Instruction manual

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TROUBLE-SHOOTING

CHIMNEY FIRE

If your stove has been installed correctly and you have

also operated it correctly and regularly carried out the

recommended routine checks then it is unlikely that

you will ever experience a chimney ﬁre, which can be

highly dangerous.

Chimney ﬁres can be detected by an unusual roaring

sound and / or unusual vibrations coming from the

chimney breast or the stove itself. The sound is not to

be confused with the gentle ‘rushing’ sound you may

normally hear when a stove has a well performing

up-draught. You may also see sparks or ﬂames exiting

from the chimney terminal outside.

• Prevention

If you suspect a chimney ﬁre then immediately close

the Primary and Secondary Air controls, as well as the

Thermostat Control, evacuate the building and call

the Fire Service. Never open the stove door as this will

make the chimney ﬁre worse by providing additional

combustion air. Do not re-enter the building until you

have been advised by the Fire Service that it is safe.

Do not re-light the stove until the ﬂue system has

been thoroughly inspected by an approved installer or

chimney sweep and any necessary repairs have been

carried out.

• Causes: Inadequate cleaning

Chimney ﬁres occur when soot and creosote have

built up to such a level that they ignite. It is important

therefore that your ﬂue system has as many cleaning

access points as practicable to enable comprehensive

removal of soot, creosote and other debris. This will

also minimise the amount of time it takes for a

qualiﬁed sweep to clean the system making the

system safer and its cleaning more cost-effective in

the long run.

• Causes: Continuous low burning

To discourage the potential for such soot and

creosote build-ups, long periods of consistent

‘slumber’ or overnight burning should be avoided

or that these should at least be compensated for by

regular burning on full output for short periods (eg 30

minutes per day) to help burn off any likely deposits

before they become problematic.

• Causes: Poor fuel choice As previously mentioned

unseasoned or damp wood or fuel should always be

avoided as these produce excessive soot and creosote.

This is particularly problematic for boiler stoves where

the ﬁre chamber temperatures are much lower than

in a non-boiler stove and therefore the potential to

promote the conditions for dangerous deposits from

damp fuel is much greater.

SYSTEM BALANCE

With all wood burning and multi fuel boiler stoves,

given their particular heat cycle and the natural gravity

fed ﬂow, it is extremely important that the radiators

are balanced to ensure an efﬁcient distribution of heat

as well as an even heat balance from one radiator to

the next. The idea is to reduce the ﬂow to the hottest

radiators so that more hot ﬂow is available to heat the

coolest ones. The system is ‘balanced’ when there is a

good hot water ﬂow through every central heating

radiator.

To undertake this, all of the system valves should be

set to open (including any lock shield valves (LSVs)

on the heat leak radiator) and the circulation pump

adjusted to the correct ﬂow speed. Thermostatic

radiator valves (TRVs) should also be set to maximum

to ensure that these are not activated during the

balancing process. All radiators should be fully bled

of air and the system should be at full operating

temperature. Please note it could take the system 2

– 3 hours, depending on the size of the system and

the fuel loads, to reach full operation.

The objective is to get a consistent temperature

difference of approximately 10ºC between the ﬂow

(80ºC) and the return (70ºC) on each radiator. If the

circulating pump ﬂow rate is set too high then the

temperature drop between ﬂow and return will be

less than 10ºC. Balancing the system means adjusting

all of the various thermostatic valves, thermostats,

lock shield valves on each radiator and the circulating

pump speed to give the desired temperature in each

room for the least amount of fuel used. This can be

a time-consuming process, but is well worth it, and

therefore is best left to an experienced installer.

With the system at full operating temperature and

all of TRVs fully open, if the temperature drop is

different from 10ºC but consistent across all of the

radiators then it will be a simple matter of adjusting

the circulating pump ﬂow to achieve the desired

10ºC drop. Slow down the pump ﬂow to increase the

drop difference and speed it up to reduce it. In reality

it does not matter if some radiators have a slightly

smaller temperature drop, hence a higher ﬂow, so

long as there is enough ﬂow to get all of the radiators

at a desirable temperature.

Fortunately, a balanced system does not mean

that all of the radiators have to be set at the

same temperature. How hot a radiator is once the

thermostatic valve is operating will depend on many

variables including the size of the, room, how high the

TRV is set and how big the radiator is. Radiators are

likely to be slightly hotter at the top than the bottom

but this will vary from system to system and the

design of the radiator itself. Provided the temperature

difference from the top to the bottom of the radiator

is no more than the 10ºC ﬂow and return difference,

then this is not generally an indication of a system

problem.