The method of operation of a thermal power of reactor machines and thermal power of the reactor machine

 

(57) Abstract:

Heat engine and method of its operation are designed for use in the creation of Autonomous sources of electricity. The machine is a circular jet engine combustion and contains immobile elements (housing with cover, combustion chamber, a mixing chamber, a receiver with a reactive consoles) and moving parts (drive shaft, blower rotor with working consoles). In the suction and compression of air as oxidant, the mixing of the working fuel, ignition, combustion and expansion of gases and exhaust the acquisition and conversion of electrical and mechanical energies. The invention provides a simplification of the conditions of power collection high power with low voltage. 2 S. p. f-crystals, 1 Il.

The invention relates to power engineering and can be used in engine-building, aviation, transport and other industries as a stand-alone source of electricity.

Closest to the invention is a method of operation of thermal electric reactor of the machine, including the intake and compression of air as oxidant, the mixing work is the conversion of electric energy into mechanical energy, and thermal power of the reactor machine containing an annular jet internal combustion engine, having a housing, a drive shaft, intake and compression of air as oxidant, the mixture formation and combustion of the working fuel, expansion of gases, exhaust gases and the cooling system (EN 97105209 A1, class F 02 K 11/00, publ. 27.03.1999).

The disadvantage of these methods and devices are difficulties with the removal of electric current.

Object of the invention is the simplification of the conditions and means for the removal of the electric current.

The problem is solved due to the fact that for the implementation of the method of operation of a thermal power of reactor machine the latter is in the form of an annular jet internal combustion engine equipped with unipolar electric DC generator, the reactor cell and the fuel elements are placed in a common housing, with all the main parts of the machine in the form of flat rectangular rings and hollow rectangular cylinder, the rings are mounted in a horizontal position, and the cylinders are in a vertical position, the driving shaft is made with a cavity and with a stiffening ring blower - kiswah the holes of the base and cover and receiver, a stationary annular combustion chamber is performed with the mixing chamber, separate and auxiliary combustion chambers and placed over the blower and rigidly fastened to the bottom of the receiver, the latter are made of hollow coaxially arranged cylinders and rigidly fastened to the housing cover on the inner generatrix of the rotor at a distance from each other rigidly mounted above the combustion chamber annular working consoles similar to the stationary annular jet set top box between the annular working consoles and rigidly mounted on the outer surface of the receiver above the outlet nozzles for the expanding gases from the separate and auxiliary combustion chambers, in the thickness of the body working and reactive consoles perform work in parallel channels. Thus the exhaust gases of the first working channel is sent for reuse in the auxiliary combustion chamber and from the latter completely exhaust gases sent into the atmosphere in the combustion chamber separate and auxiliary combustion chamber is enclosed in channels with flowing cooling liquid, the latter is already overheated send in the auxiliary combustion chamber, where it was the work of the reactor, the resulting mixture enters the electrochemical reaction with the heated white hot by the catalytic resistance, the formation of the fuel and oxidizer with heat, and unreacted reagents, receiving the emitted heat, expand and supersonic speeds are during working channels for performing useful work. The stator coils of the excitation and with shrunk in the cavity conductive metal sleeve homopolar electrical generator and the direct current motor is rigidly mounted in the body cavity of the machine, the rotor of the machine pressed on the outer surface and plated on the inner generatrix of the cylinder of conductive metal sleeve is thus an anchor, and working consoles in the form of permanent magnets with coils excitation fixed at the inner forming serve rotating stator, and the outer one forming a receiver is stationary armature and provided with a conductive sleeve in the cavity of the receiver host dielectric capacity, which is shared by a horizontal diaphragm to separate tanks for fuel cell elements, and vertical diaphragm on the cathode and anode prestigieuse reagents with the products of chemical reactions in the form of water or steam is directed into the auxiliary combustion chamber, the resulting fuel and oxidizer are sent in separate combustion chambers, coolant add ionized alkali metals with the formation of low-temperature plasma, which is sent with supersonic speed in the working channel, where by inert electrochemically made in the form of inserts electrodes of heat-resistant metal materials, carry out power collection, power collection is also carried out with the ring electrodes of the generator in contact with the electrolyte in the electrolytic cell, and/or from the contact rings solid brushes mounted on the control shaft.

The problem is solved and due to the fact that thermal power of the reactor machine equipped with an additional housing with the stator, armature, collector rings, brushes and caps with bearings forming an electric machine, and the reactor electrolyzer and fuel cell and the motor, electric machine, the reactor cell and the fuel elements are located in a common housing, the main parts are made in the form of a flat rectangular rings and hollow rectangular cylinder, the rings are mounted in a horizontal position, and the cylinders in Vertica the guard rigidly mounted in annular two-stage blower on its periphery has a cylindrical rotor in the cavity of the latter rigidly placed at a certain distance from each other in the ring working consoles, between which is placed a stationary annular jet set-top boxes and rigidly fixed on the outer surface of the receiver, consisting of a coaxially mounted on the annular base of the two cylinders, the ends of which are hermetically sealed with the cover and to the bottom of the receiver is rigidly attached to an annular combustion chamber, in the body which made the chamber of a dilution of the working fuel with education ultrasonic aerosol fuel mixture, separate the combustion chamber of the fuel mixture, hydrogen and oxygen and an auxiliary combustion chamber for the electrochemical reaction of the exhaust gas, vapor coolant, unreacted reactants and products of chemical reactions in fuel cells. Moreover, separate and auxiliary combustion chamber enclosed in the channel with flowing cooling fluid, in the body of workers and reactive consoles over the weekend Laval nozzles of the combustion chambers made separate parallel VERTIC is Oprichnik metal material and electrically connected with the anchor, the first channels have a channel bypass exhaust gas in the auxiliary combustion chamber and the second exhaust valve to exhaust to the atmosphere. The stator unipolar generator and the direct current motor with coaxial excitation coils and plated with conductive metal bushings mounted in the cavity of the machine housing, a hollow rotor-anchor pressed on the outside and with shrunk on the inner forming conductive plugs are made of a single piece and for the generator and motor, working consoles made in the form of the rolling stator of the permanent magnets or their inner forming installed coil excitation with the sleeve, and the outer one forming a receiver with bushing made in the form of fixed anchors. Drive shaft with its compressor and rotor-armature with working consoles are installed with the possibility of free rotation in the pivot holes of the base cover, the combustion chamber and receiver, with the blower and the rotor-anchoring with working consoles are inertial flywheel, drive shaft mounted slip rings with brushes and contact polyelectrolyte, rings and half rings are electrically connected with the sleeve anchors. In the cavity of the receiver is installed dielectric capacity, which is divided by a diaphragm horizontally formed in the lower cavity mounted in the cell and the top of the fuel elements, and vertically on the anode and cathode cavity, which is equipped with electrodes, fuel cells equipped with separate channels of reception of the electrolyzer fuel and oxidant and bypass channels.

The invention is illustrated by the drawing, which schematically shows a thermal power of reactor machine.

The heat engine includes a housing 1 with a cover 2, a compressor 3 air drive shaft 4, the rotor-armature 5, the operating console 6, the combustion chamber 7, the receiver 8, reactive attachment 9, the stator 10, the coil 11 of the excitation, the sleeve 12 is conductive stator sleeve 13 electrically conductive rotor, the ring 34 is conductive, the cell 14, the dielectric capacity of 15, the blank wall 16, box 17 power collection, the main electrodes 18, the diaphragm 19, the gas reservoir 20, the fuel cell 21, the partition 22, the collector 23 of the reaction products, the electrodes 24 of the fuel elements, inert electrochemical 25, the inserts 26, the coil 27 of excitation, electroliners (zigzag) working channel 32.

Heat engine.

Heat engine, i.e., the annular jet engine combustion, is a flat ring, hub, cylinder cover, which in transverse axial incision is made rectangular in shape.

Their vertical centerlines Assembly comprise a single straight line.

Horizontal centerline of all flat rings, hubs, cylinder, drive shaft and cover Assembly are parallel straight lines perpendicular to the vertical centerline.

All flat rectangular rings and lids in the motor are mounted in a horizontal position, and all cylinders, shaft, sleeve and hub in a vertical position.

All with the possibility of rotation of the ring, bushing, cylinder and drive shaft rotate only on its own axial line and in one direction only.

The housing 1 of the machine includes a hollow cylinder, an annular base with a nave controllable two-annular composite cover.

The housing 1 is a hollow cylinder, with their bottom ends of the vertically fixed at the periphery of the annular base. On the lower ground plane coaxial with the center hole stiffening rail hub. On pariska air in the car. On the outer surface of the case is made of lugs for attachment to the frame of the machine.

Cover 2 of the case is made in the form of two composite on the same plane and rigidly connected to each other rings with the center hole. Cover peripheral edge, with the possibility of the connector firmly attached to the upper end of the body 1 and is equipped with an outlet valve of the exhaust gas.

Supercharger 3 oxidizer consists of rings, sleeves, covers, and vent blades.

On the lower plane of the ring, coaxial with the Central hole, rigidly mounted guide sleeve, which has the capability of free rotation on the hub of the housing 1, and the hub center hole rigidly connected with the drive shaft 4.

On the upper and lower planes of the rings of the compressor 3 a radial evenly positioned arcuate ribs that formed thee channels in the form of sectors, connected serially in the center part, and then the peripheral part of the ring compressor.

The bottom plane of the ring with ribs cover is closed and formed the first stage of the compressor; the upper plane of the ring with ribs cover is closed and formed a second mortar is reposname holes of small diameter, and the upper cover of the second stage contains a center part of a similar outlet for compressed air as oxidant.

The inlet air is conducted through the inlet window formed in the ends of the first degree in the first regular sectors of the channels and the bypass air from the first to the second stage passes through the holes of the second adjacent deaf by the end of sector channels.

On the outer end of the ring compressor 3 around the perimeter between the inlet Windows fan mounted suction air fan blades.

The outer diameter dimension of the compressor 3, based on the size of the fan blades is equal to the inner diameter dimension of the housing 1.

Drive shaft 4 is made on the outer one-piece stepped cylinder. The upper half of the drive shaft 4 is made as a hollow cylinder.

On the lower half of the drive shaft 4 is rigidly mounted supercharger 3.

Drive shaft 4 with the blower 3 through the sleeve of the latter, a vertically installed in the housing 1 with the vertical rotation of the hub body 1 and the center hole of the composite cover 2.

Removal of mechanical energy made lower, and the Rowan on the upper peripheral plane of the compressor 3.

The outer diameter of the rotor 5 and the outer diameter of the compressor 3, without taking into account the size of the fan blades, identical.

Internal forming a cylinder rotor 5 is made stepwise. At each step, but with the possibility, if necessary, removal of, in a fixed position at a certain distance from each other, a working attachment 6, which is made in the form of rings.

The lower the working attachment 6 of its top plane and the subsequent attachment 6 with its lower surface and the inner forming the lower level of the cylinder rotor 5 has formed an open in the direction of the driving shaft 4 cavity. Such cavities formed several.

Each working console 6 in the body between the upper and lower planes contain annular cuause-expanding end-to-end window, which is divided vertically into two equal halves - channels 30 and 31.

At the bottom of the working station 6 the number of completed ring-shaped boxes corresponds to the number of separate combustion chambers, located in the main combustion chamber 7. Following the working attachment 6 contains a few more knee-shaped Windows, than the lower, and so on

The combustion chamber 7, the shadow formed in the body on the upper plane of the ring at the center hole, the bottom of prelimary mixing fitted through small diameter holes. The centerline of these holes and the axial lines of the holes made in the lid of the compressor 3, are located on one straight line. Through these openings into the mixing chamber under pressure pulsating jets forming the ultrasonic radiation, enters the air-oxidant, and the tubes through the holes of the cover enters the spray from the nozzle any liquid fuel. Air is the oxidizer and liquid fuel intensively mixed and form an ultrasonic aerosol fuel mixture with high temperature and pressure, resulting from the compression of air as oxidant and indirect cooling of the combustion chamber.

In the mixing chamber separately placed dispensers supply ultrasonic aerosol fuel mixture in a separate combustion chamber, and steam from the coolant, exhaust gases and unreacted gases from the products of a chemical reaction, resulting in fuel cells in the secondary combustion chamber.

The dispenser is made of a hollow cylinder, and its cavity is placed against a solid cylinder. A hollow cylinder and a solid cylinder contain diametrically oversteer provide a quantitative supply of fuel or vapors.

The mobility of the inner cylinder of the dispenser is provided with a movable part which is mechanically associated with the device placed on the lid 2.

In the body of the ring of the combustion chamber 7 adjacent to the mixing chamber, made several, in this case four separate combustion chambers of the fuel mixture and for each separate combustion chamber is made of an auxiliary combustion chamber.

All, i.e., separate and auxiliary combustion chambers, equipped with a discharge nozzle of Laval, and the expanding gases get supersonic outflow, do useful work in a knee-shaped working channel, which is divided to separate gases of combustion chambers for gas auxiliary combustion chambers.

The exhaust gases of separate combustion chambers, losing pressure and preserved partly by temperature, are sent for re-use in the auxiliary combustion chamber and the exhaust gases of the auxiliary combustion chambers, completely lost and the pressure and temperature, through a valve in the lid 2 are directed into the atmosphere.

Separate combustion chamber equipped with electric spark ignition of the fuel mixture.

Auxiliary camera is blennie and auxiliary combustion chambers, in the combustion chamber 7, are enclosed in a water jacket in the form of channels, which circulates the coolant. The latter flows through the tubes under pressure from a separate tank.

The outer diameter of the combustion chamber 7 is equal to the inner diameter of the cylinder rotor 5 with a possibility of free rotation of the latter relative to the combustion chamber 7.

The combustion chamber 7 of the lower plane mounted above the blower 3 oxidizer, and at the top under the bottom plane of the working attachment 6 of the rotor 5, and a mixing chamber positioned below the bottom of the receiver and rigidly bonded with him.

The driving shaft 4 has the capability of free rotation in the center hole of the combustion chamber 7.

The receiver 8 is made of two different diameter cylinders, which are vertically and coaxially rigidly mounted on the annular flat base. The inner diameter of the center hole of the base, the inner diameter of the inner cylinder and the outer diameter of the drive shaft 4 are identical, the latter has the capability of free rotation in the cavity.

The bottom ground plane of the receiver 8 and cover prelimary mixing of the combustion chamber 7 are mounted rigidly.< the inner cylinder is rigidly fastened to the inner ring of the cover 2.

On the inner generatrix of the outer cylinder mounted sealed pockets for placement and installation of technological equipment.

Outer forming the outer cylinder of the receiver 8 are stepped. At each step strictly, but with the possibility, if necessary, removal of, in a fixed position at a certain distance from each other is installed reactive attachment 9, which are made in the form of rings.

The lower reactive attachment 9 with its lower plane mounted above the top plane of the bottom of the working attachment 6, i.e., the lower reactive attachment 9 is placed in the open cavity formed by the working consoles 6.

All subsequent above posted reactive attachment 9 placed in open cavities formed working consoles 6.

Each reactive attachment 9 in the body between the lower and upper planes contains a knee-shaped pass-through window. These Windows are against the same window, placed in the body working consoles 6.

Knee-shaped window working set-top boxes 6 and knee-shaped box jet set top boxes 9 formed themselves zigzag cuause-expanding the working channel, in which kinetic channel is divided into two working half: one half do useful work expanding gases separate combustion chambers, in the second half do useful work expanding gases of the auxiliary combustion chambers.

The number of knee-shaped Windows in each ring all reactive consoles 9 corresponds to the number of separate combustion chambers or the number of knee-shaped boxes, placed in one of the first lower operating console 6.

Particularly exposed to high temperature part of the knee-shaped boxes of workers and reactive consoles that make up the working channel of the machine, made in the form of inserts electrodes of heat-resistant and metal-ceramic materials, which are electrically connected with the electricity consumer.

All reactive attachment 9 their surfaces and forming as close as possible to the surfaces and forming working consoles 6, but with the possibility of free axial rotation of the latter in the first place, i.e., among the jet set-top boxes 9. In necessary cases performed between the planes of the combustion chamber 7 and working 6 and jet 9 consoles nedvizhuscheesya annular labyrinth seal.

The required number of boxes 6 and 9, separate and auxiliary combustion chambers 7, the working channels is determined by the desired capacity of the machine EXT is gorania in the auxiliary combustion chamber made from one of the upper reactive attachment 9 through the vertical hole, formed in the body of the outer cylinder of the receiver 8 and dispenser which is placed in the mixing chamber.

Electromachine live performance

The stationary stator 10 unipolar electric DC machine (WANT) recruited from soft magnetic electrical material, assembled in the ring packages and rigidly mounted in the cavity of the housing 1. The stator 10 comprises two parts that are isolated from each other by nonmagnetic spacer; one part is used in unipolar generator (UG), and the other unipolar motor (UD). Hereinafter they will be referred to as monohull duhaney the stator 10.

The coil 11 of the excitation is made annular coil of insulated wire.

Coil 11 excitation rigidly and coaxially mounted in the body of the stator 10, in this case apart for a homopolar generator and for unipolar electric motor.

The entire height of the inner forming the stator 10 and around its perimeter rigidly mounted a well-conductive metal sleeve 12.

The rotor-anchor 5 unipolar generator and motor are made in a single single piece of ferromagnetic material and is odnotrahniki supercharged oxidizer 3.

The entire height of the inner and outer forming cylinder anchor 5 and around its perimeter tightly pressed and shrunk good conductive metal sleeve 13, which is similar to the sleeve 12 of the stator 10. The sleeve 13 of the armature 5, the upper ends electrically connected, and the lower ends of each separated with diametrically location, converted to insulated flexible cable.

Each cable radially and tightly Packed in the grooves that is formed on top of the supercharger 3 and diametrically through the holes in the drive shaft 4 is introduced into the cavity of the latter, and their ends brought to the collector rings mounted at the end of the drive shaft 4. Power collection made of solid stationary electromechani.

If necessary, power collection high power and low voltage is carried out using a liquid electrolyte through the electrodes. For this purpose, each of the electric cable has branches that are separately electrically connected with the conductive well semirings 34.

These electropolymerize 34 diametrically and at different levels placed on the outer surface of the drive shaft 4, have the opportunity through educated and diametrically rasoloharijaona conductive electrolyte. Electrodes 18 through the electrolyte is Electrochem.

Electromachine in reversible execution

A movable stator reversible electric machines are working attachment 6, which is made of electrical material. In the grooves formed on the inner generatrix of the working attachment 6, mounted and rigidly fixed annular coil 27 excitation of insulated electrical wires.

Coil 27 excitation electrically connected to the conductive plugs 13 of the armature 5.

The number of coils 27 excitation or their replacement by permanent magnets of the stator is determined by the required power of the object.

Stationary armature reversible electrical machinery is the outer generatrix of the outer cylinder of the receiver 8. The entire height of the stationary armature around its perimeter pressed tightly well-conductive metal sleeve 28 with the slots in places rigid connection of the jet 9 of the consoles on the outer surface of the outer cylinder of the receiver 8.

The entire height of the inner forming a working console 6 and over the coils 27 of excitation around the perimeter shrunk severely well-conductive metal sleeve 33.

Reactor

The reactor is a combination of electrolysis devices, fuel cells and inert electrodevices.

The cell 14 in the proposed device comprises a vessel, the electrodes and the diaphragm.

Vessel for cell 14 is the receiver chamber 8, in which the dielectric capacity of 15. The tank 15 is horizontally divided into two equal halves by a special diaphragm, which provides separation of cathode and anode space and does not allow mixing of the products of a chemical reaction, i.e., hydrogen and oxygen. Aperture not shown.

In each half of the cell 14 in the walls of the receiver 8 and the dielectric capacitance 15, opposite Tokushima-feed semirings 13A placed on the control shaft 4, diametrically opposite each other are made of alternating Tokushima-feed box 17.

Through the window 17 of the alkaline electrolyte solution is continuously fed through tubes through the cover 2 at the same time in each half of the cell 14 has the ability to electroconductive and to react chemically with the main electrodes 18.

The main current-carrying electrodes 18 diametral sealed at the top removable cover 2 and the dummy partition 16.

The electrodes 18 for performing chemical reactions in the electrolysis process have the opportunity for direct reception in the required amount of electric current of the alkaline solution from the conductive half-rings 34 or directly from a constant independent current source, accumulated in the batteries.

In the cavity of the cell 14 and slightly below the deaf walls 16 and similarly the last set aperture 19, which serves for the separation of gaseous products obtained in the process of a chemical reaction of the alkali solution on the main electrodes 18 directly from the electrolyte.

A blank wall 16 and aperture 19 formed a cavity in the receiver, i.e. the gas tank 20. The tank 20, depending on the convenience of the reception of gases in fuel cells, is divided into separate parts diametrically into two halves or several sectors, or two circular halves.

In this plane dielectric 15 capacity and receiver 8 is a through-pass open for admission separately ionized alkaline solution in the channel to cool the combustion chamber 7 and residues, unreacted in the chemical process of the hydrogen and kingstreet contains the vessel, electrodes, getparentelement and the electrolyte.

Vessel for hydrogen-oxygen fuel cell 21 is the upper half of the dielectric capacity of 15, which is provided with a hollow wall 22. The last 22 and the bottom plane of the ring cover 2 formed a collection of 23 for receiving unreacted chemical reaction of hydrogen and oxygen, and the resulting reaction products in the form of water or water vapor.

These gases, water or water vapor in the tubes ejection climb into the inlet channel of the auxiliary combustion chamber 7.

In the vessel dielectric capacitance 15 posted by the maximum number of hydrogen-oxygen fuel cell 24.

On the cathode-anode inert electrodes 24 are continuously and separately coming from the gas tank 20 electrolyzer 14 hydrogen and oxygen.

In the fuel element 24, which as electrochemical generator is a chemical reaction interaction of hydrogen fuel with oxygen as the oxidizing agent, the chemical energy of fuel directly into electrical energy (Electrochemical generators" H.In.Korovin. Meters, Energy, 1974).

In the of actraiser and produces fuel and oxidizer, i.e., hydrogen and oxygen. The latter are used in separate combustion chambers.

Inert electrochemical 25.

In the proposed thermal machine uses ultrasonic aerosol fuel mixture with small additives of liquid alkali metals with low ionization potential.

The rapid combustion of this fuel mixture in separate combustion chambers and the supersonic speed of movement of products of combustion from the Laval nozzle has provided low-temperature plasma with high ionization conductivity.

In thermal working machine channels 32 with their cuause-expanding Windows made in the form liners-electrochemically 25 of heat-resistant vysokoskorostnogo and ceramic materials.

With the aim of obtaining large electric capacity in a limited time and use it to obtain useful work machine implemented eat electric current with low temperature plasma through electrochemically 25, which is electrically connected to the power consumer.

The invention provides a power collection high power with low voltage.

1. The way works is the W working fuel ignition, combustion and expansion of gases, the exhaust gases from the subsequent receipt and conversion of electric energy into mechanical energy, wherein the machine is made in the form of an annular jet internal combustion engine equipped with unipolar electric DC generator, the reactor cell and the fuel elements are placed in a common housing, with all the main parts of the machine in the form of flat rectangular rings and hollow rectangular cylinder, the rings are mounted in a horizontal position, and the cylinders are in a vertical position, the driving shaft is made with a cavity and with a stiffening ring blower-oxidant and a hollow cylindrical rotor, vertical mount them with the possibility of free rotation in the pivot holes of the base and cover and receiver, a stationary annular combustion chamber is performed with the mixing chamber, separate and auxiliary combustion chambers and placed over the blower and rigidly fastened to the bottom of the receiver, the latter are made of hollow coaxially arranged cylinders and rigidly fastened to the housing cover, inner forming RCTs, similar stationary annular jet set top box between the annular working consoles and rigidly mounted on the outer surface of the receiver above the outlet nozzles for the expanding gases from the separate and auxiliary combustion chambers, in the thickness of the body working and reactive consoles perform work in parallel channels, the exhaust gases of the first working channel is sent for reuse in the auxiliary combustion chamber and from the latter completely exhaust gases sent into the atmosphere in the combustion chamber separate and auxiliary combustion chamber is enclosed in channels with flowing cooling liquid, the latter is already overheated send in the auxiliary combustion chamber, where it is turned into steam and intensively mixed with the exhaust gases and unreacted reactants and reaction products of the reactor, the resulting mixture enters the electrochemical reaction with the heated white hot by the catalytic resistance, the formation of the fuel and oxidizer with heat, and unreacted reagents, receiving the emitted heat, expand and supersonic speeds are during working channels for performing useful work, the article is REGO electric generator and the direct current motor is rigidly mounted in the cavity of the vehicle body, the rotor of the machine pressed on the outer surface and plated on the inner generatrix of the cylinder of conductive metal sleeve is thus an anchor, and working consoles in the form of permanent magnets with coils excitation fixed at the inner forming serve rotating stator, and the outer one forming a receiver is stationary armature and provided with a conductive sleeve in the cavity of the receiver host dielectric capacity, which is shared by a horizontal diaphragm to separate containers for the electrolyzer and fuel cell, and a vertical diaphragm on the cathode and anode cavity, the products of electrolysis in the form of hydrogen and oxygen are sent separately to the fuel elements, unreacted reactants to products in a chemical reaction in the form of water or steam is directed into the auxiliary combustion chamber, the resulting fuel and oxidizer are sent in separate combustion chambers, coolant add ionized alkali metals with the formation of low-temperature plasma, which is sent with supersonic speed in the working channel, where by inert electrochemically made in the form of Vladislaus with ring electrodes of the generator, in contact with the electrolyte in the electrolytic cell, and/or from the contact rings solid brushes mounted on the control shaft.

2. Thermal power of the reactor machine containing an annular jet internal combustion engine, having a housing, a drive shaft, intake and compression of air as oxidant, the mixture formation and combustion of the working fuel, expansion of gases, exhaust and cooling system, wherein equipped with an additional housing with the stator, armature, collector rings, brushes and caps with bearings forming an electric machine, and the reactor electrolyzer and fuel cell and the motor, electric machine, the reactor cell and the fuel elements are located in a common housing, the main parts are made in the form of a flat rectangular rings and hollow rectangular cylinder, the rings are mounted in a horizontal position, and the cylinders are in a vertical position with the location of their vertical centerlines along the same straight line, drive shaft having a cavity which is rigidly mounted in annular two-stage blower on its periphery has a cylindrical rotor in the cavity latter medeni stationary annular jet set-top boxes and rigidly fixed on the outer surface of the receiver, consisting of coaxially mounted on the annular base of the two cylinders, the ends of which are hermetically sealed with the cover and to the bottom of the receiver is rigidly attached to an annular combustion chamber, the body of which is made of prelimary mixing of the working fuel with education ultrasonic aerosol fuel mixture, separate the combustion chamber, the fuel mixture of hydrogen and oxygen and an auxiliary combustion chamber for the electrochemical reaction of the exhaust gas, vapor coolant, unreacted reactants and products of chemical reactions in fuel cells, and isolated and auxiliary combustion chamber enclosed in the channel with a flowing coolant, in the body of workers and reactive consoles over the weekend Laval nozzles of the combustion chambers made separate parallel vertical knee-shaped cuause-expanding operating channels with Windows and semirings in them, made of heat-resistant metal material and electrically connected with the anchor, the first channels have a channel bypass exhaust gas in the auxiliary combustion chamber and the second exhaust valve to exhaust Skami excitation and plated with conductive metal bushings mounted in the cavity of the vehicle body, hollow shaft-anchor pressed on the outside and with shrunk on the inner forming conductive plugs are made of a single piece and for the generator and motor, working consoles made in the form of the rolling stator of the permanent magnets or their inner forming installed coil excitation with the sleeve, and the outer one forming a receiver with bushing made in the form of fixed anchors, drive shaft with its compressor and rotor-armature with working consoles are installed with the possibility of free rotation in the pivot holes of the base cover, the combustion chamber and receiver, while the blower and the rotor-anchoring with working consoles are inertial flywheel, drive shaft mounted slip rings with brushes and the contact ring, with the possibility of a separate contact in the anode and cathode cavities of the cell through the electrolyte with the electrodes, rings and half rings are electrically connected with the sleeve anchor into the cavity receiver installed dielectric capacity, which is divided by a diaphragm horizontally formed in the lower cavity mounted in the cell and the top of the fuel elements, and vertically on andn is the Riem from cell fuel and oxidant and bypass channels.

 

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2 cl, 2 dwg

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