Pro Insulations

Pipe Insulation

Pipe Insulation on your hot water pipes reduces heat loss and can raise water temperature 2°F – 4°F hotter than uninsulated pipes can deliver, allowing for a lower water temperature setting.You also won’t have to wait as long for hot water when you turn on a faucet or shower head, which helps conserve water.
That’s why water lines freeze and break!

Applications:

Condensation control

Where pipes operate at below-ambient temperatures, the potential exists for water vapor to condense on the pipe surface.

Moisture is known to contribute towards many different types of corrosion, so preventing the formation of condensation on pipework is usually considered important.Pipe insulation can prevent condensation forming, as the surface temperature of the insulation will vary from the surface temperature of the pipe.

Condensation will not occur, provided that (a) the insulation surface is above the dew point temperature of the air; and (b) the insulation incorporates some form of water-vapor barrier or retarder that prevents water vapor from passing through the insulation to form on the pipe surface.

Pipe freezing

Since some water pipes are located either outside or in unheated areas where the ambient temperature may occasionally drop below the freezing point of water, any water in the pipework may potentially freeze. When water freezes, it expands due to negative thermal expansion, and this expansion can cause failure of a pipe system in any one of a number of ways.

Pipe insulation cannot prevent the freezing of standing water in pipework, but it can increase the time required for freezing to occur – thereby reducing the risk of the water in the pipes freezing. For this reason, it is recommended to insulate pipework at risk of freezing, and local water-supply regulations may require pipe insulation be applied to pipework to reduce the risk of pipe freezing.

For a given length, a smaller-bore pipe holds a smaller volume of water than a larger-bore pipe, and therefore water in a smaller-bore pipe will freeze more easily (and more quickly) than water in a larger-bore pipe (presuming equivalent environments).

Since smaller-bore pipes present a greater risk of freezing, insulation is typically used in combination with alternative methods of freeze prevention (e.g., modulating trace heating cable, or ensuring a consistent flow of water through the pipe).

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Energy saving

Since pipework can operate at temperatures far removed from the ambient temperature, and the rate of heat flow from a pipe is related to the temperature differential between the pipe and the surrounding ambient air, heat flow from pipework can be considerable. In many situations, this heat flow is undesirable.

The application of thermal pipe insulation introduces thermal resistance and reduces the heat flow.Thicknesses of thermal pipe insulation used for saving energy vary, but as a general rule, pipes operating at more-extreme temperatures exhibit a greater heat flow and larger thicknesses are applied due to the greater potential savings.

The different size of pipe related with the energy saving depend on the flow rate, energy cost is determined by particular pipe size. Using PIPEOPT algorithm, if pipe diameter is lager, the energy is less than smaller pipe diameter because of the lower pressure.The location of pipework also influences the selection of insulation thickness.

For instance, in some circumstances, heating pipework within a well-insulated building might not require insulation, as the heat that’s “lost” (i.e., the heat that flows from the pipe to the surrounding air) may be considered “useful” for heating the building, as such “lost” heat would be effectively trapped by the structural insulation anyway. Conversely, such pipework may be insulated to prevent overheating or unnecessary cooling in the rooms through which it passes.

Protection against extreme temperatures

Where pipework is operating at extremely high or low temperatures, the potential exists for injury to occur should any person come into physical contact with the pipe surface. The threshold for human pain varies, but several international standards set recommended touch temperature limits.Since the surface temperature of insulation varies from the temperature of the pipe surface, typically such that the insulation surface has a “less extreme” temperature, pipe insulation can be used to bring surface touch temperatures into a safe range.

Control of noise

Pipework can operate as a conduit for noise to travel from one part of a building to another (a typical example of this can be seen with waste-water pipework routed within a building). Acoustic insulation can prevent this noise transfer by acting to damp the pipe wall and performing an acoustic decoupling function wherever the pipe passes through a fixed wall or floor and wherever the pipe is mechanically fixed.

Pipework can also radiate mechanical noise. In such circumstances, the breakout of noise from the pipe wall can be achieved by acoustic insulation incorporating a high-density sound barrier.