Robert Holcomb ! Energy System : HES utilizes electron spin
in the iron atom to produce usable electricity

[**rexresearch.com**](http://rexresearch.com/)[**rexresearch1.com**](http://rexresearch1.com/)


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**Robert HOLCOMB**  
**Energy Systems**



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[**https://holcombenergysystems.com/technology-breakthrough/**](https://holcombenergysystems.com/technology-breakthrough/)

**Holcomb Energy Systems**

  
The HES utilizes the
natural energy produced by the electron spin in the iron atom,
converting it into usable electricity. All of these technologies
are certified to UL and NEC (National Electric Code)
standards...  
  
**The HES In-Line
Power Generator**Capable of
magnifying true electric power from any source to multiple times
the power input. Previously, the voltage could be magnified or
transformed. But never before has a technology existed to
magnify true electric power by magnifying amperage. The ILPG has
unlimited applications, including magnifying the power output
from the grid and renewables, like wind and solar installations.
It can increase the usable true power for any use or any
facility including homes, apartments, factories, office
buildings a or any consumer of electric power, reducing oneas
power bill, and carbon footprint, by up to 80%  
  
**The HES Stand-Alone
Power Generation System**Operating
independently of any outside power source, the HES stand-alone
power generation system operates in a self-looping,
self-regenerating fashion, powering itself while simultaneously
powering any size electric load. This system is scalable
everywhere electricity is needed, including residential and
commercial applications, transportation, consumer electronics,
and along the power grid.  
  
**The HES Phase
Converter**Meets the worldwide
demand for clean, point of use three-phase electric power while
simultaneously magnifying power output. Three-phase electric
power availability continues to be a worldwide issue because of
the time, logistics, materials, and expense incurred by electric
power companies to expand three-phase power where only
single-phase and split-phase power exists. New transmission
lines must be installed in order to deliver three-phase power.
Three-phase electric power is needed to run most industrial
equipment. Existing phase converter technologies carry
significant drawbacks including poor power quality, limited size
availability, and unwanted line harmonic distortion. The HES
Phase Converter is a simple phase converter system that is
solid-state and tuneable without computers, rectifiers, or
inverters. In addition to using no fuel, this system is
inexpensive, reliable, and boosts power output by upwards of
500%.  
  
Watch here to learn the
actual fuel source powering the HES, and why it never, ever runs
out:  
  
[**https://www.youtube.com/watch?v=Nm1VJ65LcXM&embeds\_referring\_euri=https%3A%2F%2Fholcombenergysystems.com%2F&feature=emb\_imp\_woyt**](https://www.youtube.com/watch?v=Nm1VJ65LcXM&embeds_referring_euri=https%3A%2F%2Fholcombenergysystems.com%2F&feature=emb_imp_woyt)**Robert
Holcomb MD, Ph.D.**  
Dr. Robert Holcomb MD, Ph.D., is Co-Owner, Co-Founder, and
Co-Manager of Holcomb Scientific Research, an Irish-based
research, and development company setting a new industry
standard in electric power generation.  
With decades of
experience across the medical, scientific, and energy
industries, Dr. Holcomb is a pioneer in modern invention with
hundreds of patents across a range of industries from
breakthrough clean energy solutions to medical devices such as
MagnaBloc, which achieved approximately $1 billion in worldwide
sales. He has also patented numerous environmentally friendly
products, processes, and devices, including a CO2 converter that
captures CO2 in power plant emissions and in the atmosphere and
converts it back to its base elements, and a unique water
purification system.  
  


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**SOLID-STATE MULTI-POLE AND UNI-POLE ELECTRIC
GENERATOR ROTOR FOR AC/DC ELECTRIC GENERATORS**  
**JP2023179767**  
**[ [PDF](JP2023179767A.pdf) ]**

  

![](JP2023179767Holcomb.jpg)

  
To provide systems and
methods for a generator with reduced reverse torque.SOLUTION: A
solid-state electromagnetic rotor includes a plurality of
salient pole pieces arranged around a supporting structure,
where a first end of each salient pole piece is attached to the
supporting structure and a second end of each salient pole piece
points outward away from the supporting structure. Wires are
wound around each salient pole piece. When the wires of the
plurality of salient pole pieces are sequentially excited by an
excitation circuit. The salient pole pieces are energized to
provide a moving polar magnetic field in the form of distinct
magnetic poles as desired to accomplish power generation.  
  


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**A
UNIQUE METHOD OF HARNESSING ENERGY FROM THE MAGNETIC DOMAINS
FOUND IN FERROMAGNETIC AND PARAMAGNETIC MATERIALS**  
**US2022368180
(A1)**   
**[ [PDF](US2022368180A1.pdf) ]**

![](US2022368180Holcomb.jpg)  
  

The
present disclosure relates to a power generator and method
of generating AC or DC power, including the removal of
reverse torque and utilizing the electromagnetic coils of a
generator stator to harvest the inherent energy available in
the magnetic domains of ferromagnetic and paramagnetic
materials of pole pieces of a generator rotor. The method
comprises: determining an excitation cycle based on a target
frequency of the power generator; executing the excitation
cycle by providing a current to one or more wires of the
generator according to a predefined sequence to align
magnetic domains of the salient pole pieces of the generator
rotor to produce an evolving magnetic flux field; and
routing a resultant current, generated by the magnetic flux
field, to a power output. Systems and apparatuses disclosed
herein comprise means for carrying out the same.

  


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**TURBOFAN
JET ENGINE, POWERED BY AN ELECTRIC MOTOR WITH POWER FROM A
HIGH EFFICIENCY ELECTRIC GENERATOR**  
**US11418103**  
**[ [PDF](US11418103B2.pdf) ]**

![](US11418103Holcomb.jpg)

A power system for an
aircraft engine provides rotational drive to propeller driven
and turbofan jet engine powered aircraft by use of a propeller
or fan drive motor. Electrical power is provided to the drive
motor by a high efficiency electrical power generator with
reduced electromagnetic drag or reverse torque. The electric
generator utilizes a solid state rotor that does not rotate
which allows for power generation without reverse torque or the
usual energy required to rotate the rotor inside the stator of
the generator. Only the magnetic poles of the disclosed rotor
rotate to generate the power. The fan blades of the turbofan jet
engine are driven by the electric drive motor in which the rotor
is a part of the fan as well as the drive from the high pressure
turbine.  
  


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**DEVICES
AND METHODS OF MAGNIFYING POWER OUTPUT TO POWER INPUT**  
**WO2023118149**  
**[ [PDF](WO2023118149A1.pdf) ]**

![](WO2023118149Holcomb.jpg)

The present disclosure
relates to a solid-state electromagnetic generator assembly
comprising a stator and a rotor, wherein the stator and the
rotor each comprise a plurality of pole pieces integrally formed
from a supporting structure comprising electrical steel, wherein
a first end of each pole piece is attached to the supporting
structure and a second end of each pole piece points outward
away from the supporting structure, wherein the pole pieces
include ferromagnetic and/or paramagnetic materials.  
  


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**COMPACT
HIGH-EFFICIENCY, LOW-REVERSE TORQUE ELECTRIC POWER GENERATOR
DRIVEN BY A HIGH EFFICIENCY ELECTRIC DRIVE MOTOR**  
**US11196331**  
**[ [PDF](US11196331B2.pdf) ]**

  

![](US11196331Holcomb.jpg)

A generator with
reduced reverse torque which may be used as a singular, point of
use, compact electric generator that produces power with high
efficiency and very low reverse torque. The generator comprising
a stator having slots and stator coils and a series of slot
rotors placed in relation to the stator coils such that minimal
destructive interaction is caused between magnetic fields of
each rotor and induced magnetic fields of the stator when the
power generator is connected to an electric load with at least a
portion of that power being sent to a storage device where a
portion of the stored power is provided to excitation circuitry
utilized to re-excite a motor to drive the slot rotors.  
  


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**LOW
REVERSE TORQUE, HIGH EFFICIENCY ELECTRIC POWER GENERATORS
WITH UNI-POLE ROTORS**  
**US2020021176**  
**[ [PDF](US2020021176A1.pdf) ]**

![](US2020021176Holcomb.jpg)

A uni-pole rotor for an
electrical power generator includes two separate electromagnets
formed on rotor laminates and separated by a mu metal shield.
The laminates further include two separate winding wire slots on
either side of the mu metal shield which slots are wound with
magnet wire to serve as rotor coils of the two separate
electromagnets. The two separate electromagnets, when excited,
create magnetic fluxes of a first polarity and a second polarity
such that outer fluxes of the rotor are of the first polarity
and the inner fluxes of the rotor are of the second polarity.
The uni-pole rotor further includes electrical leads to the
rotor coils such that leads are used to excite in an alternating
fashion a positive and negative DC current in the rotor coils
which allows alternation of 360A deg north pole with 360A deg south pole
generation on the outer portion of the rotor laminates of the
rotor.  
  


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**HIGH
EFFICIENCY AC DC ELECTRIC MOTOR, ELECTRIC POWER GENERATING
SYSTEM WITH VARIABLE SPEED, VARIABLE POWER, GEOMETRIC
ISOLATION AND HIGH EFFICIENCY CONDUCTING ELEMENTS.**  
**WO2013171728**  
**[ [PDF](WO2013171728A2.pdf) ]**

  
A method and apparatus
for reducing electromagnetic drag in an electric machine may
include a laminated stator having wire slots disposed around the
inner periphery spaced into sectors separated by a pole iron
support structure. The slots contain induction windings. A
series of wound lateral pole irons may be arranged around the
inner periphery of the stator, the first ends of which extend
into the slots in the sectors. A support structure supports the
lateral pole irons by forming a circular opening concentric with
the inner periphery of the stator. A rotor may be inserted into
the circular opening of the lateral pole iron support structure
and supported at the stator lateral pole iron ends by a support
means. A plurality of rotor inserts may contain free- wheeling
permanent magnet inserts spaced along an outer periphery of the
rotor. The rotor may be inserted into the circular opening of
the lateral pole iron support structure and the free- wheeling
permanent magnet inserts may be inserted into cavities along the
outer periphery of the rotor.  
  


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**DECREASED
DRAG HIGH EFFICIENCY ELECTRIC GENERATOR**  
**CA2749360  
[ [PDF](CA2749360A1.pdf)
]**

  
A method, device and
system is disclosed for decreased drag high efficiency electric
generator by converting the vast majority of kinetic energy
input into the electric generator, through the drive shaft, into
usable electric power output by separating the destructive
interactive forces between the stator magnetic poles and the
rotor magnetic poles which allows, at full load, the release of
approximately 80% additional electric energy, which in a
conventional generator is dissipated by these interactions
thereby reducing its potential efficiency by approximately 80%.
More specifically, the classic armature and stator of
conventional electric generators has been replaced by a stator
having wire slots on the outer circumference of the stator
exposing an induction coil winding of the stator. The rotor has
a plurality of rotor members arranged in close proximity to the
plurality of slots of the stator, where each rotor member has an
armature mechanism forming magnetic poles that are activated and
have magnetic polarities that are rotated relative to the
plurality of slots, and the rotor coupled to a driver shaft for
rotating and for generating an electric current. Shielding is
provided to decrease drag and improve efficiency.  
  


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**SOLID-STATE,
COMPACT, HIGH-EFFICIENCY, ELECTRIC POWER GENERATOR BATTERY
ALTERNATIVE**  
**WO2018134233**  
**[ [PDF](WO2018134233A2.pdf) ]**

  
Systems and methods for
generation of direct current (DC) with reduced electromagnetic
drag, commonly referred to as reverse torque, thereby improving
the operating efficiency of a generator that can be used as a
battery replacement for, for example, electronic devices such as
a smartphone.  
  


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**HIGH
EFFICIENCY AC DC ELECTRIC MOTOR, ELECTRIC POWER GENERATING
SYSTEM WITH VARIABLE SPEED, VARIABLE POWER, GEOMETRIC
ISOLATION AND HIGH EFFICIENCY CONDUCTING ELEMENTS**  
**US10008916**  
**[ [PDF](US10008916B2.pdf) ]**

  
A method and apparatus
for reducing electromagnetic drag in an electric machine may
include a laminated stator having wire slots disposed around the
inner periphery spaced into sectors separated by a pole iron
support structure. The slots contain induction windings. A
series of wound lateral pole irons may be arranged around the
inner periphery of the stator, the first ends of which extend
into the slots in the sectors. A support structure supports the
lateral pole irons by forming a circular opening concentric with
the inner periphery of the stator, A rotor may be inserted into
the circular opening of the lateral pole iron support structure
and supported at the stator lateral pole iron ends by a support
means. A plurality of rotor inserts may contain free-wheeling
permanent magnet inserts spaced along an outer periphery of the
rotor. The rotor may be inserted into the circular opening of
the lateral pole iron support structure and the free-wheeling
permanent magnet inserts may be inserted into cavities along the
outer periphery of the rotor.  
  


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**HIGH
EFFICIENCY ELECTRIC GENERATOR WITH ELECTRIC MOTOR FORCES**  
**WO2013090539**  
**[ [PDF](WO2013090539A1.pdf) ]**

  
A method and apparatus
are disclosed for reducing rotor drag in an electric generator.
A first and second stator section are aligned along a lengthwise
axis and have aligned longitudinal slots. The slots have a
longitudinal opening for accommodating induction windings. First
rotors of slot rotor pairs can be distributed along the outer
periphery of a first stator section having Induction windings,
and can be aligned longitudinally with the lengthwise axis.
Second rotors of the slot rotor pairs can be distributed along
the outer periphery of the second stator section having
induction windings. The first rotors and the second rotors can
have least one pair of pole sections of a first and a second
magnetic polarity for generating AC current.  
  


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**Stand-alone
electric power generation unit**  
**US2012205980**  
**[ [PDF](US2012205980A1.pdf) ]**

![](US2012205980Holcomb.jpg)

 A method and apparatus
for sustained power self-generation using a reduced drag high
efficiency (HE) electric machine are disclosed. Electric power
supply having a power level is produced from an electrical
generation unit including an HE electric machine and a
non-fossil fuel unit such as a hydrogen unit, a hydro unit, a
battery, a power grid and so on. Portions of the electric power
supply are diverted to the electrical generation unit, another
electrical generation unit including an HE electric machine and
a non-fossil fuel unit, and a power distribution grid. The HE
machines includes a conversion efficiency factor rating of
greater than 1 hp of input power to 746 watts of output power.  
  


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**BRUSHLESS
DIRECT CURRENT (DC) ELECTRIC GENERATOR WITH DECREASED
ELECTROMAGNETIC DRAG**  
**US2012206003**  
**[ [PDF](US2012206003A1.pdf) ]  
  
![](US2012206003Holcomb.jpg)**

 A method and
apparatus for reducing drag in an electric generator are
disclosed. Armature insert members are distributed along a
periphery of a stator insert fit into a stator having induction
windings arranged in slots. The armature insert members include
permanent magnet rotors having a pair of pole sections with same
magnetic polarity. The alignment of the armature insert members
is offset in 45 degree increments. The armature insert members
are rotated together in a synchronized manner such that the pole
sections are sequentially rotated into alignment with the slots
providing a moving excitation field. The stator insert and the
stator are divided into sectors from a common center point.
Armature insert members having a first magnetic polarity are
inserted into positions around the outer periphery of the stator
insert corresponding to first sectors and armature insert
members having a second magnetic polarity are inserted into
positions around the outer periphery of the stator insert
corresponding to second ones of the N sectors, the first ones
and the second ones of the N sectors arranged in alternating
relation.  
  


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**HIGH
EFFICIENCY ELECTRIC MOTOR AND POWER COGENERATION UNIT**  
**US2012206002**  
**[ [PDF](US2012206002A1.pdf) ]**

![](US2012206002Holcomb.jpg)

A method and
apparatus for reducing drag in an electric motor-power
cogenerator is provided. Wound pole irons are formed around a
stator having slots containing induction windings. Ends of the
pole irons extend into or near the slots and are supported by a
support structure that forms an opening. Other ends extend
towards the opening. Stator inserts containing free-wheeling
permanent magnet inserts are distributed around a rotor inserted
into the support structure opening. The permanent magnet inserts
are inserted into cavities along the periphery of the rotor and
include a pair of pole sections with a first magnetic polarity
and a second magnetic polarity. The windings of the pole irons
are sequentially energized to provide a moving field and a
torque to rotate the rotor. The permanent magnet inserts freely
rotate into alignment with ends of the pole irons to increase a
flux density and reduce drag.  
  


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**SOLID
STATE ROTARY FIELD ELECTRIC POWER COGENERATION UNIT**  
**US2012007708**  
**[ [PDF](US2012007708A1.pdf) ]  
![](US2012007708Holcomb.jpg)**

  
A solid state rotary
filed electric power cogeneration unit and method is disclosed
for converting a portion of the flowing current (electrons) in
the neutral leads of any alternating electric power system into
usable electric power (energy) without negatively changing the
power status of the primary or power side of the system and
simultaneously effecting more efficient functioning of the
neutral and/or ground neutral portion of the system by lowering
the impedance.  
  


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**Decreased
drag electric machine with dual stator and distributed high
flux density slot rotor pairs**  
**TW201115880**  
**[ [PDF](TW201115880A.pdf) ]**

![](TW201115880Holcomb.jpg)  

A
method and apparatus for reducing drag in an electric
generator are disclosed. Members of slot rotor pairs are
distributed along the inner and outer periphery of sections
of a stator having slots to accommodate induction windings.
The members of the slot rotor pairs include slot rotors
having at least one pair of pole sections of a first and a
second magnetic polarity. The members of the slot rotor
pairs are rotated in a synchronized manner such that a first
one of the pole sections of the first member with a first
magnetic polarity and a second one of the pole sections of
the second member having a second magnetic polarity are
aligned with the sides to provide maximum flux density in
the induction windings to induce a current flow. The inner
peripheries of the first and second stator sections are
adjacent to each other. The slots of the stator sections are
axially aligned. The first member and the second member of
the respective slot rotor pairs are aligned with the aligned
slots.

  


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**APPARATUS
AND PROCESS FOR GENERATING ELECTRIC POWER BY UTILIZING HIGH
FREQUENCY VOLTAGE OSCILLATING CURRENT AS A CARRIER FOR HIGH
EMF DC IN AN ARMATURE BOARD**  
**US2005087989**  
**[ [PDF](US2005087989A1.pdf) ]**

![](US2005087989Holcomb.jpg)

A system for generating
electric power by utilizing high frequency high voltage
oscillating current as a carrier for high EMF DC in an armature
board wherein a large elliptical conductor coil, which is wound
concurrent with and parallel to 2 exciter coils, which are wound
in opposite directions to each other. The coils are placed on or
in support means in close proximity over rows of a North pole
face charged magnetic bodies in the superior portion of the
coils and "S" South poles aligned underneath the inferior
portion of the coils so that the current is generated by
exciting the exciter coil through slip ring connections in which
half of the ring closes the circuit and half of the ring opens
the circuit.  
  


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