SU1025981A1 - Method of burning fuel in industrial furnace - Google Patents

Description

The invention relates to furnace heating technology and is used in industrial furnaces, mainly rotary, used for firing material in the refractory, construction and metallurgical industries.

According to the main author. St. No. 666411, a method is known for burning fuel in an industrial furnace, comprising supplying a jet of fuel and a jet of jet to a fuel volume.

The method is as follows.

E furnace volume 1 for firing refractory raw materials 2 from nozzles 3. supply jets of gas. Oxygen is supplied at a supersonic speed from nozzles 4 having a throttle 5.

Oxygen jets flowing out of the nozzle with a throttle at a supersonic speed form expanding ring jets, which ensures intensive and uniform mixing of oxygen and air. ”The resulting mixture enters the combustion chamber as a stream, where it interacts with gas jets flowing from the nozzle. ..

and in the known method, rather uniform mixing of air with oxygen is not ensured due to the small (7-8 °) opening angle of the kis-20 rock stream flowing out of the nozzle. This leads to uneven combustion of fuel in the volume of the combustion chamber and, accordingly, to a decrease in the flame temperature and a decrease in the heat transfer coefficient of 25 transmission.

The process of heat treatment with a low heat transfer coefficient leads to an increase in the duration of the β-process, and therefore, decrease ™ productivity of an industrial furnace.

The purpose of the invention is the intensification of heat transfer, from the torch to the calcined material by improving the mixture formation. hrs The specified goal is achieved by. that according to the method of burning fuel in an industrial furnace, oxygen is supplied by a rial with an expanding ring-shaped jet.

Thanks Enough, a large corner ^ --------- _? ---------, the _lines _ of the opening of the oxygen stream (more than 10) 40 rock in the form of an expanding annular ring provides the contact surface of oxygen particles necessary for good mixing with the air stream, As a result, a uniform oxygen-oxygen mixture is formed .45. . ___________,

When mixing homogeneous oxygen. The base makes it possible to intensify the air-to-air mixture with the Fuel jet in the “—— ··· - ^ unit of time — a larger (than in the known method) number of fuel particles • interacts with oxygen 50 (Rod, i.e. the process is intensified

4.. ' ... . ·

The heat transfer process will go even more intensively if gas jets are delivered at sonic or supersonic speeds. This helps to improve the mixing of the gas with an oxygen-air mixture, as well as to increase the flatness of the torch, i.e. its length over the processed mate _; '''

With the expiration of gas at a speed greater _? than 400 m / s and when a kisstroy is fed at a supersonic speed, the torch temperature rises by about 100 ° C compared with the subsonic speed of the gas.

Implementation of the proposed heat transfer process by improving the process of mixing. As a result of this, it increases significantly. · Furnace productivity - and specific fuel consumption decreases, “’ ”

Claims (2)

METHOD FOR BURNING FUEL IN INDUSTRIAL FURNACE By auth. No. 666411> The fact is that, in order to intensify the heat transfer from the torch to the material being burned by improving the process of mixture formation, oxygen is supplied by an expanding ring-shaped jet. burning fuel, the temperature of the torch rises. Increase in temperature, "the torch, achieved due to a good‘ mixture formation, leads to intensification of heat transfer from the torch to the material being burned " Pa fig. 1 schematically shows a device for implementing this ’method of burning fuel in a rotary ___________________ .......... furnace; in FIG. 2 - the device of oxygen in one direction and then sweating to obtain an expanding ring of air, while the oxygen stream is supplied at a sound or supersonic speed through the air stream at an acute angle to the fuel stream £ 1]. The heat transfer process depends on the quality of the oxygen-air mixture,