40
WATER IN CENTRAL HEATING SYSTEMS
14
WATER IN CENTRAL HEATING SYSTEMS
INTRODUCTION
Water used in central heating systems MUST be suitably treated
to ensure the correct functioning of those systems and to guar-
antee an extended working life for boilers and all other system
components. This applies not only to existing systems but to
newly installed systems too.
Sludge, lime-scale and pollutants present in the water can cause
permanent damage to the heating unit, also within a short time
and regardless of the quality standards of the materials used.
Contact the Technical Assistance Service for any further informa-
tion on type and use of additives.
9
Always conform to the standards and legislation applicable
in the country of installation.
WATER IN CENTRAL HEATING SYSTEMS.
INSTRUCTIONS FOR THE DESIGN, INSTALLATION AND MANAGEMENT
OF CENTRAL HEATING SYSTEMS.
1. Chemical and physical characteristics of water
The chemical and physical characteristics of water used in cen-
tral heating systems must conform to the requirements of EN
14868 standard and to the following tables:
STEEL BOILERS
with furnace power < 150 kW
Initial filling
water
Regular ser-
vice water (*)
ph
6-8
7,5-9,5
Hardness
°fH
< 10°
< 10°
Electrical con-
ductivity
μs/cm
< 150
Chlorides
mg/l
< 20
Sulphides
mg/l
< 20
Nitrides
mg/l
< 20
Iron
mg/l
< 0,5
STEEL BOILERS
with furnace power > 150 kW
Initial filling
water
Regular ser-
vice water (*)
ph
6-8
7,5-9,5
Hardness
°fH
< 5°
< 5°
Electrical con-
ductivity
μs/cm
< 100
Chlorides
mg/l
< 10
Sulphides
mg/l
< 10
Nitrides
mg/l
< 10
Iron
mg/l
< 0,5
(*) values for water in system after 8 weeks of functioning
General note on water used to top up systems:
− If softened water is used to top up a system, 8 weeks of
functioning after topping up, verify that the water in the
system respects the above limits, in particular for electri-
cal conductivity.
− This check is not necessary if demineralised water is used
to top up the system.
2. Central heating systems
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Do not use automatic filling devices to add water to central
heating systems. Use a manual device instead and record
top-ups in the system service book.
9
If there are more than one boiler, they must all be put into
service either contemporarily or with a very low rotation
time during the initial period of service, so as to evenly dis-
tribute the limited quantity of initial lime-scale.
9
A flushing cycle must be programmed after the plant has
been installed to flush out any installation debris.
9
Water used to fill a system for the first time and water used
to top it up must always be filtered (using synthetic or metal
mesh filters with a filtration rating of no less than 50 mi-
crons) to prevent sludge from forming and triggering de-
posit corrosion.
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The heating system must be flushed out and cleaned with
good workmanship before filling up the existing systems.
The boiler may not be filled until after the heating system
has been flushed out.
2.1 New central heating systems
The system must be filled up slowly the first time; once it is filled
and the air expelled it should never need to be topped up again.
Systems should also be operated at maximum working tem-
perature the first time they are started up, in order to facilitate
de-aeration. (Gas is not released from the water at low temper-
atures).
2.2 Reconditioning old central heating systems
If a boiler has to be replaced, do not refill the entire central
heating circuit if the quality of water in it conforms to require-
ments. If the quality of water fails to conform to requirements,
either recondition the old water or separate the water circuits
(water in the boiler circuit must conform to requirements).
3. Corrosion
3.1 Deposit corrosion
Under-deposit corrosion is an electrochemical process, due to
the presence of sand, rust, etc., inside the mass of water. These
solid substances generally deposit on the bottom of the boiler
(sludge), on tube and pipe heads or in the gaps between pipes
and tubes.
Micro-corrosion phenomena may be triggered off owing to the
difference in electrochemical potential coming to be created
between the material in contact with the impurity and the sur-
rounding one.
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