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In Partnership with the Environment

What can magnets do to fuels?

How does magnetism affect Hydrocarbon-based combustible fluids such as gasoline, diesel fuel, kerosene, LP and natural gas?

To promote complete combustion, Oxygen must be combined with the Hydrocarbon molecule. Because the net charges of the Hydrocarbon and Oxygen molecules are both negative, there are repulsive forces, not attractive forces present. To overcome this repulsion, combustion engineers design combustion processes so that the combustion envelope is super-saturated with Oxygen. The overwhelming Oxygen concentration forces the two similarly charged molecules to be in close physical proximity to each other and eventually, combine to create the combustion climate. In essence the fuel uses the available Oxygen; or attempts to.

Since Fuel, like most fluids, can be ionized by an external magnetic force, it will exhibit many of the same physical-atomic characteristics of the previous information on water. When MAGNETIZED, the fuel's Hydrocarbons are ionized to exhibit a net positive charge (as with water). The change in charge allows the fuel to aggressively attract and bond with available (negatively charged) Oxygen. Basically, the magnets allow more oxygen to enter the fuel, resulting in higher ignition, increased fuel economy and more horsepower.

Proven Benefits of GMX Magnetic Fluid Conditioners in Fuel Systems

More Complete Combustion

Because of the propensity of magnetically treated fuel to attract oxygen molecules when mixed with air in a combustion cylinder, GMX conditioners enable fuel to burn more completely throughout the entire chamber, whether it's gasoline or diesel engine. For example, if you were to try to burn a log with a single match, it will burn very inefficiently, giving you a smoldering, gradual burn with less heat and more smoke and ashes. But if you take that same log and split it up into smaller pieces, it will burn much more efficiently, giving you more heat and less smoke and ash residue. The GMX fuel conditioners "fracture" the hydrocarbon chains in the fuel, much like an ax breaking up a log, thus allowing for a more complete burn.

Greater Fuel Efficiency

More complete combustion results in the generation of more energy from the same amount of fuel.

Reduction of Harmful Emissions

Because of a higher proportion of the fuel is combusted within the gasoline or diesel chamber, less is left to pollute the environment in the form of environmentally harmful hydrocarbon emissions.

What Can a Magnet Technology Do for Diesel Powered Vehicles?

In addition to increasing fuel efficiently, when properly magnetized, diesel fuel will resist gelling. (Gelling is a temperature induced "crystallization" that can be considered somewhat analogous to the scaling mechanism in an aqueous solution). This means that during cold weather, special fuel additives may be eliminated. Also, for the same oxygen bonding and cleaning reasons as outlined above, immediately apparent is the increase in available power and the marked reduction in the exhaust smoking normally associated with diesel power.

After Installation, what type of behavior can be expected from a newly MAGNETIZED car?

Immediately evident will be an increase in the power/mpg. This is the newly energized fuel exploding in the combustion chambers. Depending upon the carbon & varnish condition of the system, the extra mpg may be reduced temporarily. This is a result of the MAGNETIZED fuel's cleaning capability, dissolving the carbon and the varnish build-up from within the system. It occurs when tiny particulates may briefly impede the fuel flow. The particulate will dissolve. The power will then return, signifying the completion of the "cleaning" stage. At this point, the jets, lines, and injectors return to peak efficiency.