Single Insulated PEX Pipe - 3 1/2" Direct Burial - for Underground Liquid Transfer - Autonom
By Autonom
$48.50
- SKU:
- AH200110
- Width:
- 65.00 (in)
- Height:
- 65.00 (in)
- Depth:
- 65.00 (in)
- Shipping:
- Calculated at Checkout
Financing Available!
Introducing our Single Insulated PEX Pipe - the ultimate solution for minimizing heat loss or gain during liquid transfer. This pre-insulated pipe is designed with a single pipe inside an insulated casing, ensuring efficient heat transfer from one location to another. Available in various sizes, including 2", 2-1/2", 3", 3-1/2", and 4", it offers versatility for different applications.
One of the most common uses of this pipe is transferring heated water from outdoor boilers, such as wood, pellet, chip, or biomass boilers, to the structures being heated, including single homes or additional structures. Additionally, it is ideal for district or community heating systems, industrial processing facilities, and cold liquid transfer systems.
Our Double Heating Pipe takes flexibility to the next level by combining both the flow and return carrier pipes within the same jacket pipe. Primarily designed for underground distribution networks, it ensures efficient transport of heating water or other heat-transfer media. The carrier pipes are crafted from cross-linked PE-Xa, featuring an orange-colored oxygen-diffusion barrier for the flow line and a blue-colored barrier for the return, enabling easy identification during installation.
The multi-layer thermal insulation, made from cross-linked, microcellular PE-X foam, boasts a water-repellent closed cell structure. It guarantees durable, non-aging insulation performance and permanent elasticity, even after multiple bends. With a high-grade, double-walled, corrugated HDPE sleeve, our pre-insulated pipe system remains flexible while protecting against mechanical impacts and moisture.
Experience the utmost efficiency and reliability in liquid transfer with our Single Insulated PEX Pipe and Double Heating Pipe. Upgrade your system now to maximize heat retention and minimize energy loss.