Radiation effect of far-infrared ray of Green House Systems heating film

What is Far Infrared Ray (FIR)?

As infrared ray in long wave of infrared rays, far-infrared rays have longer waves than red area of visible rays and stronger thermal effect and are absorbed to the objects and stronger resonance effects for organic compound molecule. When reached to objects, it is well absorbed by long waves and can penetrate into the human skin up to 40 mm by high permeation and expansion of capillary vessel by thermal effects of body helps the circulation of the blood and production of cell tissue. And, all these functions help to kill germs caused various kinds of disease.

The electromagnetic spectrum is divided into three segments by wavelength measured in microns. A wavelength of 0.076 to 1.5 microns is "near" infrared, 1.5 to 5.6 microns is "middle" infrared, and 5.6 to 1000 microns is "far" infrared (FIR). This invisible band of light warms objects without warming the surrounding air. The best example of this is the sun. Consider standing in the sun on a cold day. You feel warmth from the sun even though the air temperature is cold. This warmth you feel is far infrared penetrating your body 1.5 to 3.5 inches. Infrared heat is, therefore, a completely safe energy that raises the temperature in objects without having to heat the surrounding air. Approximately 80% of the sun's rays fall into the infrared range. (This should not be confused with ultraviolet rays, which are harmful to the skin.) Infrared energy is not visible to the human eye but can been seen with special cameras that translate the light into visible colors.

 
The principle of Far Infrared rays

Regarding dipolar changes by vibration and rotation, most of electron transitions requires the energy of visible rays and infrared rays spectrum and infrared rays occur primarily only in the molecules which have significant difference in the energy among several vibrations and rotations.
So, to absorb or emit infrared radiant rays, the relevant molecule should change dipolar moment by vibration and rotation.
If radiating infrared rays with the same wave length to the molecule, the energy of infrared rays is absorbed into the molecule, because of resonance, and the molecule or its molecule group are excited. And then, the infrared rays of the wavelengths with the inconsistent number of molecular vibrations transmit or reflect the molecule.
In these conditions, the electric field of radiant rays is interactive with molecules and can cause changes in the molecular vibration and rotation. If the number of radiant ray vibrations agrees with that of natural molecular vibrations, energy transfer occurs and the amplitude of molecular vibration changes. As a result, radiant rays are absorbed or emitted. Similarly, if asymmetric molecules rotate around the center of mass, cyclic dipolar changes appear followed by interaction with radiant rays.

How Does FIR benefit our body?

Our bodies radiate far infrared energy through the skin at between 3 and 50 microns. Our palms emit infrared energy between 8 and 14 microns. The physical properties of FIR penetrate deep into the subcutaneous tissues improving blood circulation, increasing overall metabolism, and detoxying the body of metabolic biproducts. Upon penetrating the skin, Far Infrared Ray (FIR) transform from light energy into heat energy. The thermal effect within the deep tissue layers cause blood vessels and capillaries do dilate, promoting better blood circulation.

Green House Systems's Far Infrared Heat Efficiency

With Green House's heat, every object in the room becomes warm by emitting far infrared rays and negative ions contributing to your overall comfort. Green House's heating system is the number one choice by homeowners worldwide because its heat consumes less energy than other heating methods.

30% cost saving compared to electric heating, 60% cost saving compared to fuel heating!

Green House heating film can enormously save heating cost by high efficiency convection heating.

Convection heat by far – infrared ray is the heating system without temperature difference and having good heating effects under relatively low power consumption compared to radiation heating system.

It is possible to save the cost additionally by avoiding unnecessary heating by partial heating.

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