RU166945U1 - WATER HEATER - Google Patents

Abstract

1. A water heating device comprising a tank with a bottom and a lid installed in the tank, at least one vertical combustion chamber with a gap between the bottom edge of the chamber and the bottom of the tank, water inlet and outlet pipes, respectively, in the upper and lower parts of the tank, water flooded above the lower edge of the chamber, the line for supplying combustible gas and the air line with taps, an air collector, a gas collector, burners that are gasdynamically connected to an air collector connected through a tap to the air line, and to a gas a manifold connected through a tap to a combustible gas line, the tank cap having an opening for venting the combustion products of the chamber into the atmosphere, characterized in that the device further comprises a line for supplying hydrogen gas with a tap, a mixer for combustible gas with hydrogen gas, provided with a line for supplying the mixture from the mixer to the gas manifold, and a permeable packet of granules, the mixer being connected to the combustible gas line after a tap on it, and the granule packet is installed in the outlet of the product outlet yelling of the tank cap. 2. The device according to claim 1, characterized in that natural gas is used as combustible gas. The device according to claim 1, characterized in that the granules are made of gravel. 4. The device according to claim 1, characterized in that the granules are made of fiberglass.

Description

The utility model relates to the field of efficient heat-generating devices and can be used in submersible combustion apparatus for heating water or evaporating liquids. If it is necessary to decentralize heat supply, for example, for heating purposes using water or water-containing liquids, an important role can be played by submersible combustion apparatus (APG), which are widely used in the chemical industry, which together with instrumentation (regulation of air and gas supply, automatic control and safety ) and air supply systems (fan with drive), as well as combustible gas supply systems form a submersible combustion installation. An important element of this installation is a water heating device, in which bubbling (passing through a liquid) of combustion products coming from continuous combustion chambers, lowered by an output of 200-300 mm below the liquid level, is carried out. Thus, direct contact of the combustion products with the heated fluid is ensured without the use of heat exchangers.

Known APG (RF patent No. 325974), containing a tank with a fluid circulating through it, in which the combustion chambers are vertically mounted with a gap between the bottom of the chamber and the bottom of the tank, a bubbler, nozzles for introducing and discharging liquid and removing combustion products, an additional retaining grid and an additional fluid supply pipe, supplying liquid to the side opposite to its supply from the main pipe. An additional retaining grid is installed above the bubbler so that between them there is a sufficiently thick layer of liquid. In this case, an additional pipe is located above the liquid level in the tank.

Although the technical solution allows to slightly increase the heat removal from the combustion products, it still does not fully utilize the thermal potential of the combustible mixture due to insufficient mixing of the combustion products with the liquid. Due to the installation of an additional retaining lattice, the depth of the combustion chamber is significantly increased in the device, which requires a corresponding increase in the air pressure entering the combustion chamber, and, consequently, an increase in the power of the compressor or fan supplying air to the device.

APG conversion developments are known. See, for example, “Effective heat supply of buildings based on submersible fuel combustion”: the journal “Conversion in Mechanical Engineering”, 2001, No. 5, p. 77-79. The coefficient of use of the heat of combustion of fuel in boilers based on APG can reach 95-98%. Obviously, ideally, it is possible to implement a practically completely waste-free and environmentally friendly technology for producing heat only using oxygen and hydrogen as fuel components. In this regard, a steam oxygen-hydrogen boiler with immersion combustion of an oxygen-hydrogen mixture is known (RF patent No. 198048 for an invention with a priority of 12.28.1991).

The closest in technical essence and the achieved result is a water heating device (RF patent No. 2469244), adopted as a prototype. The device comprises a tank with a bottom and a lid installed in the tank, at least one vertical combustion chamber with a gap between the lower edge of the chamber and the bottom of the tank, an opening for the discharge of combustion products into the atmosphere in the lid, water supply and discharge pipes, respectively, in the upper and lower parts of the tank, water flooded above the lower edge of the chamber, a line for supplying combustible gas and an air line with taps, an air manifold, a gas manifold, burners, a central and an intermediate one adjacent to the side wall of the tank, cavity, is limited s walls and communicating with the water supply pipe located in the upper part of the walls of these cavities sparger holes. Where the burners are gasdynamically connected to an air manifold connected through a tap to the air line and to a gas collector connected through a tap to the combustible gas line. The combustion chamber is located concentrically between the central and adjacent cavities to the tank wall and is provided with ignition holes in the lower part of the wall located below the initial level of the water filled in the tank. The burners are integrated evenly in the upper end of the combustion chamber. The holes in the upper part of the walls of the cavity of the tank are directed towards the outer and inner walls of the combustion chamber.

The device is operated by supplying water before starting through the upper nozzle into the central and intermediate cavities of the tank, and from there through spray holes into the remaining cavities of the tank. From the tank, water is discharged through the lower pipe, which ensures the flow of water through the tank. When the device is started, combustible gas is supplied to the burners from the combustible gas line through the valve and the gas manifold, and air is supplied from the air line through the valve and the air manifold with a flow rate and pressure lower than the calculated ones. In the burners, gas and air are mixed to form a combustible mixture, which is ignited by an igniter (not shown). From the combustion of the mixture, hot combustion products are formed, which, passing through the water in the tank cavity, heat it and then through the hole in the tank cover enter the atmosphere.

The device increases the specific heat removal from combustion products. However, in such devices a lot of heat is lost with the exhaust gases. In particular, there is no sufficient condensation of water vapor, as a result of which the latent heat of condensation of the vapor contained in the combustion products is not used enough. In addition, the completeness of combustion of combustible gas in the air is not high enough. Thus, the disadvantage of the prototype is the incomplete efficiency of burning a mixture of combustible gas with air and insufficient heat removal from combustion products.

The claimed utility model is based on solving the problem of increasing the heat removal from burning the air-fuel mixture both by increasing the efficiency of fuel combustion, for example, in the form of a mixture of natural gas and hydrogen gas, and by using the latent heat of condensation of water vapor in the combustion products.

The technical result achieved by the utility model is to increase the efficiency of the device.

The problem is solved in that the water heating device comprises a tank with a bottom and a lid installed in the tank, at least one vertical combustion chamber with a gap between the bottom edge of the chamber and the bottom of the tank, water inlet and outlet pipes, respectively, in the upper and lower parts of the tank, water poured above the bottom of the chamber. In addition, the device comprises a combustible gas supply line and an air line with taps, an air manifold, a gas collector, burners that are gasdynamically connected to an air collector connected through a tap to the air line and to a gas collector connected through a tap to the combustible gas line. Moreover, the tank lid has an opening for the removal of combustion products into the atmosphere.

What is new in the utility model is that the water heating device further comprises a hydrogen gas supply line with a tap, a combustible gas mixer with hydrogen gas, a mixture supply pipe from the mixer to the gas manifold, and a permeable pellet package, the mixer being connected to the combustible gas line after the valve on her. A bag of granules is installed in the opening of the exhaust products of combustion of the tank cap.

With this embodiment of the water heating device, the following is achieved:

- the additional presence of a line for supplying gaseous hydrogen with a tap provides the opportunity to improve the calorific value of combustible gas;

- the presence of a mixer of combustible gas with hydrogen gas, equipped with a line for supplying the mixture from the mixer to the gas manifold, allows you to mix fuel components homogeneously;

- connecting the mixer to the combustible gas line after the tap on it allows in exceptional cases to ensure the operation of the device completely on gaseous hydrogen, i.e. allows you to increase its consumer qualities;

- the installation of a permeable package of granules in the hole of the exhaust products of the combustion of the tank lid provides increased condensation of water vapor exhaust gases, returning additional heat to the device.

The development of the set of essential features of a utility model for particular cases of its implementation is given in additional paragraphs:

- the use of natural gas as combustible gas improves the environmental performance of the device and improves the efficiency of fuel combustion;

- the implementation of granules from gravel ensures the availability of the material used and the low cost of granules;

- the implementation of granules made of fiberglass reduces the mass of granules.

Thus, the task of increasing the heat removal from burning the air-fuel mixture posed by the utility model has been solved both by increasing the efficiency of fuel combustion, for example, in the form of a mixture of natural gas and hydrogen gas, and by using the latent heat of condensation of water vapor in the combustion products.

The present utility model is illustrated by the following description of the circuit of the water heating device and its operation with reference to the drawing.

The water heating device comprises a tank 1 with a bottom 2 and a cover 3 installed in the tank 1, at least one vertical combustion chamber 4 with a gap between the bottom edge of the chamber and the bottom 2 of the tank 1, water supply and discharge pipes 5, 6, respectively, in the upper and the lower part of the tank 1, water poured above the lower edge of the chamber 4. In addition, the device includes a highway 7 for supplying combustible gas and an air pipe 8, respectively, with taps 9, 10, an air manifold 11, a gas manifold 12, and a burner 13, which are gasdynamically connected to by air lecturer 11 connected via valve 10 to the air line 8 and a gas manifold 12 connected via valve 9 to the fuel gas line 7. The cover 3 of the tank 1 has an opening 14 for exhausting the combustion products of the chamber into the atmosphere. The device further comprises a line 15 for supplying hydrogen gas with a tap 16, a mixer 17 of combustible gas with hydrogen gas, equipped with a pipe 18 for supplying the mixture from the mixer 17 to the gas manifold 12, and a permeable packet 19 of granules 20. The mixer 17 is connected to the pipe 7 of combustible gas after the tap 9 on it. The package 19 of granules 20 is installed in the hole 14 of the exhaust products of the combustion cover 3 of the tank 1. As a combustible gas using natural gas. Granules 20 can be made of gravel or fiberglass.

The device operates as follows. At the beginning of the start, air is supplied to the burners 13 from the air line 8 through the valve 10 and the air manifold 11, and combustible gas is supplied from the combustible gas line 7 through the valve 9 and the gas manifold 12. In this case, the line 15 for supplying hydrogen through a tap 16 to the mixer 17 is closed. From the manifolds 11 and 12, air and combustible gas are supplied to burners 13. In burners 13, combustible gas and air are mixed and ignited by an igniter (not shown). Next, using the pipe 5, the cavity of the tank 1 is filled with water. From the tank 1, water is discharged through the pipe 6, which ensures such a flow of water through the tank 1, at which the water level calculated for start-up and operation is provided relative to the outlet cut of the burners. From combustion of the air-fuel mixture, hot combustion products are formed. The combustion products, passing through the thickness of the water, heat it and then through a permeable bag 19 with granules 20 in the hole 14 of the cover 3 go into the atmosphere. In the package 19 of the granules 20, condensation of water vapor from the combustion products occurs. As a result of vapor condensation, latent heat contained in the combustion products is released in drops of water, which, falling into the tank, additionally heat the water.

The intensification of the combustion process of the air-fuel mixture in the combustion chamber is facilitated by the gradual mixing of gaseous hydrogen from the line 15 through the open valve 16 to the combustible gas. This makes it possible to increase the completeness of combustion of the air-fuel mixture, which is important when using natural gas. The proposed technical solution will be in demand when individually providing heat to various consumers, especially in rural areas, in particular in regions of priority development (Crimea, the Far East, the Arctic).

Claims (4)

1. A water heating device comprising a tank with a bottom and a lid installed in the tank, at least one vertical combustion chamber with a gap between the bottom edge of the chamber and the bottom of the tank, water inlet and outlet pipes, respectively, in the upper and lower parts of the tank, water flooded above the lower edge of the chamber, the line for supplying combustible gas and the air line with taps, an air collector, a gas collector, burners that are gasdynamically connected to an air collector connected through a tap to the air line, and to a gas a manifold connected through a tap to a combustible gas line, the tank cap having an opening for venting the combustion products of the chamber into the atmosphere, characterized in that the device further comprises a line for supplying hydrogen gas with a tap, a mixer for combustible gas with hydrogen gas, provided with a line for supplying the mixture from the mixer to the gas manifold, and a permeable packet of granules, the mixer being connected to the combustible gas line after a tap on it, and the granule packet is installed in the outlet of the product outlet yelling of the tank cap. 2. The device according to claim 1, characterized in that natural gas is used as combustible gas. 3. The device according to p. 1, characterized in that the granules are made of gravel. 4. The device according to p. 1, characterized in that the granules are made of fiberglass.

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