SU1559125A1 - Ignition device for steam generator - Google Patents

Abstract

The invention relates to the petroleum industry and is intended to generate a vapor-gas mixture. The goal is to increase reliability by preventing damage from thermal stress. The device consists of a housing 1, a mixing chamber 2 interconnected coaxially and installed in the cylinder 3 of the flange 4, fuel supply pipelines 5, oxidizer 6, water 7. In case 1, radial channels 9 are made for fuel supply and tangential for oxidant supply. Inside the body is placed the cup 10, which forms an additional annular mixing chamber 11. The igniter 12 is placed in the cup 10. During operation, all fuel is supplied to the additional annular chamber 11 via radial channels 8, into which part of the oxidizer is fed through the tangential channels 15. Pushing on the ribs 13, part of the mixture falls inside the cup 10 and ignites. The products of combustion and the rest of the mixture interact with the rest of the oxidizing agent in the mixing chamber 2 and burn. 1 il.

Description

The invention relates to the oil industry, and in particular to devices generating a vapor-gas mixture and intended for operation in $ wells.

The purpose of the invention is to increase the reliability by preventing destruction from temperature stresses. 10

The drawing shows a device, General view.

The ignition device consists of a housing 1, a mixing chamber 2, interconnected by a thread and installed 15 coaxially in the cylinder 3 of the flange 4, pipelines 5-7 for supplying fuel, oxidizer and water. In the housing 1, having radial channels 8 for supplying fuel and tangential channels 9 for supplying part of the oxidizer, a cup 10 is installed, forming with the housing 1 an additional annular mixing chamber 11, and an igniter 12 (electric candles or acoustic resonator), 25

The glass 10 is made in the form of a cylinder with ribs 13 and channels 14 located in front of the ribs located on it. In the mixing chamber, there are a number of tangential channels 15 for supplying 39 the main part of the oxidizing agent.

The ignition unit operates as follows.

The ignition unit is mounted coaxially jg with the combustion chamber of the borehole gas and steam generator through the flange 4. Power is supplied to the igniter 12 (spark plug), after which fuel and oxidizer are supplied through pipelines 5 and b. The part to the oxidizer through the tangential channels 9 enters an additional annular mixing chamber formed by the housing 1 and the glass 6. All fuel consumption enters the additional 45 mixing annular chamber 11 through the radial channels 8. The mixture of fuel and oxidizer moving along the additional annular mixing chamber chamber, encounters hydraulic resistance, made in the form of ribs 13 on the glass, and part of it enters through the holes 14 made in the glass in front of the ribs, on the igniter 12, on which this part of the mixture is restored flames, the rest of the mixture passes through the channels between the ribs 13 ,. connected in the mixing chamber 2 with the main part of the oxidizing agent, which enters through the tangential openings 15, and completely burns out. If it is necessary to obtain steam in the combustion products through tangential openings made in the flange, water is injected into the manifold of the flange through pipeline 7.

Removing the heat source from the combustion chamber and organizing the mixing achieved by this design of the ignition unit allows you to maintain the necessary ratio of the components of the mixture, to increase the reliability of ignition and the durability of the gas generator.

Claims (1)

Claim An ignitor device of a steam and gas generator, comprising a housing with a mixing chamber, an igniter and pipes for supplying fuel and an oxidizing agent, characterized in that, in order to increase the reliability of operation by preventing its destruction from temperature stresses, it is equipped with a glass perforated in the fuel supply zone having an outer fin surface, and mounted within the housing to form an additional annular mixing chamber communicating with the pipe ¹ for supplying fuel and oxidant respectively are radial through and tangential channels formed in the housing when. A volume igniter is placed inside the glass.