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3. sAFeTY
3.1 WARNINGs
This apparatus is not suitable for use in
oxygen enriched atmospheres (>21%V/V).
Oxygen deficient atmospheres (<6%V/V)
may suppress the sensor output.
Refer to local or national regulations
relative to installation at the site.
The operator should be fully aware of the
action to be taken if the gas concentration
exceeds an alarm level.
The ECC (electrochemical cell) contains a
small quantity of acid.
SensePoint should be protected from
mechanical impact. Installation should
consider not only the best placing for gas
detection related to potential leak points,
gas characteristics and ventilation, but also
where the potential of mechanical damage
is minimized or avoided.
3.2 CAUTIONs
Exposures to gas above the design range
of the sensor may require the sensor to be
re-calibrated.
Do not modify or alter the sensor construction
as essential safety requirements may be
invalidated.
Install SensePoint using certified Exe or Exd
junction box, connectors and glanding.
Sensors should be disposed of in accordance
with local disposal regulations. Materials
used:
Sensor:
Fortron® (PPS-polyphenylene
sulphide),
Cell:
PPO (modified polyphenylene
oxide).
3
4. OPeRATIONs
Table 1:
Gas
Range
Recommended Warm
Application
Operating Temp.
Test
up
Time
MIN.
Concentration Time
H
S
0 to 20 ppm
10 ppm
3mins
3 mins
-20°C
2
H
S
0 to 50 ppm
20 ppm
3mins
3 mins
-20°C
2
H
S
0 to 100 ppm
50 ppm
3mins
3 mins
-20°C
2
CO
0 to 100 ppm
50 ppm
3mins
3 mins
-20°C
CO
0 to 200 ppm
100 ppm
3mins
3 mins
-20°C
CO
0 to 500 ppm
250 ppm
3mins
3 mins
-20°C
Cl
0 to 5 ppm
3 ppm
5mins
10 mins
-20°C
2
Cl
0 to 15 ppm
10 ppm
5mins
10 mins
-20°C
2
O
0 to 25% V/V
19% v/v
5mins
1 mins
-15°C
2
NH
0 to 50 ppm
25 ppm
3mins
10 mins
-20°C
3
NH
0 to 1000 ppm 500 ppm
3mins
10 mins
-20°C
3
H
0 to 1000 ppm 500 ppm
3mins
3 mins
-5°C
2
H
0 to 10000 ppm 3000 ppm
3mins
3 mins
-5°C
2
SO
0 to 15 ppm
10 ppm
3mins
5 mins
-15°C
2
SO
0 to 50 ppm
20 ppm
3mins
5 mins
-15°C
2
NO
0 to 100 ppm
50 ppm
12hrs
5 mins
-5°C
NO
0 to 10 ppm
5 ppm
1hr
5 mins
-15°C
2
7
4. OPeRATIONs
4.1
INsTALLATION
The Unit should be fitted to a junction box certified Exd or
Exe, and fitted with an approved cable gland and connector
block. The sensors should be fitted to a tapped hole within
the enclosure and locked in place with a locknut if the
parallel thread version is being used. Cabling should be
multicore, two wires plus screen, conductor size 2.5mm
max. Sensors are supplied pre-calibrated.
The apparatus should be installed in a location free from
dusts and direct heat sources.
Installation is to be performed by a qualified installation
engineer, with the power to the unit disconnected.
For oxygen versions, remove the neoprene stopper and
snap the RFI screen and internal hydrophobic assembly
(supplied separately) into place (page 10).
See the technical handbook for details of installation in
forced air conditions.
4
4. OPeRATIONs
4.3
FAULT FINDING
Sensor reads non‑zero all the time:
-
Gas could be present, ensure that there is no
MAX.
target gas in the atmosphere. Background or other
volatile organic gases, eg. solvents, can interfere
with the operation of the sensor.
+50°C
Sensor reads non‑zero when no gas is present:
+50°C
-
adjust the zero on the control card.
+50°C
Sensor reads low when gas is applied:
+50°C
-
adjust the span on the control card.
+50°C
-
for oxygen versions, check that the neoprene plug
+50°C
has been removed from under the plastic retainer.
+50°C
Sensor reads high when gas is applied:
-
+50°C
adjust the span on the control card.
+40°C
Sensor reads zero when gas is applied:
+40°C
-
check the wiring.
-
+40°C
check the dust protection cap has been removed.
-
check that the sensor is not obstructed.
+40°C
-
replace the sensor if failure is suspected.
+40°C
-
for oxygen versions, check that the neoprene plug
+40°C
has been removed from under the plastic retainer.
+40°C
Cannot adjust span or zero at control card:
-
+40°C
refer to the technical handbook.
+40°C
8
4. OPeRATIONs
Wiring connections are:‑
+
-
sCReeN
4-20mA
eARTh
2
ReD
BLUe
seNsOR
seNsOR
sCReeN
The unit requires a nominal 18 to 30V, 30mA
current-loop-powered supply.
4.2
CALIBRATION
SensePoint for toxic gas detection is supplied pre-calibrated,
however, for increased accuracy in specific applications,
on-site calibration is recommended.
Re-calibration should only be attempted by qualified service
personnel. Calibration should only be attempted after the
sensor has been installed and powered for a time exceeding
the warm up time (Table 1).
5
5. mAINTeNANCe
5.1
ChANGING eLeCTROChemICAL CeLL AND
INTeRNAL FILTeR
1.
Unscrew and remove the grey plastic retainer (or
accessory if fitted) from the sensor.
2.
Remove the old internal hydrophobic assembly by
pushing against the snap fit, through one of the retaining
slots, with a small flat bladed screwdriver. The assembly
will pop out. Do not attempt to lever the assembly out as
this may damage the housing.
3.
Remove the internal metal gauze insert.
4.
Open the enclosure by unscrewing the sensor cap
assembly from the sensor main body, ensuring that the
electrochemical cell does not rotate with the cap.
5a.
Toxic
Gently pull the old electrochemical cell from the
pcb. (Dispose of this in accordance with the local
regulations).
5b.
Oxygen
For oxygen SensePoint, unscrew the old cell
connections.
6.
Remove the new cell from its packaging and remove the
shorting link across the base of cell.
7a.
Plug the new cell into the pcb. (toxic cell)
7b.
Screw in the new cell via the metal tabs. (oxygen cell)
8.
Screw the sensor cap assembly back onto the sensor
main body.
9.
Fit the new internal metal gauze assembly.
10.
Fit the new internal hydrophobic assembly.
Note: The sensor should now be calibrated. See Section 4.2
9
4. OPeRATIONs
First zero the control system with no gas present on the
sensor. If target gas is suspected to be in the vicinity of
SensePoint, flow clean air over the sensor using a flow
housing (see below).
Fit a flow housing and connect a cylinder of either air, for
a zero, or a known concentration of gas (approximately
50% FSD) to the flow housing using nylon or PTFE tubing.
Tubing lengths should be kept to a minimum to avoid
sPARe
extending the speed of response. Connect the outlet of the
flow housing to a safe exhaust area. Pass the gas through
the flow housing at a flow rate of approximately
1 l to 1.5 l per minute. Allow the sensor to stabilise. When
gassing with air, adjust the control card to indicate zero. For
span, the control card should be adjusted to indicate the
concentration of the target gas being applied. Remove the
flow housing and the gas supply.
Note: for oxygen, the span gas is normally air at 20.8%V/V
O
. The control card should be adjusted to indicate
2
this when the sensor is in either clean ambient air, or
in a flow of 20.8%V/V O
zero adjustment is not normally required, however it is
recommended that the alarm levels are tested using a
cylinder of a lower concentration of oxygen in nitrogen.
See Table 1 for details of concentrations and times to be
used. If the controller cannot be spanned, consult the
technical handbook.
For calibration in high flow applications refer to the
technical handbook.
5. mAINTeNANCe
11.
Replace the grey plastic retainer or accessory.
12.
In the event of an apparatus failure, return unit to
Honeywell Analytics Ltd.
5.2
ChANGING The eXTeRNAL FILTeRs
Remove the grey plastic retainer (or accessory).
Remove the old external hydrophobic barrier and replace
with the new one. Replace the grey plastic retainer.
Oxygen cell
in nitrogen from a cylinder. A
2
6
Main body of sensor
Toxic
electrochemical cell
Sensor cap
RFI screen
/ metal gauze
Internal
hydrophobic assembly
External hydrophobic
barrier
Grey plastic retainer
10
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