For any industrial piping or ducting system, it is critical that hangers and supports are correctly spaced. Too much space between supports adds unnecessary stress to your system, causing deflection and sagging. Too little spacing, and you will incur unnecessary expenses.
An advantage CPVC has over other thermoplastics is that at elevated temperatures it maintains its structural integrity, requiring fewer supports. Depending on the size of the system, this can create significant advantages across material, design and—most importantly—labor costs.
CPVC is more efficient than other thermoplastics
Although required support spacing is less for CPVC than other thermoplastics, it is not as rigid as traditional metal piping systems, requiring additional supports. However, in corrosive applications, the additional hangers are a small price to pay for extended system reliability.
Ultimately, the number and spacing of hangers and supports will be determined by the system conditions and piping or ducting requirements.
When determining support spacing for CPVC piping or ducting systems, the following all affect installation specifications:
Taking into account the three fundamental factors—pipe size, pipe schedule and processing temperature—we have developed the maximum support spacing tables for Corzan® CPVC. The table assumes:
If your system conveys liquids of higher specific gravities, you’ll need to multiply the number you see on the table by the corresponding number from this table:
As expected, schedule 40 piping, which has a thinner pipe wall, requires more frequent supports than schedule 80. Piping with a thinner wall is inherently more flexible and prone to sagging if appropriate support distances are not followed.
Maximum Support Spacing for Schedule 40 CPVC Piping (in feet)
Maximum Support Spacing for Schedule 80 CPVC Piping (in feet)
Vertical runs of pipe should be supported every 10 feet.
While the recommended support distances are provided for straight runs, industrial systems are not solely comprised of straight runs of pipe. Valves, flanges, bends, tees, joints, and other heavy components may require independent support in CPVC systems. Add additional supports for straight runs when necessary and assure that you don’t go over the recommended distance between supports.
When choosing hangers, clamps, or supports, ensure the right fit for the situation and provide the necessary support. Also, be especially careful that edges are smooth/rounded to negate the chance the pipe will be scratch or abraded by the support or hanger. Not forcing fittings into place or over tightening them will also help keep piping free from harm.
Recommended options include the following:
Though CPVC ducting has a thinner wall than schedule 40 or 80 piping, it requires fewer supports because of the relative weight of what is being conveyed.
Below are the recommendations for support spacing in Corzan CPVC ducting systems (in feet).
As is true of piping, vertical duct runs should be supported by guides every 10 feet.
CPVC ducting must also be independently supported at heavy points to ensure the highest system integrity. These include:
Similar to CPVC piping systems, support your ducting at each of these heavy points and add additional supports for straight runs where necessary.
Finally, in case of CPVC thermal expansion, avoid over-tightening supports or using supports with sharp or abrasive edges.
In addition to planning for support and hanger spacing during system design, make sure to consider thermal expansion. In this blog post, our team takes an in-depth look at thermal expansion and contraction, providing: