The technology can be applied to boilers and furnaces in various energy, industrial and utility companies.
XPlate™ technology is based on an innovative concept: Single molecule O2.
XPlate™ technology is the result of more than 10 years of scientific research in the fields of quantum physics and quantum chemistry. The primary initiator in the development and application of XPlate™ technology is Quantum Equilibrium International Ltd (QE), which owns the patent.
XplateTM performance was first officially proven in 2010 by the Coal Energy Technology Institute (CETI) of the National Academic of Science (NAS), Government of Ukraine. Several technical trials were later conducted in many countries in the world. At present, XplateTM trademark has been registered in several countries by Madrid international trademark system of the World Intellectual Property Organization (WIPO) in Switzerland.
According to the information of the technology owner, the essence of XPlate™ technology is as follows. Single molecules of oxygen and nitrogen in the atmospheric air, which is supplied to the furnace of the boiler (furnace) by blowers, have dipole moments, but due to chaotic thermal motion, they weakly interact with each other.
With the forced movement of air by the blower of the boiler (furnace), electrostatic charges are formed on the steel walls of the fan and air pipelines, the field of which arranges the oxygen and nitrogen molecules in the atmospheric air in an orderly manner so that due to the dipole interaction with each other, they form molecular air clusters (nitrogen + oxygen).
The interaction of fuel carbon with clustered atmospheric air (the chemical reaction of the oxidative process) is less intense compared to the case of free (single) nitrogen and oxygen molecules, both due to the lower diffusion rate of the clusters and due to the lower probability of a molecule colliding with the surface of the fuel particle. oxygen in the cluster.
As noted above, XPlate™ is a multilayer composite plate that levels this effect in such a way that after the area with installed XPlate™ plates, most of the atmospheric air molecular clusters break down into separate single molecules of oxygen and nitrogen.
This makes it possible to intensify the subsequent process of the chemical reaction of oxidation of carbon molecules in the fuel by single oxygen molecules, which ultimately ensures the guaranteed completeness of fuel combustion. Increasing the efficiency of using oxygen molecules in the combustion process allows a fixed volume of fuel to be burned with a smaller amount of air supplied.
As a result, the volume of exhaust gases decreases and the heat losses that these gases emit into the atmosphere are reduced. This leads to savings in fuel consumption. Download this file to get a detailed scientific explanation of the principles behind the technology.
XPlate™ is an innovative fuel-saving technology based on a unique idea that has no analogues in the world today
XPlate™ operates in stand-alone mode without an external power supply, which additionally ensures the safety of its operation at hazardous technological facilities
Installation of XPlate™ plates doesn’t require to stop the equipment (boiler, furnace). So there is no downtime in production process at the enterprise. The installation itself is carried out on the outer surface of the volutes of the air supply fan by 1-2 workers within 30-40 minutes
Depending on the type of fuel, type of equipment and intensity of its use during the year, the return on investment in XPlate™ technology only due to the reduced fuel consumption and without taking into account the reduction of harmful environmental emissions (carbon and nitrogen oxides) is from 12 up to 18 months