MagMicron
MagMicron technology integrates magnetics with a 1- micron oil-based depth media filter, enhancing its longevity and performance.
Applying magnetics to the filters benefits from removing ferrous particulates that end up in the oil due to equipment wear. Removing these harmful metals entering the filtering media enhances its ability to adsorb smaller particulates and contaminants and better absorb the water, improving overall capacity. Larger hydrocarbon clusters, in this case, are more accessible for the filter to catch early and remove them, leaving more area for the patented 1-micron filtering element to capture smaller particulates. Field tests have shown 10%-25% better performance with uniquely positioned magnets integrated into the filter element. Also, independent lab tests have shown a 67% increase in the functional life of the filter elements.
MagFuel
MagFuel technology introduces a uniquely charged polarity source on hydrocarbon-based fluids affecting their molecular structure to better combust in engines and enhance efficiencies.
Hydrocarbon molecules tend to attract to each other, forming clusters. When the fuel mixes with air, all the fuel molecules may not combine with the oxygen molecules for combustion, and hence some of the fuel molecules escape into the atmosphere as unburnt gas. A magnetic field applied to a hydrocarbon weakens the bonds between the molecules aiding in forming more bonds with oxygen molecules, thus increasing combustion when combined and ignited. In addition, a magnetic field reduces the surface tension of hydrocarbon-based fluids allowing for better and more efficient flow of fluids such as refrigerants.
MagWater
Mag Water technology introduces a uniquely charged polarity source affecting water’s molecular structure to make minerals more solvent reducing scale and killing bacterial cells eliminating biofouling.
Water is a polar molecule. The oxygen-hydrogen (O–H) bonds in water make it a polar molecule in which one end of the molecule is slightly positive while the other is somewhat negative. While there is no net charge to a water molecule, the polarity of water creates a slightly positive charge on hydrogen and a slightly negative charge on oxygen. This property causes water molecules to be weakly attracted to other water molecules (positive to negative, negative to positive) and results in the cohesion of water to itself. This polarity contributes to water’s attraction properties, such as water droplets on a flat piece of glass, forming droplets, and beading up—these attractive properties cause large groupings of water clusters that attract minerals.
Trinity’s CPS induces a magnetized field (MF) that restructures grouped water clusters into smaller hexagonal-shaped molecules or organized clusters, improving the water’s mineral solubility. Another aspect of magnetized water is biofouling. The CPS charges the microbial cells in the biofilm, causing them to attract moisture, forming a layer of pure water around them. The surrounding water increases osmotic forces, Turgor pressure, or excessive osmosis, forcing the water into the cells, rupturing the membrane, and destroying it.
