06-02-2013, 03:30 PM
MOTIONLESS ELECTROMAGNETIC GENERATOR
[attachment=49872]
Abstract:
This paper is written to introduce one of the revolutionary apparatus in the world of free
energy / over unity devices, namely Motionless Electromagnetic Generator (MEG) [7].The major
objective behind the invention of MEG is to design a magnetic generator in which the generation of
electricity is accomplished without moving parts and moreover which eliminates a need for an
external power source during it’s operation. In other words it is the objective to design a magnetic
generator for which the coefficient of performance (COP) is well over unity (COP>1), i.e. which
gives more output power than we inputted. In this paper, how these objectives are achieved is
explained with the help of first version of MEG.
Introduction:
The electrical energy needs of the world are increasing exponentially. At the same time, the
world’s oil supplies are peaking and will be gradually decreasing, while becoming ever more
expensive to obtain. The easily foreseeable result is first a world energy crisis, now looming,
followed by a world economic crisis as prices of transportation, goods, etc. increases. MEG
can resolve this crisis that is coming upon us. Not only MEG but With all free energy systems
and technologies, the increasing need for oil can be blunted and controlled, so that the
economy levels off while at the same time additional electrical power is provided as needed.
Some of the free energy technologies include Radiant energy/ Cold Electricity, Permanent
magnets, Mechanical heaters, Super efficient electrolysis, Cold Fusion etc. These processes
produce clean electrical power, do not require rivers, special conditions for windmills and solar
cells, hydrocarbon combustion, or nuclear fuel rod consumption. They will provide clean
(pollution free), cheap electrical energy anywhere, anytime, everywhere, and every time with
no detrimental impact to the environment.
Permanent Magnets:
MEG operates in accordance with, very well known law in the electrical
engineering literature, an extension of Faraday’s law, indicating that an electrical current
is induced within a conductor within a changing magnetic field, even if the source of the
magnetic field is stationary. Harnessing the invisible force called Magnetism has already
changed the world. It has given us electricity, radio, television, computers, and thousands of other
things. But it’s greatest gift to mankind is yet to be realized. Magnetism can provide a source of
inexhaustible, pollution-free energy. In the last 120 years, dozens of inventors have reported
success in harnessing magnetism to produce excess mechanical energy, electricity, and heat. With
permanent magnets getting stronger and cheaper, all the time more and more researchers are
probing the unknown properties of magnetism The device under consideration, MEG, also, utilizes
thepermanent magnets to produce cop>1.0. Let us start our original discussion.
Construction and operation :
From the above, we can observe
that this device works on
the principle of
transformer rather than
on the principle of
generator. Not only in
the principle but in
construction also it
resembles with a
transformer. It consists
of a permanent magnet,
two magnetic paths
external to the
permanent magnet,
each of which extends
between the opposite poles of the permanent magnet, switching means for causing magnetic flux
to flow alternately along each of the two magnetic paths, one or more output coils in which current
is induced to flow by means of change in magnetic field within the device. See figure.1, for basic
setup of MEG. Fig.1, shows an electromagnetic generator including a permanent magnet, a
magnetic core, first and second input coils, first and second output coils, and a switching circuit.
The permanent magnet has magnetic poles at opposite ends. The magnetic core includes a first
magnetic path, around which the first input and output coils extend, and a second magnetic path,
around which the second input and output coils extend, between opposite ends of the permanent
magnet. The switching circuit drives electrical current alternately through the first and second input
coils. The electrical current driven through the first input coil causes the first input coil to produce a
magnetic field opposing a concentration of magnetic flux from the permanent magnet within the
first magnetic path. The electrical current driven through the second input coil causes the second
input coil to produce magnetic flux opposing a concentration of magnetic flux from the permanent
magnet within the second magnetic path. The essential function of the magnetic portion of an
electrical generator is simply to switch magnetic fields in accordance with precise timing. In most
conventional applications of magnetic generators, the voltage is switched across coils, creating
magnetic fields in the coils which are used to override the fields of permanent magnets, so that a
substantial amount of power must be furnished to the generator to power the switching means,
reducing the efficiency of the generator.
Detailed description :
Fig.3 is a partly schematic front elevation of an electromagnetic generator 10, built to include a
permanent magnet 12 to supply input lines of magnet flux moving from the north pole 14 of the
magnet 12 outward into magnetic flux path core material 16. The flux path core material 16 is
configured to form a right magnetic path 18 and a left magnetic 20, both of which extend externally
between the north pole 14 and the south pole 22 of the magnet 12. The electromagnetic generator
10 is driven by means of a switching and control circuit 24, which alternately drives electrical
current through a right input coil 26 and a left input coil 28. These input coils 26, 28 each extend
around a portion of core material 16, with the right input coil 26 surrounding a portion of the right
magnetic path 18 and with the left magnetic path 20.
A right output coil 29 also surrounds a portion of the right magnetic path 18, while a left
output coil 30 surrounds a portion of the left magnetic path 20. The switching and control circuit 24
and the input coils 26, 28 are arranged and so that, when the right input coil 26 is energized, a
north magnetic pole is present at its left end 31.
[attachment=49872]
Abstract:
This paper is written to introduce one of the revolutionary apparatus in the world of free
energy / over unity devices, namely Motionless Electromagnetic Generator (MEG) [7].The major
objective behind the invention of MEG is to design a magnetic generator in which the generation of
electricity is accomplished without moving parts and moreover which eliminates a need for an
external power source during it’s operation. In other words it is the objective to design a magnetic
generator for which the coefficient of performance (COP) is well over unity (COP>1), i.e. which
gives more output power than we inputted. In this paper, how these objectives are achieved is
explained with the help of first version of MEG.
Introduction:
The electrical energy needs of the world are increasing exponentially. At the same time, the
world’s oil supplies are peaking and will be gradually decreasing, while becoming ever more
expensive to obtain. The easily foreseeable result is first a world energy crisis, now looming,
followed by a world economic crisis as prices of transportation, goods, etc. increases. MEG
can resolve this crisis that is coming upon us. Not only MEG but With all free energy systems
and technologies, the increasing need for oil can be blunted and controlled, so that the
economy levels off while at the same time additional electrical power is provided as needed.
Some of the free energy technologies include Radiant energy/ Cold Electricity, Permanent
magnets, Mechanical heaters, Super efficient electrolysis, Cold Fusion etc. These processes
produce clean electrical power, do not require rivers, special conditions for windmills and solar
cells, hydrocarbon combustion, or nuclear fuel rod consumption. They will provide clean
(pollution free), cheap electrical energy anywhere, anytime, everywhere, and every time with
no detrimental impact to the environment.
Permanent Magnets:
MEG operates in accordance with, very well known law in the electrical
engineering literature, an extension of Faraday’s law, indicating that an electrical current
is induced within a conductor within a changing magnetic field, even if the source of the
magnetic field is stationary. Harnessing the invisible force called Magnetism has already
changed the world. It has given us electricity, radio, television, computers, and thousands of other
things. But it’s greatest gift to mankind is yet to be realized. Magnetism can provide a source of
inexhaustible, pollution-free energy. In the last 120 years, dozens of inventors have reported
success in harnessing magnetism to produce excess mechanical energy, electricity, and heat. With
permanent magnets getting stronger and cheaper, all the time more and more researchers are
probing the unknown properties of magnetism The device under consideration, MEG, also, utilizes
thepermanent magnets to produce cop>1.0. Let us start our original discussion.
Construction and operation :
From the above, we can observe
that this device works on
the principle of
transformer rather than
on the principle of
generator. Not only in
the principle but in
construction also it
resembles with a
transformer. It consists
of a permanent magnet,
two magnetic paths
external to the
permanent magnet,
each of which extends
between the opposite poles of the permanent magnet, switching means for causing magnetic flux
to flow alternately along each of the two magnetic paths, one or more output coils in which current
is induced to flow by means of change in magnetic field within the device. See figure.1, for basic
setup of MEG. Fig.1, shows an electromagnetic generator including a permanent magnet, a
magnetic core, first and second input coils, first and second output coils, and a switching circuit.
The permanent magnet has magnetic poles at opposite ends. The magnetic core includes a first
magnetic path, around which the first input and output coils extend, and a second magnetic path,
around which the second input and output coils extend, between opposite ends of the permanent
magnet. The switching circuit drives electrical current alternately through the first and second input
coils. The electrical current driven through the first input coil causes the first input coil to produce a
magnetic field opposing a concentration of magnetic flux from the permanent magnet within the
first magnetic path. The electrical current driven through the second input coil causes the second
input coil to produce magnetic flux opposing a concentration of magnetic flux from the permanent
magnet within the second magnetic path. The essential function of the magnetic portion of an
electrical generator is simply to switch magnetic fields in accordance with precise timing. In most
conventional applications of magnetic generators, the voltage is switched across coils, creating
magnetic fields in the coils which are used to override the fields of permanent magnets, so that a
substantial amount of power must be furnished to the generator to power the switching means,
reducing the efficiency of the generator.
Detailed description :
Fig.3 is a partly schematic front elevation of an electromagnetic generator 10, built to include a
permanent magnet 12 to supply input lines of magnet flux moving from the north pole 14 of the
magnet 12 outward into magnetic flux path core material 16. The flux path core material 16 is
configured to form a right magnetic path 18 and a left magnetic 20, both of which extend externally
between the north pole 14 and the south pole 22 of the magnet 12. The electromagnetic generator
10 is driven by means of a switching and control circuit 24, which alternately drives electrical
current through a right input coil 26 and a left input coil 28. These input coils 26, 28 each extend
around a portion of core material 16, with the right input coil 26 surrounding a portion of the right
magnetic path 18 and with the left magnetic path 20.
A right output coil 29 also surrounds a portion of the right magnetic path 18, while a left
output coil 30 surrounds a portion of the left magnetic path 20. The switching and control circuit 24
and the input coils 26, 28 are arranged and so that, when the right input coil 26 is energized, a
north magnetic pole is present at its left end 31.