2 installation – Glowworm Lighting 250 I User Manual

5

Minimum diameter

of the discharge

pipe from the

tundish

Maximum

permissible

total resistance,

expressed as

straight pipe

length (without

elbows or bends)

Resistance due

to each elbow

or bend (straight

length equivalent)

mm

Up to 9m

0.8m

8mm

Up to 8m

.0m

35mm

Up to 7m

.4m

Table . Resistance

Examples:
mm discharge pipe with 4 elbows and of 7m length from the

tundish to the discharge point:
Resistance for 4 elbows per 0.8m =

3.m

Resistance for discharge pipe

=

7.0m

Total resistance

=

0.m

The total resistance of the discharge pipe is higher than the

maximum permissible value for mm pipes (9m). Base your

calculations therefore on the next largest pipe diameter.
8mm discharge pipe with 4 elbows and of 7m length from the

tundish to the discharge point:
Resistance for 4 elbows per .0m =

4.0m

Resistance for discharge pipe

=

7.0m

Total resistance

=

.0m

The total resistance of the discharge pipe is lower than the

maximum permissible value for 8mm pipes (8m),which

means this pipe diameter can be used.
Water which is almost boiling may escape from the discharge

pipe in the event of an error.
IMPORTANT: Risk of being scalded by escaping hot water!

Make sure the discharge pipe ends at a safe point inside or

outside the building (safe and visible), where there is no risk

of anyone coming in contact with hot water.
A suitable point is, for example, under a fixed grating above

the trap of a trapped gully. Low discharge pipes, for example

up to 00mm above external surfaces, such as parking

spaces, grasslands etc., can be used, provided they are

secured by a wire fence or something similar to prevent

children from coming in contact with the waste water, and the

system is visible. No valves or taps may be installed in the

discharge pipe.
Make sure the discharge pipe is at a constant slope of at least

:00 from the tundish to the discharge point.
The discharge pipe from the pressure relief valve of the boiler

(if applicable) can be connected to the horizontal discharge

pipe of the solar cylinder behind the tundish with a T-piece.

2.9 High level discharge termination

Providing that the point of termination is such that persons

in or around the building will not be endangered should

discharge take place, this method of termination is

satisfactory. Points to consider when deciding whether a

location for the high level of discharge is suitable are:

METAL DISCHARGE PIPE FROM

TEMPERATURE RELIEF VALVE

TO TUNDISH

METAL DISCHARGE PIPE

FROM TUNDISH WITH

CONTINUOUS FALL

TUNDISH

DISCHARGE

BELOW

FIXED

GRATING

FIXED

GRATING

TRAPPED GULLY

SAFETY DEVICE

(E.G. TEMPERATURE

RELIEF VALVE

VENTIL)

500 MM

MINIMUM

300 MM

MINIMUM

Diagram .5

4

88

TUNDISH

300 MM

MINIMUM

DISCHARGE

PIPE

METAL

HOPPER

HEAD

Diagram .6

4

89

The possibility, taking into account wind effect, that someone

may be in the path of the water being discharged and if so,

whether the temperature of the discharge water will have

been sufficiently reduced to not be dangerous. Thermal

conductivity of the structure's surface, climatic conditions and

location and orientation of the discharge pipe may or may not

have an effect on reducing the temperature of the discharge

water.
The location of windows and similar openings.
The likelihood of a pram being left beneath the point of

discharge.
The ability of structures surface to withstand near boiling

water.
The possibility of ice formation if water is discharged onto

pedestrian walkways.

2 Installation