The FIR Factor & Water Molecules
The water molecules in the air are attached together through Hydrogen bond, making big groups of water molecules, big clusters. The moisture in the air is then composed of big clusters of water molecules when not submitted to FIR.
Normal vibration of H2O in the air without specific infrared rays irradiation: they are grouped in big clusters, by the hydrogen-bond link.
Absorption of specific infrared rays by water molecules generating large vibration (resonance) of the water molecules.
Large vibrations by resonance of H2O in the air occur when FIR are irradiated. Hydrogen-bond is cut due to high vibration of each water molecules
Big clusters of water molecules in the air are now “atomized” into individual water molecules and stick on the heat exchangers with a much higher contact area.
The specific action made by CONTINEWM® patents is able to break down clusters of moisture into individual molecules
The greater contact area between the H2O in the air and the fins of the heat exchanger in the AC unit, produces the fastest achievable heat exchange.
The compressor functions more efficiently, as there is less load on it, resulting in a reduction in energy consumption and a prolonged life span of the machines.
In addition to conserving energy, the specific infrared rays emitted by CONTINEWM® Nets Technology is able to purify the air and remove bad odors.
CONTINEWM® technology emits a negative electrostatic charge which neutralises the positive charge of the airflow passing through it.
The air flow is charged with the same positive polarity of the heat exchanger unit of the HVAC machine. This phenomena produces a repulsive force between them: in this situation part of the air does not get in contact with the HVAC's heat exchanger because of electrostatic repulsion.
CONTINEWM® Net provide a negative polarization of the air flow passing through, neutralizing the positive charges. As also shown in the scheme below, this elimination of static electricity cancel the repulsive force, allowing the air flow to maximise its contact area with the HVAC heat exchanger's fins.
With CONTINEWM® Net the contact area between the air flow and the heat exchanger's fins into the HVAC is fully optimized offering a quicker reach of the set temperature, compared to the conditions and a regular functioning at all temperatures' setup.
without CONTINEWM®
with CONTINEWM®
Final Effect with CONTINEWM®
Recycled polyethylene frame containing the patents. The compound emitting the specific infrared rays (FIR)
Ions & Power Recovery Mechanism
The airflow is charged with the same positive polarity as the heat exchanger unit of the HVAC machine. This phenomenon produces a repulsive force between them; in this situation, part of the air does not get in contact with the HVAC's heat exchanger because of electrostatic repulsion.
CONTINEWM® provide a negative polarization of the air flow passing through, neutralizing the positive charges. As also shown in the scheme below, this elimination of static electricity cancel the repulsive force, allowing the air flow to maximise its contact area with the HVAC heat exchanger's fins.
With CONTINEWM®, the contact area between the airflow and the heat exchanger's fins in the HVAC is fully optimized, offering a quicker reach of the set temperature, compared to the conditions and a regular functioning at all temperatures.
Cooling Efficiency
The infrared emission from the natural ceramic material helps break water droplets into finer clusters. This distributes the temperature more evenly across the room and reduces energy consumption.
The entire room achieved homogenization of air temperature. The measurement showed a consistent temperature, whether closer or farther from the air conditioner.
CONTINEWM® Nets
Size: 49 cm x 49 cm x 0.26 cm
Weight: 200 g
Color: Brown (special coded reg. Pantone XTl 0023bn)
Developed & Produced: Japan – SINCE 2010
Trademark License: No.1597440
Material: Natural clay minerals embedded in polyethylene
Properties: Negative electrostatic charge
Electronic microscope of the minerals: