RU2258097C1 - Device for production of thermal energy, hydrogen and oxygen - Google Patents

Abstract

FIELD: physico-chemical processes for production of heat, hydrogen and oxygen.

SUBSTANCE: proposed device has anode cylindrical dielectric rod with lower cylindrical lug on which cylindrical anode is fitted; anode dielectric rod is provided with axial hole; it is inserted in axial hole of cover by means of thread; said cover is screwed in body together with anode and anode dielectric rod. Cathode is also provided with axial hole and is inserted into axial hole of cylindrical cathode dielectric rod by means of thread; this rod is inserted into lower axial hole of body by means of thread and is centered with axial hole of cathode cylindrical dielectric rod for adjustment of clearance between lower end surface of anode dielectric rod and upper end surface of cathode dielectric rod; oxygen escape branch pipe is located in upper part of anode cavity; anode and cathode are connected to power source.

EFFECT: improved power parameters; reduced losses of heat; avoidance of explosion at forming plasma in cathode zone.

1 dwg, 1 tbl

Description

The invention relates to physicochemical technologies and techniques for producing heat, hydrogen and oxygen.

A technical solution is known (see Yakovlev S.V., Krasnoborodko I.G. and Rogov V.M. "Technology of electrochemical water treatment. L .: Stroyizdat, 1987, p. 207-211, 227-231), containing a housing with nozzles for supply and removal of the treated solution, an electric discharge chamber with a flat and needle electrode placed in it.

A technical solution is known, described in SU 487665, 10.15.75, C 25 V 9/00, comprising a housing, upper and lower covers, nozzles for input and output of the working solution, an anode connected to the positive pole of the power source, and a cathode connected to negative pole of the power source.

Also known is the technical solution described in Russian patent No. 2157861 (prototype) for producing thermal energy of hydrogen and oxygen, comprising a body made of dielectric material, a cover also made of dielectric material, which has a cylindrical tide with a through hole, forming together with the body of the anode and cathode cavity, the anode is made flat, annular with holes, located in the anode cavity and connected to the positive pole of the power source, the cathode is in the form of a rod of refractory material, is inserted into a dielectric rod with an external thread, through which it is introduced into the interelectrode chamber through a threaded hole in the housing and centered in the through hole of the lid and connected to the negative pole of the power source, the nozzle for introducing the working solution is located in the middle part of the anode cavity.

A disadvantage of the known inventions is that they have low energy efficiency.

The technical solution to the problem is to increase the energy performance of the device.

The problem is solved due to the fact that the device for producing thermal energy, hydrogen and oxygen, contains a body made of dielectric material, a cover also made of dielectric material, an anode cylindrical dielectric rod with a lower cylindrical tide, on which an anode made of a cylindrical wherein the anode dielectric rod has an axial hole and is inserted by means of a thread into the axial hole of the cover, which together with the anode and the anode dielectric it is screwed into the housing by means of a thread, the cathode has an axial hole and is inserted into the axial hole of the cathode cylindrical dielectric rod by means of a thread, which is inserted by means of thread into the lower axial hole of the housing and centered with the axial hole of the anode cylindrical dielectric rod with the possibility of adjusting the gap between the lower end surface the anode dielectric rod and the upper end surface of the cathode dielectric rod, a pipe for acid output kind located at the top of the anode cavity and the anode and cathode are connected to a power source.

The novelty of the proposed proposal is due to the fact that the cathode is located in the lower part of the channel through which the heated solution exits. Due to this, heat loss is reduced and the energy efficiency of the device is increased. In addition, the oxygen and hydrogen exit channels are separated, which excludes the possibility of their mixing and explosion when plasma is formed in the cathode zone.

With this arrangement of the device, it is possible to select the resonant frequency of exposure to water molecules and its ions and thus dramatically reduce the energy costs of their destruction. In the subsequent synthesis of water molecules and its ions, destroyed by a resonant electromagnetic field, additional thermal energy is released. Thus, the device simultaneously generates thermal energy and gases: hydrogen and oxygen.

According to the patent literature not found a similar set of features, which allows us to judge the inventive step of the proposal.

The invention is illustrated in the drawing, which shows a General view of a device for producing thermal energy of hydrogen and oxygen.

It contains a hollow cylindrical body 1 made of dielectric material, open at the top and having an axial hole in the bottom with thread 2; a cover 3 with an external thread 4 and an axial hole with a thread 5; the cylindrical anode 6 is worn on the anode cylindrical dielectric rod 7 with an axial hole 8 and rests on the lower cylindrical tide 9. The cover 3, together with the anode 6 and the anode dielectric rod 7, is screwed into the casing from above by a thread 4. The cylindrical cathode 10 with the axial hole 11 is inserted into the axial hole 12 of the dielectric cathode rod 13. The dielectric cathode rod 13 is inserted into the axial hole in the bottom of the housing by means of thread 2. The anode cavity 14 is formed by the inner wall of the housing 1 and the anode dielectric rod 7. The cathode cavity 15 is formed by an enlarged part of the axial hole 12 of the cathode dielectric rod 13. The gap 16 between the lower end surface of the anode dielectric rod 7 and the upper end surface of the cathode dielectric rod 13 is controlled by the movements of the cover 3 or the cathode dielectric rod 13. The supply pipe 17 the solution is installed in the middle part of the anode cavity 14. A pipe 18 for oxygen output is located in the upper part of the anode cavity 14. The anode and cathode of the subunit yayutsya to a power source 19 which generates electrical impulses.

The device operates as follows. The set flow rate of the solution passing through the device is set. The power supply 19 is turned on and the set voltage is set. After a few minutes, the process becomes established. After that, the required pulse frequency is set and the process of fixing the flow rate of the solution, voltage, current and the temperature difference of the solution at the inlet and outlet of the device begins (table). During the operation of the device, the solution passes through the gap 16, in which water molecules and its ions are polarized under the influence of an electric field, and current pulses destroy the chemical bonds of molecules and ions. Their valence electrons make up for the lack of energy necessary for them to exist in a separated state due to physical vacuum, and emit it during the subsequent synthesis of ions and molecules. There is no other hypothesis to explain such a significant energy effect.

Table Indicators 1 2 3 Wednesday 1 - the mass of the solution passed through the cell m, kg 0.350 0.352 0.352 0.351 2 - temperature of the solution at the inlet to the cell t ₁ , deg eighteen eighteen eighteen eighteen 3 - temperature of the solution at the outlet of the cell t ₂ , deg 72 72 72 72 4 - the temperature difference of the solution Δt = t ₂ -t ₁ , deg 54 54 54 54 5 - experiment duration Δτ, s 300 300 300 300 6 - voltmeter readings V, V 4,50 4,50 4,50 4,50 7-ammeter readings I, A 1.8 1.8 1.8 1.8 8 - power consumption according to the voltmeter and ammeter E ₁ = I · V · Δτ, kJ 2.43 2.43 2.43 2.43 9 - energy of the heated solution, E ₂ = 4.19 · m · Δt, kJ 79.19 79.64 79.64 79.49 10 - cell efficiency indicator according to the voltmeter and ammeter readings K = E ₂ / E ₁ 32.59 32.77 32.77 32.71

Claims (1)

A device for generating thermal energy, hydrogen and oxygen, comprising a housing made of dielectric material, a cover of dielectric material, an anode, a cathode and a nozzle for introducing a working solution, characterized in that it has an anode cylindrical dielectric rod with a lower cylindrical tide, on which the anode made cylindrical, while the anode dielectric rod has an axial hole and is inserted through the thread into the axial hole of the cover, which together with the anode and the anode d is screwed into the casing by an electric rod, the cathode has an axial hole and is inserted into the axial hole of the cathode cylindrical dielectric rod through the thread, which is inserted into the lower axial hole of the casing by means of a thread and is centered with the axial hole of the anode cylindrical dielectric rod with the possibility of adjusting the gap between the lower end surface the anode dielectric rod and the upper end surface of the cathode dielectric rod, and pat the oxygen outlet side is located in the upper part of the anode cavity, and the anode and cathode are connected to a power source.