Iran-Made Nanotechnology-Based Thermal Insulator Able to Optimize Energy Efficiency 
12:00 - March 18, 2023

Iran-Made Nanotechnology-Based Thermal Insulator Able to Optimize Energy Efficiency 

TEHRAN (ANA)- An Iranian company has developed a thermal insulator based on nanotechnology that is able to optimize energy efficiency in buildings.
News ID : 1976

The product can prevent the transfer of heat by thermal radiation, has high flexibility, and does not produce smoke or chemical pollutants.

Therefore, it is a suitable alternative to the existing traditional insulators.

The use of nanomaterials has improved the performance of the thermal insulator so that the heat transfer coefficient has decreased and the specific heat of the coating has increased.

The coating is used in much smaller thicknesses than glass wool and stone wool. This issue is of great importance in building facilities.

One of the advantages of the insulator is its high durability and lack of corrosion which is common in industrial coatings. This insulator adheres to the surface and is durable due to the elimination of condensation.

This product is suitable for reducing the temperature of external surfaces in industrial equipment such as tanks and reactors.

It also reduces fuel and energy consumption in equipment with high temperatures and thermal energy, especially in petrochemical plants, refineries, and metal industries.

If the nanotechnology-based insulator is used in buildings, heat absorption will be reduced and the transmission of cold weather through roofs, walls, and attics will be prevented.

These coatings will help a temperature drop and thus energy storage through a thermal energy reflection mechanism and a change in the thermal coefficient.

The materials are designed at the molecular and macroscopic levels and trap air between the particles.

So, a nano-insulator and nano-coating even with a thickness of a few inches can have a significant effect.

Some nanomaterials have unique properties such as high specific surface and porosity, low density, low thermal conductivity, high transparency, and very low dielectric constant.

4155/g

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