SU1666899A1 - H4eat-generator - Google Patents

Abstract

The invention makes it possible to increase the economics by increasing the heat output and intensifying the combustion of fuel and can be used in installations for drying various materials. In the box 1 with a tangential air inlet pipe 2, a cylindrical insert 3 is installed, fitted along the periphery of tangentially arranged strips 4, and at the exit with a cone-shaped diaphragm 5 having an output slice diameter equal to 0.65 ... 0.80 of the inner diameter of the insert 3 The insert 3 is provided with a lid 6 and communicates with the afterburning and mixing chamber 8 having an annular channel 9. When the heat generator is operating, air is pumped through duct 2 through the nozzle 1. Part of the air enters the cooling of the lid 6 and chamber 8, and the main part ha enters the box 3 where swirl bars 4 and mixed with a gaseous or atomised liquid fuel. The backflows formed in the center of the insert 3 contribute to the intensive mixing and heating of the fuel, in connection with which a high thermal intensity of the combustion space is achieved, which provides an increase in the heat output and increases the efficiency of the heat generator. 2 Il.

Description

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The invention relates to a technique for producing a coolant and can be used for drying various materials, as well as in other power plants using a coolant formed by burning liquid and gaseous fuels.

The aim of the invention is to increase the economy by increasing the heat output and intensifying the combustion of the fuel.

In Fig.1 schematically shows a heat generator, a longitudinal section; figure 2 - section aa in figure 1.

The heat generator contains a duct 1 with a tangential air supplying nozzle 2 and a guide cylindrical insert 3 installed inside the duct 1, fitted along the periphery of tangentially arranged strips 4. The outlet portion of the insert 3 is equipped with a cone-shaped diaphragm 5, the diameter of the output slice of which is 0.65 - 0.8 of internal diameter insert 3.

The insert 3 has a cover 6, is connected to the fuel supply system 7 and communicates with the afterburning and mixing chamber 8 having an annular cooling air supply channel 9. A fan 10c is connected to the nozzle 2 by control valves 11.

The heat generator works as follows

. Air is blown by the fan 10 into the duct 1 through the tangential nozzle 2. A part of the air enters the cooling of the lid 6 and - through the annular channel 9 - to the cooling of the afterburning and mixing chamber 8, and the main part of the air is supplied

insert 3, where the passage through the slits between the strips 4 is intensively twisted and mixed with gaseous or atomized liquid fuel. The backflows formed in the center of the insert 3 contribute to the intensive mixing and heating (gasification) of the fuel, and therefore the high heat density of the combustion space is achieved, which makes it possible

reduce the size and intensity of the heat generator. From the insert 3, the products of gasification of fuel combustion through the cone-shaped diaphragm 5 are thrown into the afterburning and mixing chamber 8.

Thus, in the described heatgenerator, an increase in the heat output, the heat capacity of the combustion space and an increase in the range of regulation are provided.

heat production due to the intensification of the combustion process, as well as the reduction of material consumption, which increases the efficiency of its work.

Claims (1)

Invention Formula A heat generator containing a duct with a tangential air inlet duct and a guide cylindrical insert installed inside the duct, fitted around the periphery of tangentially located strips, characterized in that, in order to increase efficiency by increasing heat output and intensifying fuel combustion, the insert outlet section is provided with a cone-shaped diaphragm, the output slice of which is equal to 0.65 .0.80 inner diameter of the insert. 2