CPVC Duct Thermal Expansion & Contraction

HARVEL CPVC DUCT

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THERMAL EXPANSION AND CONTRACTION

The coefficient of linear expansion (y) for Harvel CPVC Duct is 3.9 x 10-5 in/in/ªF, the lowest thermal expansion rate of commonly used thermoplastics. As with all piping products, thermal expansion and contraction of the system must be considered and properly addressed during the design and installation of the system. The expansion or contraction rate of Harvel CPVC Duct can be calculated as follows:

Δ L = 12 yL (ΔT) where: ΔL = expansion or contraction of duct in inches
	y = 3.9 x 10-5 in/in/°F (coefficient of thermal expansion) L = Length of duct run in feet ΔT = Temperature change °F (T max. - T in.) T max. = maximum change in operating temperature (°F) T in. = temperature at time of installation (°F)

The most common means to compensate for changes in length is with the installation of in-line expansion joints, either flexible sleeve type or o-ring piston type being the most common. The effects of thermal expansion and contraction can also be compensated by using the inherent line flexibility of the system to construct expansion loops and offsets where required. Additional detailed information concerning the effects and control of thermal expansion and contraction, and other information pertaining to the design and installation of CPVC piping products, is available from Harvel Plastics, Inc.

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