RU140364U1 - HEATING FURNACE - Google Patents

Abstract

1. A heating furnace comprising a housing with a furnace and an exhaust pipe, a fuel supply system with a fuel pipe, a nozzle and a heat exchanger-heater installed in the furnace, characterized in that the fuel supply system comprises an emulsifier mixer for mixing water with fuel, and a system water supply with a storage tank, a low pressure pipeline, and a fuel line is connected to the inlet to the mixer-emulsifier, an emulsion supply system with a water-fuel nozzle is connected to the outlet, and in the furnace against a water-fuel nozzle tanovlen device katalizatora.2 catalyst and heating. The furnace according to claim 1, characterized in that shungite is used as a catalyst. The furnace according to claim 1 or 2, characterized in that the mixer-emulsifier is placed directly in the storage tank, which, in turn, is installed in the furnace. The furnace according to claim 1, characterized in that the water nozzle is made at the inlet to the mixer. The furnace according to claim 1, characterized in that a catalyst heater is installed in the furnace. The furnace according to claim 1, characterized in that the heater is made in the form of a heating element, for example, a spiral placed inside the catalyst. The furnace according to claim 1, characterized in that the heater is made in the form of a transformer, to the secondary winding of which a catalyst is connected. The furnace according to claim 1, characterized in that the catalyst heater is made in the form of an additional fuel nozzle with the orientation of the flame to the surface of the catalyst 9. The furnace according to claim 1, characterized in that the emulsion supply system is equipped with a water activator. The furnace according to claim 9, characterized in that the activator is made magnetic. The furnace according to claim 9, characterized in that the asset

Description

The invention relates to devices for systems of heat supply microvayon, heating private homes and premises.

The well-known Aqua-Bulleryan furnace contains a body, a furnace with a gasification chamber and a power regulator — an adjustable blower, a gasifier regulator, water pipes installed between the furnace and the body, encircling the furnace (Gorbov AM, Stoves and fireplaces, M., ACT; Donetsk; Stalker, 2005, p. 209-211, Fig. 130).

The disadvantage is that the furnace has a low efficiency.

Known heating furnace according to the patent of the Russian Federation for the invention No. 2225589, IPC F24B 1/02, publ. 05/27/2008, prototype.

Symptoms are common with the prototype: the heating furnace contains a housing with a furnace and an exhaust pipe, a fuel supply system with a liquid fuel pipeline with a nozzle and a heat exchanger-heater installed in the furnace.

The disadvantage is low efficiency and relatively high fuel consumption.

The task of creating a utility model is to reduce fuel consumption

Achieved technical result: increased completeness of combustion and increased efficiency of the furnace due to the combustion in the furnace of hydrogen obtained by decomposition of water.

The specified technical result is achieved in a heating furnace, comprising a housing with a furnace and an exhaust pipe, a fuel supply system with a fuel line, a nozzle and a heat exchanger-heater installed in the furnace, in that the fuel supply system comprises an emulsifier mixer for mixing water with fuel and a water supply system with a storage tank, a low pressure pipeline, and a fuel pipe is connected to the inlet of the mixer-emulsifier, an emulsion supply system with a water-fuel nozzle is connected to the outlet, and in the furnace rotiv pressurized fuel nozzle mounted catalyst and catalyst heating unit. Shungite can be used as a catalyst. The emulsifier mixer can be placed directly in the storage tank, which, in turn, is installed in the furnace. A water nozzle may be provided at the inlet to the mixer. A catalyst heater may be installed in the furnace. The heater may be made in the form of a heating element, for example, a spiral placed inside the catalyst. The heater can be made in the form of a transformer, to the secondary winding of which a catalyst is connected. The catalyst heater can be made in the form of an additional fuel nozzle with the orientation of the flame to the surface of the catalyst. The emulsion supply system may be provided with a water activator. The activator can be made magnetic. The activator can be made electric. The activator can be made in the form of a vortex snail with an Archimedes spiral inside. The furnace may be further provided with an ozone supply system containing an ozonizer connected to its furnace.

The ozonizer can be made in the form of a dielectric housing in the working chamber of which two electrodes are installed in parallel, to which an adjustable high voltage unit is connected. An adjustable high voltage unit and a hollow working chamber can be placed outside the oven. Both ozonizer electrodes can be placed in the furnace of the furnace, one of which is a metal catalyst, and the second ozonizer electrode is placed parallel to the catalyst. A fan can be installed at the inlet of the ozonizer, and the output of the working chamber of the ozonizer is connected by a tube to an additional air nozzle. The storage tank can be made of metal and tightly placed on the upper metal surface of the furnace. The water nozzle may be swirl. The water supply system may include an activator. The activator can be made of shungite. The catalyst can be made metal of magnesium-duralumin alloy. The catalyst may be made in the form of a plate. The catalyst may be made in the form of a perforated cylinder. The catalyst can be made in the form of a metal comb containing a base placed horizontally in the furnace of the furnace and at least three vertical plates placed on the base of this comb.

The essence of the utility model is illustrated in the drawings of FIG. 1 ... 18, where:

- in FIG. 1 shows a drawing of a furnace with a cylindrical horizontal housing

- in FIG. 2 shows a furnace with a cylindrical vertically arranged body,

- in FIG. 3 shows a furnace with a casing in the form of a rectangular parallelepiped,

- in FIG. 4 shows the connection diagram of the ozonizer to the furnace,

- in FIG. 5 shows a diagram for connecting an additional fuel nozzle (start) to the furnace,

- in FIG. 6 shows a diagram of an ozonizer,

- in FIG. 7 diagram of the working chamber of the ozonizer,

- in FIG. 8 shows a diagram of the working chamber of the ozonizer, the second option,

- in FIG. 9 shows a catalyst heating circuit (first option),

- in FIG. 10 shows a diagram of the heating of the catalyst, the second option,

- in FIG. 11 shows a catalyst heating circuit, a third embodiment,

- in FIG. 12 shows the design of the catalyst, the first option,

- in FIG. 13 shows the design of the catalyst, the second option,

- in FIG. 14 shows the design of the catalyst, the third option,

- in FIG. 15 shows the design of the catalyst, the fourth option,

- in FIG. 16 shows the design of the catalyst, the fifth option,

- in FIG. 17 shows the mixer

- in FIG. 18 shows a mixer-emulsifier with a supply of ozone.

The heating furnace (Fig. 1 ... 18) consists of a housing 1, a furnace 2, located inside the housing 1 and the exhaust pipe 3. Between the housing 1 and the heating furnace 2 there is a water heat exchanger-heater 4 with an inlet pipe 5 and an outlet pipe 6. Heat exchanger - heater 4 is intended to provide consumers with hot water, for example, for heating needs. The water heat exchanger-heater 4 has the shape of a spiral (Other design options are possible). Several heat exchangers can be used - water heaters 4. The fuel emulsion supply system comprises a fuel pipe 7, a mixer-emulsifier 8, an emulsion pipe 9, a valve 10, a heat exchanger-evaporator 11 and a water-fuel nozzle 12, the concentric of which is installed in the air nozzle 13. Air nozzle 13 is made on the door 14. In the lower part of the housing 1, an additional air nozzle 15 is made for supplying ozonated air.

The furnace can be equipped with casings 16 and 17 to accelerate the movement of the flow of combustion products with bypass windows 18.

A feature of the fuel emulsion supply system is the presence of a water supply system 19, which contains a storage tank 20 for water, a low pressure pipe 21, a pump 22, a high pressure pipe 23 and a mixer-emulsifier 8. A fuel pipe 7 and a pipe are connected to the input of the mixer-emulsifier 8 high pressure 23, water supply. The emulsifier mixer 8 is intended for the preparation of a water-fuel emulsion. After the mixer-emulsifier 8 can be installed activator 24 to activate the water-fuel emulsion or activator 25 to activate the water. The pump 22, the activator 24, designed to activate the water-fuel emulsion and the mixer 24 (emulsifier) can be placed directly in the storage tank 20, which, in turn, is installed in the furnace 2.

In the furnace 2, a catalyst 26 is installed against the fuel-water nozzle 12. The catalyst 26 can be made of metal from a magnesium-duralumin alloy or schungite. The catalyst can be made of various designs. The simplest version of its implementation in the form of a rectangular parallelepiped (Fig. 1) or in the form of a flat plate (Fig. 12) or in the form of a curved plate (Fig. 13 and 14). The catalyst 26 can be made in the form of a perforated cylinder (Fig. 15) or in the form of a comb (Fig. 16). A heater 27 can be installed near the catalyst 26 (Fig. 1) to ensure the start of the furnace. This is necessary because the water-fuel emulsion at low temperatures may not ignite.

The heater 27 may be of various designs (Fig. 9 ... 11). In the first embodiment (Fig. 9), it is made in the form of an inductor containing a transformer 28, having primary and secondary windings 29 and 30. The secondary winding 30 is connected in output by electric wires 31 to the excitation winding 32, inside which the catalyst 26 is installed. The excitation winding 32 heats the catalyst 26.

As a heater 27, the catalyst 26 itself can be used, for this it is connected to the secondary winding 30. The heater 27 can be made in the form of a heating element 33 (heating coil) connected to the secondary winding 30, which can be placed inside the catalyst 26 (Fig. . eleven). The primary winding 29 of this transformer 28 is located outside the furnace 2 of the furnace and is electrically connected to an electrical network of 220 V.

The heater 27 of the catalyst 26 can be made in the form of an additional fuel nozzle 34 (Fig. 5) with the orientation of the flame to the surface of the catalyst 26. A second additional air nozzle 35 can be made concentrically additional fuel nozzle 34. An additional fuel nozzle 34 is connected by a pipe 36 to the fuel line 7.

The water supply system, as mentioned earlier, can be provided with an activator 25. The activator 25 can be made magnetic. The activator 25 can be made electric. The activator 25 can be made in the form of a vortex snail with an Archimedes spiral inside (in Fig. 1 ... 18 this option is not shown.).

The furnace can be additionally equipped with an electric air ozonizer 37 connected to its furnace 2. Air ozonizer 37 (Fig. 6 ... 8) contains an adjustable high voltage unit 38, a dielectric housing 39 with a working chamber 40, which has a supply pipe 41 with a fan 42 and a discharge pipe 43. Inside the working chamber 40 two electrodes 44 and 45 are installed, electrically connected to the output of the adjustable high voltage unit 38. A variant with an additional output pipe 46 is possible (Fig. 8).

Both electrodes 44 and 45 of the air ozonizer 37 can be placed in the furnace 2 of the furnace, one of them being the catalyst 45 (combination of functions), and the second electrode of the ozonizer 45 is placed in parallel at a distance from the catalyst 26, providing a stable corona electrical discharge in the working the gap between them at a specific value of the output high voltage (in Fig. 1 ... 18 this option is not shown).

The storage tank 15 can be made of metal and tightly placed on the upper wall of the housing 1 of the furnace. (Fig. 3). This is necessary for preheating the water used to create the emulsion, in order to better prepare the emulsion and facilitate its evaporation in the furnace 2. Storage tank 20 contains 2 ... 3 l. water and periodically replenished. (The system of replenishing the storage tank 20 with water in Fig. 1 ... 18 is not shown).

Several catalyst embodiments 26 are possible. In FIG. 12 ... 16 shows five options. The catalyst 26 can be made in the form of a plate 47 (or a package of such plates) and is placed horizontally in the furnace 2 on a support 48, to which is attached a screw 49 (Fig. 12). The plate 47 can be made curved (Fig. 13 and 14). Perforating holes 50 can be made on the plate 47. The catalyst can be made in the form of a cylinder (Fig. 15).

The catalyst 26 can be made in the form of a metal comb containing a base 51 placed horizontally in the furnace 2 of the furnace and at least three vertical plates 52 placed on the base 51 of this comb (Fig. 16).

The emulsifier mixer 8 (Fig. 17) contains a housing 53, a cavity 54, a water nozzle 56 and a fuel nozzle 56. The second version of the mixer 24 (Fig. 18) further comprises an ozone nozzle 57.

OVEN WORK

The heating furnace operates as follows. The catalyst 26 is preheated using a heater 27. In a mixer-emulsifier 8, a water-fuel mixture is prepared. An emulsion containing water and fuel is introduced into the furnace 2 using a water-fuel nozzle 12 on the surface of the catalyst 26. The water contained in the emulsion decomposes into oxygen and hydrogen, and the fuel burns out. The resulting hydrogen also burns in the furnace 2. The resulting combustion products flow around the heat exchanger 4 and heat water in it for technical needs, for example, for heating a microdistrict, a room or a private house. Heated water goes to the consumer through the outlet pipe 6 (Fig. 1). Through the inlet pipe 5, chilled water is returned to the heat exchanger 4.

In the presence of ozonizer 37 it is included in the operation, for this they turn on the fan 42 and an adjustable high voltage unit 38, which supplies voltage to the electrodes 44 and 45 via electric wires 31 (Fig. 3). Between the electrodes 44 and 45, a corona discharge occurs in the working chamber 40, while ozone is formed, which has higher oxidizing properties than oxygen. The mixture of air with ozone is supplied to an additional air nozzle 15, while ozone has better oxidizing properties than oxygen, the completeness of fuel combustion is significantly increased. This ultimately increases the efficiency of the furnace and reduces fuel consumption.

The use of a heating furnace of this arrangement will allow:

- increase the efficiency of the furnace by increasing the completeness of combustion of fuel, burning of hydrogen obtained by the decomposition of water contained in a water-fuel emulsion and the use of ozone as an oxidizing agent in the combustion process,

- burn low-grade liquid fuel or fuel containing water impurities.

Claims (25)

1. A heating furnace comprising a housing with a furnace and an exhaust pipe, a fuel supply system with a fuel pipe, a nozzle and a heat exchanger-heater installed in the furnace, characterized in that the fuel supply system comprises an emulsifier mixer for mixing water with fuel, and a system water supply with a storage tank, a low pressure pipeline, and a fuel line is connected to the inlet to the mixer-emulsifier, an emulsion supply system with a water-fuel nozzle is connected to the outlet, and in the furnace against a water-fuel nozzle tanovlen catalyst and catalyst heating unit. 2. The furnace according to claim 1, characterized in that shungite is used as a catalyst. 3. The furnace according to claim 1 or 2, characterized in that the mixer-emulsifier is placed directly in the storage tank, which, in turn, is installed in the furnace. 4. The furnace according to claim 1, characterized in that the water nozzle is made at the entrance to the mixer. 5. The furnace according to claim 1, characterized in that a catalyst heater is installed in the furnace. 6. The furnace according to claim 1, characterized in that the heater is made in the form of a heating element, for example a spiral, placed inside the catalyst. 7. The furnace according to claim 1, characterized in that the heater is made in the form of a transformer, to the secondary winding of which is connected a catalyst. 8. The furnace according to claim 1, characterized in that the catalyst heater is made in the form of an additional fuel nozzle with the orientation of the flame to the surface of the catalyst 9. The furnace according to claim 1, characterized in that the emulsion supply system is equipped with a water activator. 10. The furnace according to claim 9, characterized in that the activator is made magnetic. 11. The furnace according to claim 9, characterized in that the activator is electric. 12. The furnace according to claim 9, characterized in that the activator is made in the form of a vortex snail with an Archimedes spiral inside. 13. The furnace according to claim 1, characterized in that it is additionally equipped with an ozone supply system containing an ozonizer connected to its furnace. 14. The furnace according to claim 1, characterized in that the ozonizer is made in the form of a dielectric body, in the working chamber of which two electrodes are installed in parallel, to which an adjustable high voltage unit is connected. 15. The furnace according to 14, characterized in that the adjustable high voltage unit and the hollow working chamber are located outside the furnace. 16. The furnace according to 14, characterized in that both ozonizer electrodes are placed in the furnace of the furnace, one of which is a metal catalyst, and the second ozonizer electrode is placed parallel to the catalyst. 17. The furnace according to claim 14, characterized in that a fan is installed at the input of the ozonizer, and the output of the working chamber of the ozonizer is connected by a tube to an additional air nozzle. 18. The furnace according to claim 1, characterized in that the storage tank is made of metal and tightly placed on the upper metal surface of the furnace. 19. The furnace according to claim 1, characterized in that the water nozzle is made vortex. 20. The furnace according to claim 1, characterized in that the water supply system contains an activator. 21. The furnace according to claim 1, characterized in that the activator is made of schungite. 22. The furnace according to claim 1, characterized in that the catalyst is made of metal from a magnesium-duralumin alloy. 23. The furnace according to item 21, wherein the catalyst is made in the form of a plate. 24. The furnace according to item 21, wherein the catalyst is made in the form of a perforated cylinder. 25. The furnace according to item 21, wherein the catalyst is made in the form of a metal comb, containing a base placed horizontally in the furnace of the furnace, and at least three vertical plates placed on the base of this comb.

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