SU378682A1 - RADIATION GAS BURNER - Google Patents

Description

one

The invention relates to gas burners and can be used in the combustion devices of various thermal units.

Radiation gas burners are known, comprising a housing with a gas distribution chamber and a porous ceramic emitter, and a combustion stabilizer with channels smaller than the critical flames through the flame is installed between the chamber and the emitter. The presence of a combustion stabilizer in these burners complicates them, leading to increased hydraulic resistance. In addition, when installing a stabilizer, gaps between it and porous ceramics are possible, temperature expansions of the burner elements in the process of heating and cooling can lead to this. The gas-air mixture, found with porous ceramics and stabilizer in the gap, can be ignited by the heated inner surface of the ceramics, which causes "cotton in the mixing chamber."

The aim of the invention is to simplify the design of the burner and increase its reliability.

For this, the ceramic emitter is made of an alternating, porous and gas-tight element (prism), and the total cross-sectional area of the porous element increases as it approaches the radiating surface.

The drawing shows the proposed burner, a longitudinal section.

The burner has a housing / with a nozzle 2 for supplying a combustible gas-air mixture, a gas distribution chamber 3 and a ceramic radiator assembled from porous 4 and gas-tight 5 elements (prisms).

The combustible mixture through pipe 2 is fed into the gas distribution chamber 3 and through the porous prisms 4 passes to the radiating surface of the burner, where it is ignited. First, combustion takes place on the surface of porous ceramics, and then as it warms up it goes inside porous prisms 4. Due to the fact that the cross section of porous prisms 4 increases as you approach the radiating surface, the velocity of the combustible mixture decreases accordingly, and at the radiating surface of the burner it approximately equal to the speed of flame propagation.

The cross section of porous prisms is selected in such a way that, with given fluctuations in the flow rate of the combustible mixture, its velocity in the smallest section exceeds the flame propagation velocity. This eliminates the possibility of leakage of flame into the burner body. The emitting surface of the burner cracks and intensely radiates heat to the heated objects.

The configuration of the radiating surface of the burner is carried out in accordance with the technological requirements.

Subject invention

A radiation gas burner comprising a housing with a gas distribution chamber and

a ceramic radiator, characterized in that, in order to simplify the construction and increase reliability, the radiator is made of alternating porous and gas-tight elements, and the total cross-sectional area of the porous elements increases as it approaches the radiating surface.