RU2812526C1 - Steam gas generator - Google Patents

Abstract

FIELD: power engineering.

SUBSTANCE: invention relates namely to methods of operation and design of steam and gas generators. The steam and gas generator contains a fuel-cooled combustion chamber of fuel components, a mixing head, including a housing, at the ends of which the upper and lower bottoms are fixed, an intermediate bottom located between the housing and the lower bottom, an oxidizer manifold mounted on the housing, and jet-centrifugal nozzles uniformly located around the circumference. The injectors include a tubular body connected to the oxidizer cavity, a bushing installed on the tubular body and forming with it an annular end pocket connected to the fuel cavity using tangential holes made on the cylindrical surface of the bushing. Inside the tubular body there is a ballasting component nozzle, made in the form of a tube, plugged in the outlet part. The outlet part of the nozzle is located in the combustion chamber, and radial holes are made on its cylindrical surface in the plugged outlet part. The cavity of the combustion chamber cooling path is connected to the fuel cavity of the mixing head.

EFFECT: effective performance.

1 cl, 3 dwg

Description

The invention relates to power engineering, namely to methods of operation and design of steam and gas generators.

One of the problems currently facing in this field of technology is the problem of the efficiency of power plants, increasing their efficiency and operational reliability.

There is a known method of operation of a steam-gas generator in which the working process is carried out in two gas paths with different-temperature exhaust streams discharged into a common recovery system in which water vapor is generated (RF application for invention No. 93009679/06/008853).

There is a known method of operation of a combined-cycle plant (steam-gas generator), including combustion of fuel, heating of the working fluid, generation of water vapor (RF patent No. 2174615, class IPC7 F02C 6/18 dated September 12, 1996).

A device for producing high-temperature steam is known (AS USSR No. 168962), containing a housing with outlet pipes for a steam-gas mixture and a burner device located inside.

A steam-gas generator is known, containing a housing with an outlet pipe for a steam-gas mixture, a cylindrical combustion chamber with a burner device, a mixing chamber, nozzles, flow swirlers (RF patent 2283456 dated 12.20.2004, class IPC F22B 1/22).

A common disadvantage of the known technical devices is their insufficient operating efficiency, design complexity and low reliability at high thermal loads of structural elements.

A steam and gas generator is known, containing a combustion chamber with nozzles, a water supply, an ignition device, an evaporation chamber, while the water supply is located in the upper part of the combustion chamber and is made in the form of a sleeve with tangential channels for swirling the water flow and forming a vortex-like shell, and is installed in the evaporation chamber diaphragm (RF Patent No. 2371594, IPC: F02C 6/00 - prototype).

The specified steam and gas generator operates as follows.

Water is supplied through the main line into the combustion chamber, passing through a sleeve with tangential channels, swirls and forms a vortex-like shell in the cavity of the combustion chamber with a vacuum inside its central region.

Then the components are supplied through the oxidizer and fuel lines to the mixing head. The ignition device uses a candle to ignite them. The components burn inside a water vortex-like shell, which significantly reduces the temperature load on the walls of the combustion chamber, which makes it possible to raise the combustion temperature of the components to the maximum (achieved by their stoichiometric ratio) and thereby increase the efficiency of the installation.

The presence of a diaphragm made in the form of a nozzle with a wide cut directed into the evaporation chamber does not allow the formed water vortex shell to collapse ahead of time, therefore intensive evaporation of water and heating of steam occur under more gentle temperature loads on the structural elements of the steam and gas generator, after the collapse of the vortex-like water shell. In addition, as the gas expands in the nozzle, its static temperature drops.

The high-temperature steam heated in the evaporation chamber goes outside through the outlet device for further consumption.

The main disadvantages of this steam and gas generator design are its significant dimensions, especially in the axial direction, which is caused by the need to place the mixing chamber after the ballasting component supply unit.

The objective of the invention is to eliminate these disadvantages and increase the uniformity of the temperature field of the vapor-gas mixture at the outlet in a wide range of temperatures and pressures by intensifying the evaporation process of the ballasting component.

The solution to this problem is achieved by the fact that the proposed steam and gas generator, according to the invention, contains a fuel-cooled combustion chamber of fuel components, a mixing head, which includes a housing, at the ends of which the upper and lower bottoms are fixed, an intermediate bottom located between the housing and the lower bottom, and an oxidizer collector mounted on the body, and jet-centrifugal nozzles, evenly spaced around the circumference and including a tubular body connected to the oxidizer cavity, a sleeve mounted on the tubular body and forming with it an annular end pocket connected to the fuel cavity using tangential holes, made on the cylindrical surface of the bushing, characterized in that a ballasting component nozzle is installed inside the tubular body, made in the form of a tube, plugged in the outlet part located in the combustion chamber, and on the cylindrical surface of which radial holes are made in the plugged outlet part, wherein the cavity of the cooling path The combustion chamber is connected to the fuel cavity of the mixing head.

The proposed design of the steam-gas generator, due to its distinctive features, provides a solution to the technical problem - reducing the dimensions and weight of the device, as well as increasing the uniformity of the temperature field of the steam-gas mixture at the outlet in a wide range of temperatures and pressures due to the intensification of the evaporation process of the ballasting component.

The essence of the invention is illustrated by drawings, where Fig. 1 shows a longitudinal section of a steam and gas generator, Fig. 2 - remote element A - longitudinal section of the mixing head of a steam and gas generator, Fig. 3 - section BB - cross section of the mixing head of a steam and gas generator.

The steam and gas generator contains a combustion chamber 1 and a mixing head 2. Cooling of the combustion chamber 1 is carried out by the flow of fuel through the cooling path 3.

The mixing head 2 consists of a housing 4, at the ends of which the upper bottom 5 and the lower bottom 6 are fixed, an intermediate bottom 7 located between the housing 4 and the lower bottom 6, an oxidizer collector 8 fixed to the housing 4, and centrifugal jet nozzles 9 located evenly around the circumference, and 10 ballasting component nozzles.

The body 4, the upper bottom 5, the lower bottom 6 and the intermediate bottom 7 form a fuel cavity 11 connected to the cooling path 3, an oxidizer cavity 12 and a ballasting component cavity 13.

Jet-centrifugal nozzle 9 contains a tubular body 14 connected to the oxidizer cavity 12, a sleeve 15 installed on the tubular body 14 and forming with it an annular end pocket 16 connected to the fuel cavity 11 using tangential holes 17 made on the cylindrical surface of the sleeve 15 .

The nozzle of the ballasting component 10 is installed inside the tubular body 14 of the jet-centrifugal nozzle 9 and is made in the form of a tube, plugged in the outlet part located in the combustion chamber 1, and on the cylindrical surface of which radial holes 18 are made in the plugged outlet part.

The proposed steam and gas generator operates as follows.

The fuel is supplied to the cooling path 3 of the combustion chamber 1 and then into the fuel cavity 11 of the mixing head 2, where it is evenly distributed among the jet-centrifugal nozzles 9. Through the tangential holes 17 made into the bushings 15, the fuel enters the annular end pocket 16 and then in the form a jet shaped like a hollow cone into combustion chamber 1.

The oxidizer enters the oxidizer manifold 8 of the mixing head 2 and then into the cavity of the oxidizer 12, where it is evenly distributed among the jet-centrifugal nozzles 9. Through the tubular housings 14, the oxidizer enters the combustion chamber 1.

The ballasting component is fed into the cavity of the ballasting component 13 of the mixing head 2 and then through the nozzles of the ballasting component 10 and the radial holes 18 made in them, it enters the combustion chamber 1.

In combustion chamber 1 combustion of fuel components occurs. The resulting high-temperature combustion products of the fuel components are diluted and cooled by the ballasting component entering the combustion chamber 1 through the radial holes 18, in the nozzles of the ballasting component 10.

The use of the proposed technical solution will reduce the size and weight of the steam-gas generator, as well as increase the uniformity of the temperature field of the steam-gas mixture at the outlet over a wide range of temperatures and pressures due to the intensification of the evaporation process of the ballasting component.

Claims (1)

A steam and gas generator containing a fuel-cooled combustion chamber of fuel components, a mixing head including a housing at the ends of which the upper and lower bottoms are fixed, an intermediate bottom located between the housing and the lower bottom, an oxidizer manifold mounted on the housing, and jet-centrifugal nozzles, evenly spaced around the circumference and including a tubular body connected to the oxidizer cavity, a bushing installed on the tubular body and forming with it an annular end pocket connected to the fuel cavity using tangential holes made on the cylindrical surface of the bushing, characterized in that inside In the tubular body, a ballasting component nozzle is installed, made in the form of a tube, plugged in the outlet part located in the combustion chamber, and on the cylindrical surface of which, in the plugged outlet part, radial holes are made, and the cavity of the combustion chamber cooling path is connected to the fuel cavity of the mixing head.

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