Although variations in climatic temperatures are not as extreme in South Africa as they are, for example, in
certain northern European countries, there are areas in this country where burst pipes due to winter freezing are not uncommon.
According to London-based metallurgical consultants, Clifford Breckon Limited, the layout of the plumbing system,
particularly with regard to such things as the position of the fittings and the point of exposure to the lowest
temperature, will affect the tendency of the system to freeze.
it is preferred practice not to lag each pipe individually in the roof, but to place the pipes below the
ceiling lagging, which would protect the pipes from any draughts. At the same time, the warm air rising
from the room below would be trapped in the space between the ceiling and the lagging where the pipes are situated.
Freezing itself does not necessarily mean that the pipes will burst. It is not the distension of the tubes
by the ice which will cause a burst, but rather its distension by the water under pressure which causes the
problem. Bursting, for example, does not occur at the first part to freeze, on the contrary, bursting
invariably occurs where the water is still present as a liquid and usually, therefore, one of the last parts
of the system to actually freeze. The pressure to produce bursting is generated by the change from water
to ice and if the coldest point is in the middle of a straight length so that a plug of ice is first formed
at this point with say, a fitting or stop tap at one side, then the chances are that the plug of ice will
be moved along the tube by the pressure rather than a pressure build-up occurring.
The effect of pressure is to depress the freezing point slightly, so that under a mild frost nothing would happen
in the case of a smooth bore copper tube. On the other hand, of course, if the first point to freeze was where
there was a fitting, or stop cock, and there was a length of pipe which was subjected to freezing temperatures
with a solid closure at the far end, then eventually the pressure build-up would be such as to burst the tube.
Under these conditions the relative bursting point of a galvanized iron pipe will be higher than that of a
corresponding copper pipe, so that marginally less failures might occur with galvanised iron. On the other
hand, the chances of a plug of ice moving in a galvanized iron pipe is remote, so that from this point of
view more failures would be likely to occur with galvanized iron than with copper.
Summarizing the position, you have to emphasize that layout and exposure conditions are extremely important and
that the cause of bursting is pressure generated by the conversion of water to ice and that this pressure can be
transmitted hydraulically in the usual way. The freezing itself is not a danger, except for the generation of
this pressure, it is not the distension of the of the tube by the ice but rather the distension of the tube by
water under pressure which causes the problem. Depending on the exposure conditions, bursts are less likely
to occur under some circumstances with copper because of the smoothness of the bore.
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