Natco F85H Fire Coil 85 200 Installation And Operation Instructions Manual - page 35
Fire Coil 85
(200, 300, 400)
Page 35
SECTION 8.
Trouble Shooting
8.1 Resolving Lockouts
There are many causes of lockouts. The three
most common causes are: (1) inadequate gas supply,
(2) poor combustion, (3) ignitor failure.
1.
Inadequate gas supply: Before proceeding, ensure
that the gas supply has not been shutoff or the LP
tank (LP boilers) is not empty. Then, restart the
boiler and observe the operational cycle. After
a 15-second fan pre-purge, the ignitor will heat
up for 40 seconds, and then the unit will light.
If it does not, check the gas supply pressure to
the appliance, after resetting the appliance and
attempting another start-up. The gas pressure to
the appliance must be above 5 in. w.c. (1.2 kPa)
throughout the entire start-up cycle. If it is not,
correct the supply problem (check gas valves or
supply piping). If the supply pressure is adequate,
consult the factory for assistance.
2.
Poor Combustion: Poor combustion should be
suspected if there is a strong fl ue gas odor. The
odor may result from an improper gas/air ratio
(high or low O
2
or CO
2
). Fire Coil 85 appliances
operate best with 45% excess air (8% CO
2
on
natural gas, 9.2% CO
2
on LP). Check the CO
2
of
the appliance and adjust if necessary.
3.
Ignitor failure: If the boiler goes through a
normal start cycle but combustion does not
occur, ignitor failure should be suspected. Check
the ignitor by unplugging the ignitor plug and
measuring the ignitor resistance. It should be
50-80 ohms. If the resistance is not 50-80 ohms,
replace the ignitor. If the resistance is correct,
reset the boiler and check for 120 VAC at the
ignitor plug during the start cycle. If there is no
voltage, replace the faulty ignitor wire harness or
the ignition control.
8.2 Delayed Ignition — Possible Causes
A defective burner can cause a delayed ignition.
If the gas supply pressure is proper and the gas
valves are functioning properly, then burners should
be inspected. There should be no distortion or
perforations in the burners outside of the active burner
port area. Replace if indicated.
8.3 Short Cycling — Boiler
Boiler short cycling is caused when the load
on the boiler system swings rapidly causing frequent
cycling between call for heat and satisfi ed conditions.
This condition is greatly reduced on two stage units
or stage controlled multiple boiler systems which can
change heat input to better match the load. If short
cycling is a problem, it may be due to an oversized
boiler, improper control strategy, incorrect set points or
a load distribution problem. If the set points are correct
and the system design, controls scheme, etc. are fi xed,
the temperature differentials may be increased to
reduce short cycling. If desired temperature response
is not achievable without short cycling it may be
necessary to install a buffer tank in the system. Contact
your NATCO representative to discuss possible
remedies.
8.4 Short Cycling — Water Heater
Short cycling will generally occur only in
combination space heating and water heating
applications when the water heater is operating in the
space-heating mode. If the heating load drops below
the minimum input of the water heater for an extended
period, the water heater will have a tendency to short
cycle. If short cycling is frequently experienced,
regardless of the control’s attempt to limit it, the
heating load should be redistributed to control it.
If short cycling occurs in a water heater
application, it is probably caused by undersized
piping between the water heater and the storage tank
or by some other factor that restricts proper water
fl ow through the water heater. The cause should be
determined and corrected.
8.5 High Gas Consumption
Appliances operating with an improper air/
fuel ratio are very ineffi cient and consequently, have
very high gas consumption. Because effi ciency is
high when the CO
2
is high (or O
2
is low), appliances
operating with low CO
2
or high O
2
(especially LP
appliances) consume more gas. Adjust the CO
2
or O
2
for optimum effi ciency. If no combustion analyzing
equipment (CO
2
or O
2
) is available then a proper
adjustment of the air/fuel ratio (CO
2
or O
2
) cannot be
accomplished. The CO
2
should be 8% at high fi re for
natural gas and 9.2% at high fi re for LP. To check the
CO
2
, fi rst verify that the supply gas pressure is within
5 to 13 in. w.c. (1.2 to 3.2 kPa). With the Fire Coil 85
running with all stages fi ring, set the air box pressure
to 1.8 in. w.c. (0.42 kPa) (as a starting point), by
adjusting the air shutter(s) at the intake of the fan(s).
Check the CO
2
, and adjust the air shutters if further
adjustment to the CO
2
is needed.