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IN TERMS OF PERFORMANCE, HOW DOES THE MONO-POLE METHOD COMPARE WITH THE COMMONLY USED BI-POLAR METHOD?

The shortcoming in all bi-polar applications is that they are inherently low in (power) applied magnetic field strength. The reason is that the field generated by any magnet originates and is concentrated at its head. That field then emanates and disseminates like an umbrella all around the magnet until it goes into the other head; greatly reducing the power at its sides. The field measured at the magnet’s sides represents only a very minor percentage of its total magnetic strength.

The bi-polar applications, the fluid flows along side of the magnet thereby forcing the magnet’s lateral fields to do the conditioning. Thus, almost 95% of a bi-polar unit’s potential South pole magnetic strength is wasted. Any energy used to emit the North pole magnetic field is completely useless.

This final obstacle of design has been overcome by the MONO-POLE METHOD used in all AVOCA-TEC Magnetic units

The Magnets:

The magnets usually resemble a “bar” shape in physical dimension only. The magnetic poles, normally found on each end of a bar magnet, are actually found on the front and back “sides” of this magnet. Obviously, this patented method would be useless with weak magnets. To insure the power is never in question, we use permanent, aerospace-quality, barium-ferrite ceramic magnets. At an industry rating, our patented magnets are many times more powerful than the regular magnets.

The MONO-POLE method:

The magnets used are magnetized through their thickness. The fluid is exposed exclusively to the head where all the power is (South Pole). When these magnets are placed parallel to the flow, around the outside circumference of a pipe, the entire head of the South pole faces the fluid while the North poles radiate away from the fluid, like spokes from the hub of a wagon wheel.

This configuration serves to concentrate each magnet’s full South field strength into the fluid’s mass. The result is that the fluid is conditioned by the greatest concentration of power available.

To maintain optimum magnetic configuration, the magnets are affixed to a highly engineered steel retaining plate on the North pole side. The steel retainer was designed to work as a keeper/driver to push the South pole field even further into the pipe. In this way, the magnet is able to utilize energy otherwise wasted which instead is further extended into the center of the pipe, there utilizing and scientifically maximizing all the available power.

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