SU1820152A1 - Radiating gas burner - Google Patents

Description

The invention relates to the field of heat power engineering, in particular to devices for gas combustion.

The aim of the invention is to obtain high potential radiation in the space surrounding the burner.

The drawing shows the proposed> burner.

The burner consists of a nozzle 1, an injection chamber 2, a mixer and a diffuser 1 (3 / combustion chamber 4.containing a perforated metal shell 5 with a cover 6 and at the base connected to the outlet of the mixer - diffuser 3. Shell 5 is framed at a distance of 15 1 -3 mm outside the perforated metal shell 7 with holes 5-15 times larger than the critical ones, and this, in turn, with the perforated metal shell 8 at a distance of 5-10 mm 2 (along the radius (from the shell 7) having holes 20 -60 times more critical.

The gas supplied to the injector flows into the gas-air mixer-diffuser, capturing the air necessary for combustion. In the mixer-diffuser, gas and air are mixed and the required pressure of the gas-air mixture in front of the combustion chamber is provided. 3 (

Gas-air mixture falling into the lid. is evenly distributed in the combustion chamber and flows through the shell 5. creating a field of microflakes on the outer surface when igniting, I heat up - 3! casing 7, which is the main source of infrared radiation. The shell 8 serves as an intensifier and stabilizers of radiation. Shell 5. having holes less than critical, protects 4 (protects the burner from overshoot. The radiation temperature of the burner reaches about 950 ° C, and shell 8 contributes to an increase in temperature to 50 ° C compared to operation without it at the same gas consumption.

So the use of this device> allows to obtain high-potential radiation in the space surrounding the burner /

Claims (1)

Claim Radiating gas burner containing an injection mixer with a diffuser at the outlet and a radiator connected to it, made in the form of inner, intermediate and outer cylindrical shells coaxially installed with annular gaps, while the inner and intermediate shells are made of metal and are perforated with holes with an increasing flow area along the flow, and the annular gap formed by them is made damped at the ends, characterized in that, in order to obtain high-potential radiation in the space surrounding the burner, the inner shell is damped from the outlet end, the inlet end is connected to the mixer and has perforations with a flow section, smaller than the critical flamethrough, the outer shell is made of metal and perforated with a perforation flow area exceeding the critical one by 20-60 times, the intermediate shell perforations are made with a flow cross-section exceeding the critical one by 5-15 times h, and the width of the annular gaps is made increasing from the center to the periphery and constituting 1-3 mm and 5-10 mm, respectively.