Graphene PERT Underfloor Heating Pipe

Graphene underfloor heating pipe, using modified graphene added to the polymer to achieve high dispersion doping technology, modified graphene doped high-density polyethylene (PE-RT) as the raw material for the production of a new type of thermally conductive water floor heating pipe. Compared with ordinary PE-RT pipe, graphene floor heating pipe is more energy-saving, environmentally friendly heat dissipation efficiency increased by more than 46%, its thermal conductivity is 2-4 times the traditional PE-RT pipe, more than 46% more than the ordinary PE-RT pipe heat dissipation efficiency, regardless of whether the use of regional temperature control or independent temperature control, so that the water underfloor heating system more energy-efficient.

The features of graphene pert underfloor heating pipe

1. PERT graphene underfloor heating pipe compared with ordinary PE-RT pipe, graphene underfloor heating pipe is more energy-saving, environmentally friendly heat dissipation efficiency increased by more than 46%, and its thermal conductivity is 2-4 times that of the traditional PE-RT pipe.

2. PERT graphene floor heating pipe does not need to be cleaned does not breed aerobic algae, can also absorb formaldehyde and other harmful gases, more environmentally friendly and healthy, is the ideal pipe for home heating.

3 service life up to 60 years high strength, good stability, long service life. Tubing homogeneity is good, stable performance, good creep resistance. Service life of up to 60 years.

4 low-temperature brittle cracking temperature up to -70 ℃ low-temperature brittle cracking temperature up to -70 ℃, can be transported in low-temperature environments, construction, especially suitable for the construction of cold regions in the north; the ability to resist external impact is much higher than that of other tubes, to prevent the destruction of the system caused by rough construction.

5. Easy to bend, easy to construct high flexibility —- easy to bend, easy to construct, no rebound after bending. Avoid the use of the process due to stress concentration caused by the pipe in the bend at the damage. Construction in a low-temperature environment, pipe preheating, construction is convenient.

PE-RT underfloor heating pipes with graphene content have significantly improved thermal conductivity compared to ordinary PE-RT underfloor heating pipes, which brings a series of advantages, including:

Superior thermal conductivity: Graphene has extremely high thermal conductivity, so the addition of graphene increases the thermal conductivity of PE-RT underfloor heating pipes by 2-4 times compared to ordinary underfloor heating pipes. This means that the underfloor heating system can conduct heat more quickly and efficiently, improving heating efficiency.

More uniform heating effect: High thermal conductivity helps to realize more uniform heating effect, reduce the temperature difference inside the pipe, and improve the comfort of the underfloor heating system.

Lighter weight design: Graphene is a lightweight material, and its inclusion makes PE-RT underfloor heating pipes lighter, helping to simplify transportation and installation.

Improved abrasion resistance and durability: The addition of graphene improves the mechanical properties of PE-RT pipe materials, increasing resistance to abrasion and durability, thus extending the service life of the pipes.

Improved anti-aging properties: The addition of graphene helps to improve the antioxidant properties of the pipe, slowing down the aging process and increasing the stability of the pipe.

Graphene PERT Underfloor Heating Pipe Application

Heating System

High temperature resistance, anti-aging

Hot and cold water supply system

Corrosion resistance, chemical stability and environmental friendliness

Underfloor heating systems

Good flexibility, better thermal conductivity, high temperature resistance

Cooling System

An example is cooling water piping in air conditioning systems.

What 2 to 4 times faster thermal conductivity means

Higher heating efficiency: Due to the increased thermal conductivity, underfloor heating systems are able to transfer heat more quickly and efficiently. This means that it takes less time for the system to warm up, improving heating efficiency.

More even heating: High thermal conductivity helps to spread heat more evenly through the pipes. This reduces temperature variations within the pipes, providing a more even heating effect and improving user comfort.

More flexible system design: Improved thermal conductivity allows for more flexible design of the underfloor heating system, including reducing pipe diameter, increasing pipe length, etc., to meet the heating needs of different scenarios and spaces.

Higher response rate: The response rate of an underfloor heating system is usually related to its thermal conductivity. Pipes with high thermal conductivity allow the system to respond more quickly to temperature changes, improving the dynamic performance of the system.

Reduced energy consumption: As a result of higher thermal conductivity, an underfloor heating system may be able to reach a set temperature in a shorter period of time, thus reducing the time the system is in operation and lowering energy consumption.

It should be noted that although high thermal conductivity brings the above advantages, other factors of the system such as piping layout, insulation and control system also need to be considered comprehensively in practical application to ensure the performance and reliability of the whole underfloor heating system.

Use High quality PERT raw materials

The oxygen barrier properties of PE-RT pipe are mainly related to its molecular structure as well as its production process. Compared to traditional polyethylene (PE) materials, the cross-linked structure and special design of the molecular chain of PE-RT materials result in lower gas permeability and thus improved oxygen barrier properties.

Good oxygen barrier properties are very important for heating systems because at high temperatures, the presence of oxygen can lead to corrosion of metal components and oxidation of the system. the better oxygen barrier properties of PE-RT pipe can effectively reduce the penetration of oxygen, which can help to maintain the stability of the system and extend the service life of the pipe.

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