SU523245A1 - Burner - Google Patents

Description

one

The invention relates to furnace technology and can be applied in high-power reactant boilers operating on gaseous and liquid tollens, as well as in various technological devices that consume heat from fuel combustion (substance, chemical reactors such as killers, etc.). .

Known combustion devices that use pulsating combustion chambers (CNG) are used to intensify fuel combustion 1. Device 2 is also known, comprising a housing with an air inlet pipe and CNG mounted along the axis of the housing, in which to intensify the flare combustion of coal dust and the torch imposes gas flow pulsations created by the auxiliary CNG 2. However, the mechanical series connection of the CNG and the conventional torch to intensify the flare does not fully utilize pulsating combustion properties, since the torch is applied only ua vneschiee field generated CPG, while pulsating flow vysokoturbulizirovanny b resonance tube is not used. In addition, a significant part of the acoustic energy of the CNG, spread over the volume of the firebox, is absorbed by the boiler structures, causing them to vibrate.

The aim of the invention is to intensify the combustion processes and control the parameters of the flame.

This is achieved by the fact that in the wall of the resonant tube two nozzles are fixed, connected to oil and gas pipelines, and along the chamber axis, an air inlet pipe connected to the inlet end with the body cavity is installed with a possibility of longitudinal movement.

The drawing schematically depicts the described burner.

The burner consists of a housing 1 with an air supply, a pulsating combustion chamber containing a resonant tube 2 and a combustion chamber 3, through which the fuel oil nozzles 4, gas nozzles 5 and aerodynamic valves 6 are inserted. The primary air tube 7 is installed along the CNG axis and the cavity CNG resonant pipes are introduced by the main fuel oil nozzle 8 and the main gas nozzles 9. The burner structural elements located in the high-speed zone are made of heat-resistant material or water-cooled.

The burner works as follows.

Air is supplied to the burner housing 1, which is filled with CNG through the aerodynamic valves 6. A source of ignition is introduced into the cavity of the combustion chamber 3 (not shown in the drawing) and fuel is supplied: fuel oil — through nozzles 4 or gas — through nozzles 5. The fuel is ignited. By regulating the air flow rate and the fuel, the CNG is put into pulsation mode. Then the main fuel is fed into the cavity of the resonant tube 2: fuel oil through nozzles 8 or gas through nozzles 9. The air required for gasification of the fuel flows through the primary air tube 7, which is installed to move along the CNG axis, changing the size of the gasification zone for each mode burner work. The length of pipe 7, acoustically open at both ends, is chosen so that its resonant frequency is equal to the frequency of CNG. This embodiment contributes to the creation at the exit section of the pipe 7 transverse vibrations, additionally turbulizing the gas flow and intensifying the process of gasification of the fuel. Fuel oil entering through the nozzles 8 enters a high-temperature turbulized pulsating flow with significant sign: alternating shifts of the medium, intensively sprayed and subjected to heat treatment followed by gasification. The gasified fuel at the cut of the resonant tube 2 moves intensively with secondary air and burns in a plume on which the acoustic field generated by the CNG is superimposed.

Claims (1)

Invention Formula A burner comprising a housing with an air inlet pipe and a pulsed burning chamber with a resonance tube installed along the axis of the housing and equipped with fuel injection devices, which, in order to intensify the combustion processes and control the parameters of the torch, are reinforced in two walls Yes, the nozzles connected to the mazuto-gas pipelines, and along the axis of the chamber, the air supply tube is connected with the possibility of longitudinal movement, communicating with the inlet end with the body cavity. Sources of information taken into account in the examination: 1 Journal of "Thermal Engineering № 9, 1965, p. 23-26. Auth. St. No. 217582 cl. F 23 D 1/02 1965. I have I