria designated for the lab and the
particular parameter measured.
5.7 Reagents are dated and initialed when they are prepared.
6.0 Preventive Maintenance
6.1 A log is kept for dating maintenance procedures performed on any module. Figure 2.
6.2 Daily
6.2.1 Clean surfaces of entire system and area.
6.2.2 Check surface of pump platen and rollers. Clean with alcohol, if necessary.
6.3 Weekly
6.3.1 Remove, clean with alcohol, and lightly lubricate side rails with Semi-Fluid Lubricant.
6.3.2 Clean pump rollers and platen with alcohol.
6.4 Monthly
6.4.1 Change pump tubing monthly or when deemed necessary.
6.4.2 Adjust silicone tubing under air bar to a new position.
6.4.3 Oil air bar linkage with one drop Prolonged Service oil.
6.4.4 Oil two felt pads with two drops oil.
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6.4.5 Oil needle bearings of main drive shaft by putting one drop oil in each of two holes.
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ESS Method 130.1. General Auto Analyzer Procedures Volume 3, Chapter 2
6.5 Three Months
6.5.1 Replace sample tubing.
6.5.2 Clean sample probe with wire stylet.
6.5.3 Clean sampler pole with freon and oil lightly.
6.6 Six Months
6.6.1 Put one drop oil on each end of each pump roller and chain interface. Rotate rollers and
wipe off excess oil with alcohol.
6.6.2 Clean Colorimeter flowcell and filters.
6.6.3 Clean Colorimeter lamp and socket controls.
6.7 Eighteen Months
Lubricate four spots on Sampler as directed in Instrument Manual.
7.0 Miscellaneous Maintenance
7.1 Clean heating bath with cleaning acid.
7.2 Clean dilution coils and debubblers with 50% HC1.
7.3 Change various tubing and connections and clean glass connections.
7.4 Clean sample splitter.
7.5 Clean color reagent line on phosphorus Auto Analyzer with 20% NaOH and H2O2. This is done as
follows:
7.5.1 MQ line in MQ H2O (No Levor) and Color Reagent line in 20% NaOH for 20 minutes.
7.5.2 MQ line in MQ H2O (No Levor) and Color Reagent line in H2O2 for 10 minutes.
7.5.3 Both lines in MQ H2O (No Levor) for 10 minutes.
7.5.4 Both lines in MQ H2O with Levor (4 mL Levor/125 mL MQ) for 10 minutes.
7.5.5 Both lines in MQ Levor wash solution (3.0 mL/L MQ) until stable baseline is obtained.
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Volume 3, Chapter 2 ESS Method 130.1. General Auto Analyzer Procedures
8.0 Peaking FlowCell
Whenever any maintenance has been performed on the Colorimeter it is necessary to peak the flowcell as
follows:
8.1 Turn Display Rotary Switch to Normal
8.2 SetStdCalat 1.0.
8.3 Set reversing switch at "D".
8.4 Set Baseline control at mid-point. (Control has 10 complete turns, so set at 5 turns from either
extreme.)
8.5 Set voltmeter at half scale (2.50) by using both sample and reference apertures.
8.6 Rotate the peaking screw on the sample phototube housing assembly to obtain minimum deflection
on voltmeter.
8.7 Rotate the peaking screw on the reference phototube housing to obtain maximum deflection on the
voltmeter.
8.8 Open both apertures completely clockwise.
8.9 Note voltmeter reading:
8.9.1 If value is below zero, more light is reaching the sample phototube than the reference.
Correct by closing sample aperature (A) to adjust value to zero.
8.9.2 If value is above zero, less light is reaching the sample phototube than the reference.
Correct by closing the reference aperature (B) to adjust to zero.
8.9.3 One aperature should be Fully Open at all times.
8.9.4 Fine adjust by using Baseline control.
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