RU60676U1 - STEAM GENERATOR - Google Patents

Abstract

The utility model relates to steam generators in which steam is formed by supplying water directly to the area of high-temperature combustion products leaving the combustion chamber, and the resulting high-temperature vapor-gas mixture is supplied to the consumer. The steam generator comprises a housing in which the combustion chamber and auxiliary equipment are located, including a system for supplying fuel with a burner, an air supply system for the combustion chamber, an ignition device, a water supply system with a nozzle, and a nozzle for exiting the vapor-gas mixture. The air supply system is equipped with an ozonizer. In addition, the air supply system is equipped with an air filter and a blower, and an ozonizer is placed between the air filter and a blower. The entrance to the combustion chamber is equipped with blades for swirling the air flow. The combustion chamber is cylindrical in shape and installed inside the housing coaxially with the latter, and a lining is placed on the inner surface of the combustion chamber. The outlet pipe for the gas-vapor mixture is connected to the bottom of the housing having a water jacket for cooling. The nozzle of the water supply system is located in the nozzle for the exit of the gas mixture. The pipe for the exit of the gas mixture has a bend with an outlet, rotated 90 ° relative to the axis of the inlet of the pipe. The technical result of the claimed utility model is to reduce the products of incomplete combustion of the fuel and improve the composition of the vapor-gas mixture sent to the consumer, as well as increase the efficiency of the steam generator.

Description

The utility model relates to steam generators in which steam is formed by supplying water directly to the area of high-temperature combustion products leaving the combustion chamber, and the resulting high-temperature vapor-gas mixture is supplied to the consumer.

A known steam generator containing a housing in which there is a combustion chamber, a system for supplying fuel with a burner, a system for supplying air to the combustion chamber, an ignition device, a water supply system with a nozzle, and a pipe for exiting a vapor-gas mixture connected to the housing (see Russian patent Federation No. 2251640 IPC F 22 B 1/26, published on 05/10/2005).

A disadvantage of the known technical solution lies in the fact that incomplete combustion of hydrocarbon fuel occurs in it, which leads to the formation of products of incomplete combustion of the fuel - primarily CO ₂ and sulfur and nitrogen oxides. A large number of products of incomplete combustion of the fuel in the resulting vapor-gas mixture leads to a limitation of the use of the vapor-gas mixture, and incomplete combustion of the fuel leads to an insufficiently high efficiency.

The technical result of the claimed utility model is to reduce the products of incomplete combustion of the fuel and improve the composition of the vapor-gas mixture sent to the consumer, as well as increase the coefficient of performance (COP) of the steam generator.

The claimed technical result is achieved in that the steam generator containing the housing in which the combustion chamber is located, auxiliary equipment, including a system for supplying fuel with a burner, an air supply system to the combustion chamber, an ignition device, a water supply system with a nozzle, and a pipe for

the outlet of the gas mixture connected to the housing, according to a utility model, the air supply system of the steam generator is equipped with an ozonizer.

The air supply system can be equipped with an air filter and a blower, and an ozonizer can be placed between the air filter and a blower.

The entrance to the combustion chamber may be provided with vanes for swirling the air flow.

The combustion chamber can be made cylindrical in shape and installed inside the housing coaxially with the latter, and a lining can be placed on the inner surface of the combustion chamber.

The outlet pipe for the vapor-gas mixture can be connected to the bottom of the housing having a water jacket for cooling.

The nozzle of the water supply system may be located in the nozzle for the exit of the vapor-gas mixture.

The pipe for the exit of the vapor-gas mixture may have a bend with an outlet, rotated 90 ° relative to the axis of the inlet of the pipe.

The ignition device can be made in the form of a pilot burner and a spark plug.

The nozzle of the water supply system and the water jacket of the bottom of the housing can be communicated through the feed pump to the feed water tank.

Auxiliary equipment may include a steam generator control system and an autonomous source of electricity to power the auxiliary equipment of the steam generator, the steam generator and auxiliary equipment being placed on the trailer of the vehicle, or on the vehicle itself.

The control system may include a fuel regulator, an indicator on and off the burner, an indicator of availability

or the absence of a flame with an alarm, the water flow regulator and air flow regulator are made, for example, in the form of valves.

The fuel supply system may be configured to supply liquid hydrocarbon fuel to the combustion chamber.

The fuel supply system may be configured to supply gaseous hydrocarbon fuel to the combustion chamber.

The drawing shows a schematic diagram of a steam generator and auxiliary equipment.

The steam generator includes a housing 1 in which the combustion chamber 2 is located, auxiliary equipment, including a system for supplying fuel with a working burner 3, an air supply system to the combustion chamber, an ignition device, a water supply system with a nozzle 4, and a nozzle 5 for exiting the vapor-gas mixture connected to the housing 1. The air supply system is equipped with an ozonizer 6.

The air supply system is equipped with an air filter 7 and a blower 8, and an ozonizer 6 is placed between the air filter 7 and the blower 8.

The entrance to the combustion chamber 2 is provided with blades 9 for swirling the air flow.

The combustion chamber 2 is cylindrical in shape and is installed inside the housing 1 coaxially with the latter. A lining is placed on the inner surface of the combustion chamber 2.

The pipe 5 for the exit of the gas mixture is connected to the bottom of the housing 1 having a water jacket 10 for cooling.

The nozzle 4 of the water supply system is located in the pipe 5 for the exit of the gas mixture.

The pipe 5 for the exit of the gas mixture has an elbow 11 with an outlet, rotated 90 ° relative to the axis of the inlet of the pipe.

The ignition device is made in the form of an ignition burner 12 and an ignition plug 13.

The nozzle 4 of the water supply system and the water jacket 10 of the bottom of the housing 1 are communicated via a feed pump with a feed water tank (not shown in the drawing) or connected to a water supply.

Auxiliary equipment includes a steam generator control system and an autonomous source of electric power for supplying an ozonizer 6 and auxiliary equipment for a steam generator.

The steam generator and auxiliary equipment can be placed on the trailer of the vehicle, or on the vehicle itself.

The control system includes a fuel supply regulator (for example, fuel valve 14), a burner on and off indicator, an indicator of the presence or absence of a flame with an alarm sound (not shown in the drawing), a water flow regulator (for example, a water flow valve 15) and a flow regulator air (e.g., air vent valve 16).

The fuel supply system can be configured to supply liquid hydrocarbon fuel or gaseous hydrocarbon fuel to the combustion chamber 2 through the working burner 3.

In the process, the electric motor through a belt drive drives a blower 8 combined with an ozonizer 6 of blast air, which pumps ozonized air into the combustion chamber 2, where it is mixed with fuel, followed by ignition of the fuel mixture. The combustion process of the air-fuel mixture occurs in the combustion chamber 2. The device for burning fuel is

highly efficient unit, which guarantees almost 100% combustion of the fuel mixture due to the supply of 2 ozonized air to the combustion chamber. In this case, a negligible amount of side (environmentally harmful) combustion products is formed.

Under the control of the electronic controller, water is supplied and sprayed through the nozzle 4 directly into the medium of high-temperature gaseous products of combustion. Combustion products are mixed with water (and not released into the atmosphere, as is customary in boiler technology) and form a gas-vapor mixture.

The main unit of the steam generator is a cylindrical combustion chamber 2, the inner surface of which is protected by a lining assembled from annular sections. The sectional assembly of the lining of the combustion chamber provides quick repair and replacement of damaged lining sections. The combustion chamber 2 has a horizontal axis of symmetry.

The formation of a combustible mixture occurs at the entrance to the combustion chamber 2, where ozonized air is supplied through a system of peripheral twisting blades 9. Fuel is supplied through a working burner 3, in the immediate vicinity of which there is a burner (s) 12 and a spark (s) 13 fuse.

The twist of the combustible mixture provides good mixture formation and, as a consequence, the completeness of combustion.

The torch of the burning mixture is distributed into the combustion chamber 2. Moreover, at the start-up stage, part of the heat is spent on heating the lining, therefore, after a short-term stop of the steam generator and its subsequent start-up, the establishment of the standard temperature regime requires a short time. However, when starting from a cold state, warming up the lining may take a long time.

The air supply to the combustion chamber is organized so that the air first passes through the annular gap between the housing 1 and the chamber

combustion 2, where it is heated, and then goes directly to combustion chamber 2. This ensures two important factors: firstly, the housing of the combustion chamber 2 is not subjected to strong heating, which leads to a low temperature of the housing and, thus, allows you to satisfy the rules of technology safety, and also makes it possible to use cheaper structural materials; secondly, the supply of heated air provides a more efficient mixture of oxidizer and fuel, a high combustion temperature, as well as a higher completeness of fuel combustion and, thus, makes it possible to significantly reduce the toxicity of combustion products.

The output of the combustion products is carried out through a pipe 5 connected to the bottom of the housing 1, cooled by water through a water jacket 10. The pipe 5 is made with a bend 11 rotated 90 °, behind which there is a nozzle 4 for water injection.

The water nozzle 4 is a device for mechanical atomization of a liquid. Water is introduced into the nozzle 4 in the axial direction. Further, the flow is twisted using a special device - a screw, while the redistribution of the impulse of the water strings to the translational and rotational components occurs. The outlet is made in the form of a gap between the central body of the nozzle 4 and the end disk. Water spraying thus occurs in a radial direction. Directly at the slit edge, water moves in the form of a continuous disk-shaped film. Due to the dynamic interaction with the flow of combustion products, waves appear on the surface of the continuous film, which leads to subsequent film breakdown and droplet formation.

A high-temperature coolant (steam-gas mixture) is supplied to the consumer through a pipeline, the recommended length of which should not exceed 250 m. The consumer should

choose, guided by their capabilities. The recommendations in Russia relate to operational restrictions imposed on the speed of steam in pipes with different roughness values of the inner surface. For long-term operation of steam pipelines, the recommended speed value is 10 ÷ 20 m / s.

The steam generator is equipped with an automatic and manual control system and allows you to change the flow rate of the gas mixture and its temperature. The steam generator can operate in two modes, differing in fuel and air flow rates.

The flow rate of a gas-vapor mixture is regulated stepwise by changing the fuel supply to the combustion chamber 2 with a corresponding change in air flow. The blower discharge line 8 is connected to the fuel supply regulator, both to the pilot burner 12 and to the working burner 3. The air flow rate is maintained by discharging part of the flow rate into the atmosphere through valve 16. The temperature of the vapor-gas mixture in the range 115 ÷ 200 ° C is controlled due to changes in water flow. Water flow can be manually adjusted. Maintaining a given flow rate is carried out using valve 15. Currently, the problem of introducing energy-saving technologies into the industry is considered to be the most important task. One of the areas of similar activity used in the technology of a steam generator operating on gaseous and liquid hydrocarbon fuels was to increase its efficiency due to ozonation of blast air in front of the blower.

The technology used during the operation of the steam generator is provided by the industrial ozonizer "VAPORMID", manufactured in Canada.

The use of an ozonizer allows to obtain fuel savings in the range of 2-3% and to ensure an efficient fuel combustion process for the following reasons:

1. When: the introduction of negative ions of definite concentrations or ozone into the blast air of the burner 3, the gas combustion process improves. In this case, there is a significant decrease in the content of carbon monoxide in the exhaust gases; which confirms the phenomenon of more complete oxidation of the fuel during ionization.

2. Soot formation is reduced and heat generation is improved.

3. The purity of the heating surface is increased and the overhaul interval of the steam generator and components is increased.

4. When negative oxygen or ozone ions are introduced into the blast air, an increase in the excess air coefficient makes it possible to increase the efficiency of the steam generator by at least 2%. This figure also determines the percentage reduction in fuel consumption during ionization and ozonation of air.

The use of ozone technology improves the efficiency of fuel combustion in a steam generator.

Claims (13)

1. A steam generator comprising a housing in which the combustion chamber is located, auxiliary equipment, including a system for supplying fuel with a burner, an air supply system to the combustion chamber, an ignition device, a water supply system with a nozzle and a nozzle for exiting a vapor-gas mixture connected to the housing, characterized in that the air supply system is equipped with an ozonizer. 2. The steam generator according to claim 1, characterized in that the air supply system is equipped with an air filter and a blower, and an ozonizer is placed between the air filter and the blower. 3. The steam generator according to claim 1, characterized in that the entrance to the combustion chamber is equipped with blades for swirling the air flow. 4. The steam generator according to claim 1, characterized in that the combustion chamber is cylindrical in shape and installed coaxially to the latter inside the housing, and a lining is placed on the inner surface of the combustion chamber. 5. The steam generator according to claim 1, characterized in that the pipe for the exit of the vapor-gas mixture is connected to the bottom of the housing having a water jacket for cooling. 6. The steam generator according to claim 1, characterized in that the nozzle of the water supply system is located in the pipe for the exit of the vapor-gas mixture. 7. The steam generator according to claim 6, characterized in that the pipe for the exit of the gas mixture has an elbow with an outlet, rotated 90 ° relative to the axis of the inlet of the pipe. 8. The steam generator according to claim 1, characterized in that the ignition device is made in the form of a pilot burner and a spark plug. 9. The steam generator according to claim 1, characterized in that the nozzle of the water supply system and the water jacket of the bottom of the housing are communicated through the feed pump with a feed water tank. 10. The steam generator according to claim 1, characterized in that the auxiliary equipment includes a steam generator control system and an autonomous source of electricity to power the auxiliary equipment of the steam generator, the steam generator and auxiliary equipment being placed on the trailer of the vehicle, or on the vehicle itself. 11. The steam generator according to claim 10, characterized in that the control system includes a fuel supply regulator, an indicator for turning on and off the burner, an indicator of the presence or absence of a flame with an alarm sound, a water flow regulator and an air flow regulator, made, for example, form of valves. 12. A steam generator according to any one of claims 1 to 11, characterized in that the fuel supply system is configured to supply liquid hydrocarbon fuel to the combustion chamber. 13. A steam generator according to any one of claims 1 to 11, characterized in that the fuel supply system is configured to supply gaseous hydrocarbon fuel to the combustion chamber.