There are many uses for the technology:- It can provide more highly efficient, environmentally clean and cost effective electricity than any other known method to date. Other applications are water desalination, hydrogen production or as a highly efficient motor for plant, pumps and machinery. It can also be a more efficient and cost effective drive for anything that turns, spins or rotates.

HOW IT WORKS:-

DESCRIPTION AND WORKING PRINCIPLES OF THE ELECTRICITY ENHANCING DEVICE...

The EEA baffles those who misinterpret the actions taking place within it as being outside of commonly accepted scientific principles and laws, where in fact it certainly is not. We will make a simple explanation to demonstrate what motivates the EEA motor/generator:

In order to gain an understanding of the operation of the EEA (Evergreen Electricity Amplifier) it must be understood that there are actually three separate and completely individual events occurring in the one machine.  Each of the three is equally important because without one of them operating in a completely synchronistical manner with the others in the system, the end result would not achieve the efficiency levels required. 

Each of the three events can and should be viewed in isolation and then when the three are drawn together as they are in the EEA, an understanding of the operation will become clear.

                 The First Event is a Pulsed DC Motor

                 The Second Event is an AC generator

                 The Third Event is the result of the impact of the Second on the First

THE FIRST EVENT 

A Pulsed DC Motor

A DC input current either from a battery bank or from rectified AC mains is supplied to a DC motor, in this case, comprising of four fixed position stator coils, and a rotor with four equally spaced imbedded rare earth permanent magnets of a particular strength.

The input is pulsed by a rotating switch (commutated) allowing the DC input current to flow through the motor coils for a percentage of one cycle as dictated by the actual ON period of the commutator contacts.  In most cases this is around 0.2 of a cycle.  The electron flow in this DC circuit is negative to positive and so the negative lead is permanently connected to the coil/s.

The DC pulse causes a magnetic effect in the coil core so that the temporary polarisation of the coils laminated steel core has the effect of repulsing the magnetically aligned permanent magnet embedded in the rotor so causing it to rotate. 

The DC pulse is completely consumed by this action, which is the cause of the rotor spinning.

So the single result of the consumed DC input pulse is that it initiates the motor movement.
 

THE SECOND EVENT

An AC Generator

The same coils used for the motor section in the First Event are used to generate the Second Event, that being an AC power output.  The rotor containing the permanent magnets is caused to be driven past the stator coils by the motor, at which time induction occurs in the coils producing an alternating current (AC) output.  The only force being used to cause the movement of the rotor is the motor torque.  The AC generated in the coils is done so independent of the input DC pulse and is strictly the result of the induction effect.

Evidence of the Second Event being able to operate independently and still provide the same AC output result is proven by causing it to produce the same output without the EEA motor section connected.

This is done by disconnecting the DC input wires and using an outside power source such as an electric motor connected to the axle of the generator and spinning it up to 750 revolutions per minute speed.  This will cause a 50 Hz AC output result, a result that is identical to that with the EA motor connected.

This proves that the AC output is produced purely by and controlled by the speed of rotation of the motor having an induction effect on the coils, nothing else, and especially no part of the DC input power component can be attributed as adding to the generated AC output.

     THE THIRD EVENT:-       The Effect of Event Two on Event One

Events One and Two happen independently of each other in the same machine.  The only similarity shared in the Events is that they share the same coil to enable each to perform their independent functions.

The pulsed DC input to the coil has no effect on the AC being produced because there is no return path for it through the AC load of the coil.  The AC is being generated continuously, and has no direct electrical contribution to the input because it too has no return path to enable it to do so.

The DC input runs the motor supplying current through its own defined circuit for around 0.2 of cycle.  (The ON period).

The DC input circuit has nothing to do with the AC output circuit, remember all the DC input is exhausted in the First Event so there is absolutely no DC input power left to do anything else.

The DC current is driven into the motor coils as long as there is a potential difference in voltage between the DC voltage and the AC voltage.  This potential voltage is what carries the input current.  When this potential voltage difference falls to zero the ON period of the electrical cycle is ended, and then no input current can flow.

The input voltage that carries current (amps) into the motor coils in a resultant voltage.  This can be seen on oscilloscope traces as a variable voltage.  It can also be called a differential voltage because the current is able to flow for a brief period before the lesser voltage becomes equal, and so prevents the flow from continuing.

The EEA has been designed to maximise and exploit Events One, Two and Three in a synchronous manner so as to produce a highly efficient means of generating electricity.  It could be seen as a true Tribrid system.

This harmonious triumvirate result has been accomplished by identifying and controlling the precise timing of input and output voltages, so to allow the separate Events to operate within the same space, using minimal shared components while retaining their original individual effects.

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