SU767455A1 - Burner - Google Patents

Description

one

The invention relates to burner-type devices of heat engineering ar-j regatas and can be used in the metallurgical industry: and industrial heat engineering. five

. Burners are known, comprising a housing with a combustion chamber coaxially disposed therein, provided at the inlet with a central fuel nozzle and a diffuser inlet section; a section-10 com adjacent to the cylindrical one, at the outlet of which is an annular fuel nozzle I.

A disadvantage of the known burner is the high energy loss associated with separation and reversal of the flow, as well as with the collision of counter-flow. In addition, combustion in the chamber is characterized by insufficient stability, 20

The purpose of the present invention is to increase stability and reduce energy consumption.

This goal is achieved by the fact that the combustion chamber is provided with 25 output confuser located behind the annular fuel nozzle, the opening angle of which is 70 - 90 °, the diameter of the central fuel nozzle is (0.33 ": 0, 5) from the chamber diameter exceeding twice the length of its cylindrical section, and the opening angle of the diffuser section is 90-180,

The drawing shows the proposed burner, a longitudinal section.

The burner includes a housing 1 with a combustion chamber 2 coaxially placed in it, provided at the inlet with a central nozzle 3 and formed by a diffuser inlet section 4 adjacent to the cylindrical section 5, at the outlet of which an annular fuel nozzle 6 is placed,

The combustion chamber 2 is provided with a 6 output confuser If, located behind the annular fuel nozzle, terminating with an output nozzle 8,

The burner works as follows.

When the gas-air mixture is supplied to the central fuel nozzle 3, the flow is divided into a through jet and an annular vortex, into which additional gas-air mixture flows from the housing 1 from the annular fuel nozzle 6. The combustion occurs both in the annular vortex and in the through jet. Combustion products are discharged from combustion chamber 2 through exit nozzle 8. Making the central fuel nozzle 3 with a diameter of 0.33-0.5 of the diameter of combustion chamber 2 provides the effect of the formation of a stationary ring vortex, the compactness and intensity of which is achieved by selecting the diameter of the chamber 2, it is twice as long as its cylindrical section 5. The execution of the diffuser inlet section 4 of the combustion chamber with an opening angle of 90-180 ° ensures reliable separation of the main flow of the gas-air mixture from the walls of the chamber mountain 2 with the minimum dimensions of the latter, and the execution of the output confuser 7 with an opening angle of 70 ° EO allows a significant reduction in the hydraulic resistance of the combustion chamber 2 and, consequently, the energy loss in the burner. It was established experimentally that the joint implementation of the above-mentioned ratios of burner dimensions leads to the formation of a highly stationary annular vortex in the combustion chamber, which contributes to an increase in the stability of, ..., .....

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Claims (1)

70f4b% fr .. ..i burning and reducing energy costs. Claims of the invention: A burner comprising a housing with a coaxial chamber coaxially disposed therein, provided with a central inlet. and formed by a diffuser inlet section, adjacent to the cylindrical section, at the exit of which the annular fuel nozzle is soaked. About tl and h and cGa so that, in order to increase combustion stability and reduce energy consumption, the combustion chamber is equipped with an output confuser located behind the annular fuel nozzle, the opening angle of which is 70-90, the diameter of the central fuel nozzle is 0 , 33-0.5 of the chamber diameter twice the length of its cylindrical portion, and the opening angle of the diffuser portion is 90-180P. . Information sources,. .. taken into account in the examination 1. Copyright certificate of the USSR No. 606033, cl. F 23 D 13/00, 1976.