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Piping — low temp systems, Gold cgs gas-fired water boiler — boiler manual, System-bypass piping method – Weil-McLain GOLD CGS 550-110-260/0107 User Manual

Page 22

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Part number 550-110-260/0107

GOLD CGs Gas-Fired Water Boiler — Boiler Manual

Failure to

prevent low return water temperature

to the boiler could cause corrosion of

the boiler sections or burners, resulting in severe personal injury, death or substantial
property damage.

Radiant heating system piping should include a means of

regulating the boiler return

water temperature

and the

system supply temperature

(such as provided by an

injec-

tion pumping control

).

Boiler return water temperature will be adequately controlled using the methods shown

in this manual provided the

system supply temperature

is

relatively constant.

DO NOT

apply the methods of this manual if the system is equipped with an

outdoor

reset control.

Instead,

provide controls and piping

which can

regulate the boiler re-

turn water temperature

at

no less than 130°F

regardless of system supply temperature.

Contact your Weil-McLain representative for suggested piping and control methods.

Failure to

prevent cold return water temperature

to the boiler could cause corrosion

damage to the sections or burners, resulting in possible severe personal injury, death or
substantial property damage.

3d

Piping — low temp systems

(continued)

SYSTEM-bypass piping
method

This piping method (

Figure 12

, page 3) is called a

sys-

tem-bypass

because part of the circulator flow bypasses

the system (through valve

7a

). This bypassed hot water

from the boiler outlet mixes with cooler system return
water temperature in order to provide minimum 130°F
return water to the boiler. Valve

7b

will most often be

full open, but may need to be slightly closed on some
low pressure drop systems in order to cause enough
flow through valve

7a

.

Figure 12

is an alternative piping method that provides

return water temperature control for boilers installed
on

converted gravity systems

(large water content or

steam systems).

Do not

apply the piping of

Figure 12

on

radiant heat-

ing systems

. It provides no method regulating the water

temperature provided to the system and could result in
excessive water temperature in the radiant tubing.

System-bypass piping as shown in

Figure 12

can be used

with either zone valve or circulator zoning. When used
with circulator zoning however, the boiler circulator

(item

3

), must be piped as shown. It cannot be used as

one of the zoning circulators.
Do not apply system-bypass piping if the reduced flow
in the system could cause poor heat distribution. That
is, system-bypass piping reduces the flow in the system
and increases the water temperature supplied to the
system. This can cause increased heat from radiators
at the beginning of the system and reduced heat from
radiators near the end of the system.

Valve adjustment

1. Start with valve

7a

fully closed and

7b

fully open.

. Gradually open valve

7a

while closing valve

7b

until

the temperature at gauge

8

reads at least 130°F at all

times.

3. Valve

7a

regulates the amount of boiler supply water

mixed with return water. Valve

7b

causes a pressure

drop in the system needed to balance flow through
valve

7a

and the system.

4. The valve adjustment should be done with the

system at the coldest expected temperature (60°F
for converted gravity systems or high mass radiant
systems).