Oleg V. Gritskevich (Gritskevitch): Hydro-Magnetic Dynamo --
A patented, prototyped over-unity electrical generator

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**Oleg GRITSKEVITCH** **[ Gritskevich ]**

**Hydro-Magnetic Generator**

---

***New Energy Technology* (September-October 2001), p.
100-104**

**Gritskevitchs Hydro-Magnetic Dynamo**

**by** **Oleg V. Gritskevitch**

Russia, 69002, Vladivostok   
Okeansky Prospect, 99  ap. 112   
Phone/Fax: (7-4232) 424-674   
Email: ogri@mail.primorye.ru   
Russian Academy of Energy & Information   
Russian Academy of Natural Sciences

[ *Editorial*: The article presents construction and
operation of Oleg V. Gritskevitchs hydro-magnetic dynamo, which
is an example of a vary powerful new energy system. The
prototype in Armenia has produced over 1500 KW power during
several years.

The author was born on 14 August 1936 and grew up in
Vladivostok, Russia He is married and has a son Boris.
Gritskevitch is a physicist by education. He worked in the
Far-East branch of the USSR Academy of Sciences. He ahs more
than 70 patents on inventions ranging from household engineering
up to high technologies, which he has been trying to apply in
our country and met big difficulties. After numerous attempts to
receive the patents the author was convinced that the outflow of
the information occurred. Therefore he has received the state
certificates as on know-how (on a French way of patenting) for
all his inventions. -- A. Frolov ]

**Introduction**

During the Institute for New Energy 1999 Symposium, I lectured
on my hydro-magnetic dynamo. This paper is my attempt to explain
the construction and operation of my dynamo.

To fool investigators of my secrets, I have an occasion to
provide misleading information. For example, the drawing
accompanying the Russian patent referenced below shows a
cylinder across the toroid to fool readers. He real dynamo only
has the toroid without the cylinder. Even its name
hydro-magnetic dynamo is somewhat deliberately misleading.

I have some familiarity with the new energy field. Nearly all
purported new energy devices are fairly small electrical
generators. The dynamo may be the only new electrical generator
which most nearly meets all the requirements of an ideal
large-scaled electrical generator. My dynamo really is the
single most valuable invention the world has ever known.

Alexander V. Frolov of St Petersburg recommended me to contact
with Dr Patrick Bailey, Institute for New Energy since Pat has
lots of contacts who could possibly help me with patenting my
invention of a new source of energy in USA.

I conducted the work on the theory and creation of the
electrostatic generator-converter hydro-magnetic dynamo about
20 years (See dynamo history below). He first primitive
equipment was created when I worked in Academy of Sciences.
During that time various changes were introduced in the
generator and in the theory of its work. It is now possible to
manufacture, install, and apply it in industry.

For the first time I made the public report on this work in
1991 on a symposium in Volgodonsk city. The report received the
positive replies and reviews of the experts of a nuclear
industry in USSR. The same year I was accepted in international
Nuclear Society. In these years I offered development of this
technology to different state bodies and private enterprises.
But there was the only answer: It is very interesting and
perspective project, but there is no money for it.

At the end of 8 years I tried to transfer this technology in US
through the embassy in Moscow. The former ambassador of USR the
Dr J. Matlock knows about it. He wanted to meet me, but in that
time there were forces which have not given to carry out my
plans. Thus I came to the conclusion to look out other possible
investors. I am ready to consider any offers on cooperation:
joint patenting, sale of know-how, creation of joint venture,
etc. I have 70 Russian patents including the following:

Engine for marine courts and torpedoes without any mechanics;   
Reactors-converters of chemical elements;   
Rocket-torpedo without any mechanics;   
Weapon systems without firing pin;   
Metal powders made electrodes;   
Oil separation method. Separation of any fraction (liquid,
rigid);   
Electrostatic disintegrator;   
Rigid elements based plasmatron. New Heat sources;   
Steam boiler based on Runk effect;   
Refrigerators based on electrohydraulic effect;   
Springless shock absorber;   
Energy roof for apartment houses; and other patents.

**Dynamo History**

The beginning for this project came as a conclusion from one
popular Russian magazine article (Tehnika Molodiozhi; Youth;s
Technique, 1972, #8, August) by A. Kaldamasov, entitled
Spheroidal Lightning in a Liquid. This article came to the
attention of Michail Razovsky and me in 1974. My group of
volunteers and enthusiasts was looking for a new source of
energy. This article serves as a start-up point for the
understanding of chemical-physical processes occurring in water.
In 1976-78, in the Vladivostok city hospital, in the
radiological lab, me and others (Vladilen Bulgakov, radiology
physician, and Michail Razovsky, theoretician in plasma physics
field) spent one year assembling a device, which was supposed to
separate water into oxygen and hydrogen more efficiently. During
the experiments, instead of the expected results, it produced
electricity very efficiently! The input power during the
experiment was 800 watt water pump. The output was 1400 watts.
This device was assembled using plastic pipes connected with
hoses, where the water was circulating in a loop. Further this
led to the idea of creating the second device as
generator-toroid.

The second generator was assembled in the workshop of the Ocean
Research Institute in Vladivostok, and it was transported in the
summer of 1990 to the testing station of the Ministry of
Electronics Industry in Vladivostok. This lab was well-equipped
with all necessary sets of instruments. At the same time patents
were filed in the USSR State Committee of Inventions. In the
spring of 1991 the State Commission, led by Yurii Lebedev, the
Russian Federation Council of Ministers arrived in Vladivostok.
This commission arrived for two reasons: To recommend a
financial request for manufacturing the dynamo, and to classify
this energy source as a Discovery (Document #14-451).

After the next change in Russian government the financing for
the project was terminated. The first article on the dynamo was
published in the Russian magazine Tehnika Molodyozhi #3 (March
1990), page 17, entitled Innovators Ideas.

Several Armenian physicists, after reading the article, sent me
a letter requesting to meet with me in Vladivostok for
negotiations about the dynamo. The arrived in March 1991 and
made observations of the second generator., which was in working
condition at that time. I flew to Armenia, and the work on the
third generator started at the end of 1991. It was completed at
the end of 1992. It was working and was producing energy until
January 1997, when it was destroyed during the war. Some people
were also killed and other people further moved to the USA. This
version of the dynamo created an output averaging 6,800 amperes
at 220 volts DC. Its input power was only approximately 1% of
the output power.

Then I was an invited speaker of the Meeting of the Alternative
Energy Institute (Dr Hal Fox) in Salt Lake City, August 1999. I
want to note that the official announcement about my speech had
several mistakes (for example, the name of Armenia was changed
to Romania).

**Dynamo Theory**

My hydro-magnetic dynamo is a large-scaled emission-free
electrical generator, which does not require external fueling.
The dynamo is capable to power larger transportation vehicles
such as buses, trucks, ships, locomotives, and airplanes. Doubt
remains about making dynamos compact enough to power
automobiles.

While three experimental prototypes have been built with
Russian and Armenian expertise and equipment, a fourth
demonstration prototype needs to be built with more modern
Western engineering expertise and equipment to verify dynamo
performance claims and to further explore the dynamos potential
capabilities. Performance claims are as follows: Dynamos are
scaleable fro 100 kilowatts to 1,000 megawatts. One
1000-megawatt dynamo is about the size of a two-car garage. For
comparison, Hoover Dams 17 generators have a total capacity of
2,000 megawatts. A dynamo can run continuously for about 25
years or more with little or no maintenance, no external fuel
source, and no pollution. If a dynamos output is 1 megawatt,
its total input power is approximately 10 kilowatts; therefore
the dynamos energy efficiency is about 10,000/

The source of the dynamos huge electrical output is a nuclear
reaction, which is not generally known to mainstream science.
However, it is known that the dynamo produces alpha particles,
which are helium nuclei, made from fused deuterium, an isotope
of hydrogen with one proton and one neutron. The electrons
missing from the helium nuclei are what seem to provide a
copious sink of electricity, and which happens to be the
secret to the dynamos ability to generate an exceptionally
large amount of electricity. It is also known that the dynamo
uses high-density charge clusters. High-density charge clusters
are thought by some theorists to be the basis of plasma-injected
transmutation of elements and also neutralization of radioactive
materials. Unlike hot fusion and fission reactors, the dynamo
does not accumulate any radioactive component.

The result of the dynamos processes is conversion of
electrostatic fields to direct current. I should note, that the
clear understanding of the terms like Coulombs conversion and
also liquid Van de Graaf generator is very important.

Schematically, the dynamo is an electrostatic transformer, or
in other words an electrostatic voltage multiplier. One version
of the dynamo is designed, which uses laser for a starter. There
were three dynamo prototypes built. The first two small
experimental prototypes were built in Vladivostok. The third and
last prototype continuously generated electricity, except when
turned off to incorporate improvements, from 1992 to January
1997 in Armenia.

It was mentioned above that the Armenian prototype generated a
direct current of 6,800 amperes at 220 volts, that is, about 1.5
megawatts. Minimum power output has bee 500,000 watts, and
maximum power output has been 2.5 megawatts during winter
experiments due to better cooling. The Armenian prototype
dynamos toroid weighed 900 kilograms and had a diameter of
approximately 2 meters. Cooling water is circulated through
copper pipes wrapped around the toroid. The heat is expelled
from the cooling water with a heat exchanger. The working
temperature was typically 36 degrees.

After a dynamo is assembled, the water is literally
jump-started (by discharging a large bank of capacitors) to
moving around the toroid. The start impulse pressure is as high
as 400 atmospheres. The dynamos controls are temporarily set to
generating enough of a modest amount of electricity to sustain
itself, possible even while being transported from the factory
to its place of future operation. The control circuits are
simple as only sensors and a control computer are used. We do
not need any technical maintenance personnel.

For the Armenian prototype dynamo, two 10-Farad capacitor
batteries were used to provide the initial water motion
(acceleration and excitation of water). The capacitors were 20
kilograms each, with diameters of 50 cm, and were supplied from
Russian military radar stations. Using a total of 20,000 Joules,
100,000 Volts with 0.05 Amperes of current were applied to the
Armenian dynamo for 3-5 minutes to ionize and polarize the
water, which then started the generation of electricity.

The reason for the very high voltage provided by the large
Russian radar capacitors, when starting the generator, appears
to be to polarize the crystals of barium titanate. One
comparison is with the electronic ignition on a gas stove. Once
the barium titanate crystals are polarized, the generator is
running.

After these capacitors had been used to jump-start the dynamo,
a battery of buffer batteries sustained continuous operation
when water motion and ionizing began. This battery bank
contained 8 powerful 12-volt, 150-ampere lead batteries. The
dynamos sustaining input power was 14,400 watts. The nominal
maximum output power was about 1.5 megawatts. Once, the output
current was accidentally increased to 40,000 amperes for almost
a minute. Fortunately, the power was reduced to a safe level
before the water started to boil. Internal coils (windings)
provide the control of water velocity and therefore control
dynamo power. The faster the water is moving, the more
electricity the dynamo generates. Once the water stops
circulating around the toroid, the dynamo must be jump-started
again to a minimum power level before it can sustain its
electricity generation with its own output power.

The following is a condensed summary, with some editing and
additional commentary, of the description of the dynamos
Russian patent IPC H 02 K 44/00, Method of Deriving Electrical
Energy and Realization of Gritskevichs MHD-Generator.

The dynamo is a sealed polystyrene toroid filled with
ultra-pure distilled water with heavy water (deuterium oxide)
added. Movement of water inside the closed loop and use of
unique properties of water as a polar liquid cause a release of
electrical energy as an outcome of a rupture of hydrogen
connections. Additional electrical energy is drawn from nuclear
reactions and micro-cavity processes. The liquid is ionized,
polarized, and moving around the toroid at start-up time by a
running field with the help of stimulating electromagnetic
windings.

Electrostatic generator-transformer Hydro-Magnetic Dynamo
(GT-HMD) works due to the process of amplification and
maintenance of stationary (oscillating in particular)
electromagnetic field by hydrodynamic movements of the
conductive medium. The stator (i.e., the toroid) is made of
materials with a high dielectric permittivity. Liquid rotor is a
recombined water (pure water with high molecular compounds)
which moves due to the high-voltage discharges and running
electromagnetic field.

The main processes in GT-HMD are:

A principle of Van de Graafs electrostatic generator, where
the solid insulating tape was changed to the liquid one;

A perpetual washout of the surface electrons from the spacer
layer takes place;

A single-turn low-frequency generator works as a coaxial turn
with 4 resonance points and energy carrying substance inside it
that has very high resonance properties;

The electrostatic breakdowns of cavitation-vacuum structures in
water take place.

The polar liquid (pure water) consists of dipoles only, i.e.,
strictly oriented charged molecules. During the interaction of
ionized pure water with the layer of BaTiO3 the electrostatic
field of above 10 million volts/cm is formed. During this
process the breakdown of physical vacuum takes place.

Electrostatic field coupled with action of Barium Titanate
layer (if we apply electrical field to Barium Titanate, then
this layer creates to sound vibrations of about 25 KHz,; this
vibration helps to destroy the molecules of water) facilitate
the further destruction of molecular-atomic structures of water.
And due to the perpetual electrostatic discharges the breakdowns
in cavitation-vacuum structures occurs and the reaction of cold
nuclear fusion proceeds. With this fusion the energy of 500
kJ/mole is liberated in vacuum and the energy of 6 kJ.mole is
liberated in water. Thus, new hydrogen binding form in vacuum
with the energy liberation of about 20 kJ/mole. Due to this
process the acceleration of ionization of polar liquid takes
place. In addition the constant washing out of the incomplete
electron bindings from the layer of Barium Titanate occur, i.e.,
free electrons form. Due to this process the polar liquid
transforms to the ordered flow of electrons and negative ions,
which can be called very simply an ionic-electric current.

Works on creation of the experimental generator were begun in
September 1991 in Armenia and came to an end in March 1992. The
active working weight of the prototype of the dynamo (torus +
water) was about 900 kg. The diameter of the torus was about 2
meters. Torus was made of the impact-resistant optic polysterol.
This torus consisted of two halves, which were turned on the
merry-go-round machine.

The mono-crystalline barium titanate was sprayed on the
internal surface of the torus; its dielectric permitivity was
6000. The thickness of the layer was about 1 micron. The water
was purified to the specific resistance of 18,000,000 Ohm/cm.

[Editors Note: --- Let us remind the reader that distilled
water is a good dielectric with permitivity of about 81. Usually
water is not a dielectric.]   
As we mentioned above, to start the dynamo, 2 condenser jars of
10 Farads each were used. The energy of a starting battery
constituted 20,000 Joules, the voltage was 100,000 Volts, and
the current was 0.05 Amperes to provide the initial movement of
water (acceleration and disturbance).

[ Editors Note: --- Such a small current can be explained by
the good electrical properties of water. Thus, it provides a
high effectiveness to the system.]

The electrodes were made of metal tubes with diameter of about
5 mm. The dynamo ignites by these electrodes. 32 Electrodes
were installed uniformly along the torus of the generator.

The cooling system of the body of generator was a closed
circuit with circulatory purified water. Copper tubes were used
in this system, which were covered with glass insulation. They
also were the leads of load winding. The temperature of the
toroid was maintained not higher than 50 C.

An average output power with the load was 220 volts x 6800
ampere = 1490 KW. The current was direct. Periodically the power
increased up to 2.5 MW, when sufficient cooling of the generator
was provided.

The additional power was received from four resonance windings.
This alternating current after the rectifier was used to charge
the back-up battery. Thus, the total output power constituted
more than 1.5 MW.

The low-frequency voltage was obtained from the load windings
and the DC was obtained from the stabilization chamber.

Lets note that the high-voltage discharges of 32 electrodes
ionize the partially pre-ionized water further. By means of the
stimulation windings, a running magnetic field is created which
moves the water in one direction inside the toroid. An
electromotive force is created by the electromagnetic induction
in a separate set of windings.

As we already mentioned, during the movement of the water
stream, free electrons are created, and an additional energy
gets emitted because of the waters friction (viscosity) against
the layer coated on the inside surface of the toroid, because of
electrostatic breakdowns of cavity-vacuum structures, and
because of the ongoing nuclear reaction.

In addition to the barium titanate deposited on the
Teflon-coated inner surface of the polystyrene toroid. The water
itself also contains tiny barium titanate crystals in
suspension. Ultrasound at 15 KHz is propagated through the water
to form micro-bubbles on the surfaces of the suspended barium
titanate crystals. Again due to the barium titanates
piezoelectric action, very high electrostatic fields also are
developed within the micro-bubbles at the surface of the
crystals. The electrons from the nuclear reaction are added to
the electrons generated at the toroids inner surface. The total
amount of crystalline barium titanate in the Armenian dynamo was
nearly 1000 grams.

**[Patent WO 0115305A1](wo0115305.pdf)**
(in Russian; PDF format)

![](toroid.jpg)

![](fig1.jpg)

**Dynamo Economics**

The dynamos production cost is estimated at $500 per kilowatt
which is competitive to nuclear powers capital cost of
$5000/KW, windmill capital costs of $4000/KW, etc. A well-run
nuclear power plant can generate power for 1.5 cents/KH-hour.
Coal at 1.8 cents, natural gas at 3.4 cents, and oil at 4.1
cents, on the average. The dynamos operating costs would be
approximately 0.1 cent/KW-hour with no external fuel needed and
without pollution.

Dynamos could replace all nuclear power plants, solar
installations, wood-burning furnaces, hydroelectric dams,
windmills, fossil-fueled power plants, etc. Satellites,
locomotives, heavy trucks, airplanes, and ships are obvious
transportation applications.

A recent IEEE Spectrum article stated that the world demands
for electricity increases approximately 500 MW every day. To put
this in perspective, the equivalent of another Hoover Dam would
have to be built every four days to keep up with world
electricity increased demand. Or, a dynamo manufacturing company
would have to build another 500 MW dynamo every single day to
keep up with world electricity increased demand in addition to
replacing all existing generators fueled by hydro, nuclear, and
fossil fuels.

---



**US Patent Application # 2004168716 (A1)**

**METHOD FOR TRANSFORMING ENERGY AND VORTEX TUBE FOR
CARRYING OUT SAID METHOD**

**Oleg V. GRITSKEVICH, et al.**

**Applicant:** SINTOS SYSTEMS OU (EE)   
**Classification:** - international: H02N3/00; F24J3/00;
F25B9/04; H02K44/08; H02N3/00; F24J3/00; F25B9/02; H02K44/00;
(IPC1-7): F25B;- european: F24J3/00B; F25B9/04; H02K44/08B; US
Cl. 136/205   
Application number: NO20030003712 20030820   
Priority number(s): RU20010105128 20010221; WO2001RU00503
20011122   
Also published as:  EP1396690 (A1) // WO02066909 (A1) //
CN1491338 (A) //  CA2437493 (A1) // NO20033712

**Abstract ---** The invention relates to the
electric-power industry and can be used for producing both
thermal and electric energy and for measuring the liquid or gas
flow temperature. The aim of the invention is to increase the
performance of the vortex tube based on Ranke's effect and to
extend the functional capabilities thereof for producing
electric energy. The inventive methods for transforming energy
of a running liquid or gas flow inside the vortex tube using
Ranke's effect are carried out by an additional heating of
liquid or gas in the hot part of the vortex tube and/or
additional production of electric energy taken from windings
(10) mounted on the vortex tube-case (1), the said case being
made of a dielectric material. The inventive vortex tube for
carrying out the said method comprises a tube-case (1) provided
with a cyclone (3) at the end side thereof. Though, the said
case is not grounded and is made of an electrically
non-conductive material with electro-static properties.

**Correspondence**: Andrey Ermolinsky --- PO Box 35 94,
Vladivostok 690035 RU   
    
***Description***

**TECHNICAL FIELD**

[0001] This invention relates to the electric-power industry
and can be used for the production of both thermal and electric
energy as well as for the alterations of temperature inside the
liquid or gas flows.

**BACKGROUND ART**

[0002] A French engineer J. Ranke's usage of a vortex tube for
the transformation and extraction of energy is widely known.
First, the vortex tube was used to divide a gas flow into the
hot and the cold streams. A classic Ranke's vortex tube [1; 2,
page 108] contains a cylindrical tube with on one end a cyclone,
which is connected to one of the edge sides of the case, having
a diaphragm on the other edge side (cold part), and a breaking
device, which is a regulating cone inside the cone at the end,
opposite to the cyclone (hot part). Compressed gas is fed
tangently through the cyclone to the tube where it is divided
inside the vortex flow into the cold (central) and the hot
(peripheral) components. A cold gas flow leaves the tube through
the diaphragm, and a hot part of the flow gets out through a
ring-gap between the inner surface of the tube and a regulating
cone.

[0003] Later on, the works on increasing the Ranke's vortex
tube effectiveness were aimed at the optimization of the
constructive elements parameters; for example, through the use
of a coned case [3], through optimization of dimensions
correlations [4], through bringing into the flow part the
elements, which organize and preserve the laminar and turbulent
flow mode [5], through the correlation between the elements--for
instance by connecting the hot flow to the cold outflow [6].

[0004] The usage of the Ranke's gas vortex tubes known
constructions is not effective enough, particularly because the
movement energy of the loaded particles, which occur during the
vortex flow movement process, and peculiarities of the
correlations between the thermo-dynamic parameters of different
flow cuts are not used.

[0005] Much later a liquid splitting was carried out into
Ranke's vortex tube (water in particular), yet it has been
divided not into the cold and the hot streams, but into the cold
and the warm flows [2, page 171]. The simplest vortex tube used
for such a splitting in order to heat the water, contains a
tube-case with a cyclone on one end connected to the case on the
edge side [7]. The effectiveness of water heating in such a
tube--when calculated on the base of the classic thermo-dynamic
laws--exceeded 100%. The placement of a straightening break
inside the tube--particularly the radial ribs--resulted in the
effectiveness increase of 150-200%. Besides, the occurrence of
additional energy (which was proved in practice) was explained
by the cold nuclear synthesis reaction (occurring, for instance,
as a result of cavitations), by the vortex movement radiation,
in other words by the transformation of the waters inner energy
(intermolecular correlative energy as well as the energy of the
inter-, inner and external-nuclear correlations) into the
heating [2, page 193]. Yet the movement energy of the loaded
particles, which occurs as a result of the abovementioned
reactions, was not used in the applications of the known Ranke's
vortex tube. Besides, the particularities of the thermo-dynamic
parameters correlation in different flow-sections were not used
sufficiently though the effectiveness increase of the vortex
tube function by the increase of the outflow waters temperature
up to more than 60.degree. C. [2, page 166] (external heating)
has been notified.

**DISCLOSURE OF THE INVENTION**

[0006] The disclosed technical task is to increase the
effectiveness of the vortex tube operation using the Ranke's
effect as well as to enlarge its functional possibilities--to
produce the electric energy with it.

[0007] The first method of transforming energy from the running
liquid or gas flow inside the vortex tube based on Ranke's
effect is achieved through the additional heating of liquid or
gas in the hot part of the vortex tube; thereby the effect of
such a heating is somewhat higher than the heating of the
initial liquid or gas.

[0008] It is recommendable to conduct some additional heating
by means of electrical ignition impulses-discharges, for example
inside the gap between the breaking device and the inner surface
of the vortex tubes hot part, thus inside the hot flow. Heating
the breaking device itself is also possible.

[0009] The second method allows some additional electric energy
taking, which is obtained from the electromagnetic windings
mounted on the vortex tube-case made of dielectric material. It
is recommendable to isolate the vortex tube-case from the
ground. The laser--preferably the UV-diapason one--might
irradiate the liquid or gas flows. It is recommendable to send
the laser beam along the vortex tube axe from the cold part to
the hot one.

[0010] The best result is achieved by mixing both methods:
additional heating is done by means of electric power generated
by the case windings.

[0011] Vortex tube used for this method contains a tube-case
with a cyclone on the end connected to the case with one edge
side; hereby the case is not grounded and is made from
electrically non-conductive material with electro-static
features.

[0012] A tube-case can be made as a rotational paraboloid with
its cross-section, which becomes bigger away from the cyclone
connection side. It is recommendable to position the tube-case
vertically while the cyclone connection side is mounted
downwards. It is recommendable to use the tube-case material
which has a bigger co-efficient of dielectric penetration than a
liquid or a gas the vortex tube is used for.

[0013] Another cyclones edge side might have a diaphragm with
its axe direction coinciding the tube-case and its diameters
opening smaller than the inner diameter of the tube-case.
Optical quantum generator might be additionally mounted on the
cyclone side of the tube-case external edge; the axe of its beam
spreading coinciding the tube-case axe. It is recommendable to
use a UV-diapason optical quantum generator. It is recommendable
to use a material, which possesses the ability to reflect the
beams generated by the optical quantum generator at least for
the tube-cases inner surface or a part of it. The inner surface
of the tube-case or a part of it might have a coating which has
a bigger dielectric penetration co-efficient than a running
liquid or gas which the vortex tube is used for; hereby it is
recommendable to use a coating made of segneto-electric
material.

[0014] At least one inner tube with the open edges made of
dielectric material with a dielectric penetration co-efficient
bigger than this of liquid or gas the vortex tube is used for,
can be placed with a gap coaxially free inside the tube-case;
hereby the inner tube length should be less than the tube-case
length.

[0015] The inner tube can be made of dielectric material with
magnetic features, yet hereby the magnetic power direction
coincides the tube axe itself

[0016] Breaking device can be mounted inside the tube-case on
the end opposite to the cyclone; it can be, for example, a
gap-mounted regulating cone, particularly hole and/or with a
concaved surface, with an axe correlating with the case and its
peak towards the cyclone.

[0017] It is recommendable to have the electromagnetic winding
mounted on the case. Breaking device can be provided with a
heater, preferable an electric one.

[0018] Besides, it is recommendable to construct a heater,
which consists of at least one pair of electrodes, one of which
is mounted on the breaking device, and another--oppositely on
the tube-case. It is possible to place several pairs of
electrodes with their working parts placed inside the gap
between the breaking device (regulating cone) and the tube-case
inner surface. It is recommendable to have the electric heater
electrically connected to the electromagnetic winding.

[0019] The heater might be also non-electric, thus containing a
burner for burning the liquid or gas fuel; thereby the burner's
nozzle is directed inside the breaking device cone cavity.

**BRIEF DESCRIPTION OF THE FIGURES ON THE DRAWINGS**

[0020] The invention is illustrated by the drawings of a
thermo-electric water generator. FIG. 1 shows the general
outlook of a cylindrical thermo-electric generator (water-flow
direction is shown with the arrows), FIG. 2 shows the
cross-section of its middle part. FIG. 3 shows the general
outlook of a coned thermoelectric generator.

![](usfig1.jpg)![](usfig2.jpg)![](usfig3.jpg)

**THE EXAMPLE FOR CARRYING OUT THE INVENTION**

[0021] The invention is explained on the examples of the
thermo-electric water generator based on the Gritskevich's
Vortex Tube.

[0022] A cylindrical thermoelectric generator, which is placed
vertically as it is shown on FIG. 1, contains a tube-case 1 with
a cold part, which is switching a snail-formed cyclone 2 with an
injector nozzle 3 and a diaphragm with an opening 4. A hot part
contains an outlet nozzle 5, a regulating cone 6 with an
axe-regulating device 7 and a pair of electrodes 8, which are
evenly spread along the circumference of a gap between the case
1 and the cone 6. A case 1 is coated inside with a thin layer of
Titanate Barium (TiBa) and is provided outside with an
electromagnetic winding 9. Case 1, snail 2, cone 6 and nozzles 3
and 5 are made of plastic and isolated from the ground.

[0023] A cold-water flow entering the cold part through the
nozzle 2 is divided into the warm (central) and the hot
(peripheral) parts inside the vortex movement generated by the
snail 2 in the case 1. While rotating, the hot part of the flow
adjusting the inner layer 9 moves to the case 1 hot part and
flows out from it through the ring-gap between the case edge 1
and a cone 2. While rotating, the warm part of the flow
reflected from the cone 4 moves towards the opening 4 and flows
out through it. Being partly ionized (through its friction
against the layer 9 and through cavitations processes of cold
nuclear synthesis), the water gets additional ionization through
the electrodes 8 high-voltage discharges; the additional water
heating is done also by means of those discharges. The electric
movement power occurs through electro-magnetic induction in the
winding 10. A part of the windings 10 electric energy is used
for the creation of discharges between the electrodes 8. To
improve the water flow splitting into the warm and the hot parts
as well as to increase the water ionization ratio, a plastic
inner tube 11 can be placed inside the case 1 as it is shown on
FIG. 2. Plastic has to have magnetic features; magnetic power
direction of the tube 11 has to be directed along its axe, which
allows the exact centering of the tube 11 during the
thermoelectric generator operation.

[0024] FIG. 3 shows an example of a coned thermoelectric
generator set (electro-magnetic winding is not shown); its
construction and details are similar to the abovementioned
construction of a cylindrical thermo-electric generator. A
thermo-electric generator is mounted also vertically and
contains a coned tube-case 12 with a cold part, which switches
on the cyclone constructed as a tangent-feeding nozzle 13, a
diaphragm with an opening 14 and a UV-diapason optical quantum
generator (not shown). The hot part contains a regulating cone
15. Parabolas form the case 12 inner and the cone 15 external
coned surfaces. Coned thermo-electric generator works similarly
to the abovementioned cylindrical thermoelectric generator with
one exception that there is no additional water heating in the
hot part, while a UV-diapason laser beam passing through the
opening 14 provides additional water ionization.

**Information Sources**

[0025] 1. U.S. Pat. No. 1,952,281, 1934.

[0026] 2. Ju. S. Potapov, L. P. Fomiskiy, "Vortex power
engineering and cold nuclear synthesis from the position of the
movement theory".--Kishinew-Cherkassy: "OKO-Plus", 2000.

[0027] 3. Certificate SU 1304526, 1976.

[0028] 4. U.S. Pat. No. 3,277,28, 1994.

[0029] 5. Patent application RU 5067921, publications date:
Jan. 9, 1995.

[0030] 6. Patent application RU 95110338, publications date:
Jun. 20, 1997.

[0031] 7. Patent RU 2045715, 1995 (the prototype)

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