Emerson Ozone Sensor 499A Oz Instruction Sheet

Emerson Ozone Sensor 499A OZ Liq_Manual_51A-499aOZ

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Instruction Sheet
PN 51A-499AOZ/rev.H
September 2010

Model 499A OZ

Ozone Sensor
For additional information, please visit our website
at www.emersonprocess.com/raihome/liquid/.

CAUTION

CAUTION

SENSOR/PROCESS APPLICATION COMPATIBILITY
The wetted sensor materials may not be compatible
with process composition and operating conditions.
Application compatibility is entirely the responsibility of
the user.

Do not exceed pressure and temperature specifications.
Pressure: 65 psig max (549 kPa abs max)
Temperature: 32 to 122°F (0 to 50°C)

SPECIFICATIONS - SENSOR
Pressure: 0 to 65 psig (101 to 549 kPa abs)
Temperature: 32 to 122°F (0 to 50°C)
Process Connection: 1 inch MNPT
Wetted Parts: Polysulfone, Viton1, Teflon2 TFE, silicone
Cathode: gold
1 Viton is a registered trademark of E.I. duPont de Nemours & Co.
2 Teflon is a registered trademark of E.I. duPont de Nemours & Co.

SPECIFICATIONS - FLOW CELLS
Type
1-1/2 in. tee

PN

Wetted Materials

23567-00

CPVC, Buna N

915240-03
2 in. tee

915240-04
24091-00

1-1/2 in. socket

122°F (50°C)

65 psig (549 kPa abs)

120°F (49°C)

60 psig (515 kPa abs)

158°F (70°C)

90 psig (722 kPa abs)

3/4 in. NFPT
PVC, Buna N

915240-05
Low Flow*

Process Connection Maximum Temperature Maximum Pressure

1 in. NFPT
1-1/2 in. NFPT

Polyester/polycarbonate,
316SS, silicone

Compression fitting for
1/4 in. OD tubing

* Pressure and temperature specifications for the low flow cell exceed the temperature and pressure specifications for the sensor.

MODEL 499A OZ

INSTALLATION

INSTALLATION
Install the sensor in a flowing sample. Keep the sample
flow as constant as possible at a value within the limits
below.
Flow through
Open channel
Low flow cell

1 to 5 gpm (3.8 to 19 L/min)
1 ft/sec (0.3 m/sec)
2 to 5 gph (7.6 to 19 L/hr)

The Model 499AOZ sensor is NOT recommended for
submersion into tanks, basins, or ponds.

2

FIGURE 1. Sensor Orientation

FIGURE 2. Flow-Through 2 in. Tee

FIGURE 3. Flow-Through 1-1/2 in. Tee

FIGURE 4. Low Flow Cell (PN 24091-00)

MODEL 499A OZ

WIRING

WIRING

FIGURE 5. Wiring Sensor with Standard Cable to
Model 54eA Analyzer

FIGURE 6. Wiring Sensor with OptimumEMI/RFI or
Variopol Cable to Model 54eA Analyzer

FIGURE 7. Wiring Sensor with Standard Cable to
Model 1056 and Model 56 Analyzer

FIGURE 8. Wiring Sensor with Optimum EMI/RFI or
Variopol Cable to Model 1056 and Model 56 Analyzer

3

MODEL 499A OZ

4

WIRING

FIGURE 9. Wiring Sensor with Standard Cable to
5081-A Transmitter.

FIGURE 10. Wiring Sensor with Optimum EMI/RFI or
Variopol Cable to 5081-A Transmitter.

FIGURE 11. Wiring Sensor with Standard Cable to
Xmt-A Transmitter.

FIGURE 12. Wiring Sensor with Optimum EMI/RFI or
Variopol Cable to Xmt-A Transmitter.

MODEL 499A OZ

FIGURE 13. Wiring Sensor with Standard Cable to
Model 1066 Transmitter.

WIRING

FIGURE 14. Wiring Sensor with Optimum EMI/RFI
or Variopol Cable to Model 1066 Transmitter.

When making connections through a junction box
(PN 23550-00), wire point-to-point.
NOTE:
Use a wire nut and pigtail (included) when
connecting several wires to the same terminal.
FIGURE 15. Pin Out Diagram for Model 499AOZ-VP
Sensor (top view of connector end of sensor)

CALIBRATION
Zero point: Even in the absence of ozone, the 499AOZ
sensor generates a small signal called the zero current.
Failing to correct for the zero current can introduce a
bias, particularly if the ozone concentration is small
(<0.4 ppm). Zero the sensor when it is first placed in
service and every time the fill solution is changed. To
zero the sensor, place it in a cup of deionized or bottled
water. Once the sensor current has reached a stable low
value, which takes at least two hours, follow the analyzer prompts for zeroing the sensor. The zero current
should be between -10 and 10 nA. For more information
refer to the analyzer manual.

Full Scale: Because stable dilute ozone standards are
not available, the sensor must be calibrated against the
results of a laboratory test run on a grab sample of the
process liquid. Place the sensor in the flow cell and
adjust the sample flow to the correct range. Also, adjust
the concentration so that it is near the upper end of the
operating range. Once readings are stable, follow the
analyzer prompts to complete the calibration. Be sure
taking the sample does not alter flow to the sensor,
and test the sample immediately after collection. After
calibration, go to the diagnostics menu and check the
sensitivity. It should be between 250 and 450 nA/ppm.
For more information, refer to the analyzer manual.

5

MODEL 499A OZ

MAINTENANCE

MAINTENANCE
Periodic maintenance and cleaning is required for best performance of the sensor. Generally, the membrane and
fill solution should be replaced every four to six months. Sensors installed in harsh or dirty environments require
more frequent maintenance. The optimum maintenance frequency is best determined by experience.

WARNING
Before removing the sensor from the process
stream for maintenance, be sure the process
pressure is reduced to 0 psig and the process
temperature is at a safe level.
CLEANING THE MEMBRANE.
Keep the membrane clean and free from dirt. Clean the
membrane with water sprayed from a wash bottle. Use
a soft tissue to gently wipe the membrane.
REPLACING THE ELECTROLYTE SOLUTION AND
MEMBRANE.

CAUTION
Fill solution may cause irritation. May be harmful if
swallowed. Read and follow manual.
1. Unscrew the membrane retainer and remove the
membrane assembly and O-ring. See Figure 16.
2. Hold the sensor over a container with the cathode
pointing down.
3. Remove the fill plug and allow the electrolyte solution to drain out.
4. Inspect the cathode. If it is tarnished, clean it by
gently rubbing in the direction of the existing
scratches (do not use a circular motion) with 400600 grit silicon carbide finishing paper. Rinse the
cathode thoroughly with water.
5. Wrap the plug with one or two turns of pipe tape
and set aside. Remove old tape first.
6. Prepare a new membrane. Hold the membrane
assembly with the cup formed by the membrane
and membrane holder pointing up. Fill the cup with
electrolyte solution. Leave the membrane assembly filled with electrolyte solution and set it aside.

6

7. Hold the sensor at about a 45-degree angle with the
cathode end pointing up. Add electrolyte solution
through the fill hole until the liquid overflows. Tap the
sensor near the threads to release trapped air bubbles. Add more electrolyte solution if necessary.
8. Place the fill plug in the electrolyte port and begin
screwing it in. After several threads have engaged,
rotate the sensor so that the cathode is pointing up
and continue tightening the fill plug. Do not overtighten.
9. Place a new O-ring in the groove around the cathode
post. Cover the holes at the base of the cathode
stem with several drops of electrolyte solution.
10. Insert a small blunt probe, like a toothpick with the
end cut off, through the pressure equalizing port.
See Figure 16.
NOTE
Do not use a sharp probe. It will puncture
the bladder and destroy the sensor.
Gently press the probe against the bladder several
times to force liquid through the holes at the base
of the cathode stem. Keep pressing the bladder
until no air bubbles can be seen leaving the holes.
Be sure the holes remain covered with electrolyte
solution.
11. Place a drop of electrolyte solution on the cathode,
then place the membrane assembly over the cathode. Screw the membrane retainer in place.
12. The sensor may require several hours operating at
the polarizing voltage to equilibrate after the electrolyte solution has been replenished.

MODEL 499A OZ

MAINTENANCE

FIGURE 16. Sensor Parts

SPARE PARTS
33523-02

Electrolyte Fill Plug

9550094

O-Ring, Viton 2-014

33521-02

Membrane Retainer

23501-11

Ozone Membrane Assembly: includes one membrane assembly and one O-ring

23502-11

Ozone Membrane Kit: includes 3 membrane assemblies and 3 O-rings

9210299

#3 Ozone Sensor Fill Solution, 4 oz (120 mL)

7

MODEL 499A OZ

ORDERING INFORMATION

The right people,
the right answers,
right now.

ON-LINE ORDERING NOW AVAILABLE ON OUR WEB SITE

http://www.raihome.com
Specifications subject to change without notice.
8

Credit Cards for U.S. Purchases Only.

Emerson Process Management
2400 Barranca Parkway
Irvine, CA 92606 USA
Tel: (949) 757-8500
Fax: (949) 474-7250
http://www.raihome.com
© Rosemount Analytical Inc. 2010



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