RU1814015C - Heat generator - Google Patents

Abstract

Use: for heating air when drying grain, hay, etc. SUMMARY OF THE INVENTION: a heat generator comprises a housing with a combustion chamber coaxially located inside and a burner with a gas supply pipe connected to the fan duct by an air pipe and having a pipe for exhausting combustion products. A gas turbine is additionally installed in the fan duct on the same axis with it, and the combustion chamber additionally contains a swirl, and holes are made in its end wall facing the air flow. Around the housing is an additional secondary air duct, made in the form of a shell with internal heat exchange fins. 2 ill.

Description

The invention relates to heating devices used to heat air, and can be used to dry grain, hay, and straw.

The purpose of the invention is to increase operational reliability and efficiency by eliminating local overheating and reducing specific metal consumption,

SUMMARY OF THE INVENTION is a drawing, in which Fig. 1 shows a heat generator, a longitudinal section; Fig. 2 is a cross-sectional view of a blowing apparatus installed in front of a firebox.

The heat generator comprises an air supply housing 1 with a fan impeller 2 and a gas turbine 3 placed with it on a common axis and placed in a sealed chamber. The fan 2 and gas turbine 3 have a common bearing assembly 4. By means of an adapter 5, the air supply housing 1 is connected to the dilution chamber 6, along the axis of which there is a combustion chamber 7 with a nozzle 8 having fuel outlet openings. Gas to nozzle

8 is led through a conduit 9 from a sealed chamber 10 of the gas turbine 3. The chamber 6 is equipped with a nozzle 11 connected to a pipeline for supplying hot air to drying places or for other technological operations. The chamber 6 is equipped with star-shaped ribs 12, providing structural rigidity and efficient heat transfer to the flow of injected air in the outer chamber 13.

The heat generator operates as follows.

The air pumped by the impeller of the fan 2, which is rotated due to the energy of the gas jets supplied to the blades of the gas turbine 3, enters through the adapter 5 into the axis chamber of which the combustion chamber 7 with the nozzle 8 is placed. At the same time, flammable gas is supplied to the nozzle 8 in the chamber 7 having holes in the end. At the exit from the chamber 7, the product is diluted. burn with a stream of air flowing around the chamber 7 from the outside. It leads

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to reduce the temperature of the combustion products, directed by the gas flow to the exit of the chamber 6. Additional dilution of the combustion products is carried out by injecting cold air from the environment through the inlet of the external chamber 13. The air entering the chamber 13 takes away some of the heat from the walls chambers 6 and ribs 12 and is thus preheated.

Moreover, it is very significant that the walls of the chamber 7, heated by a torch to; high temperature, essentially shielded from the outer surfaces of the heat source by two concentric air flows directed to the outlet of the heat source to the pipe 11. This ensures that the temperature of the external walls to the maximum permissible norm. However, the air flow supplied by the fan 2, while maintaining It moves in a channel that does not have transverse partitions, which makes it possible to use its energy most rationally. The products of gas combustion, diluted with a certain amount of air, are a working medium that provides intensification of drying of hay or straw under agricultural production conditions. When using a piezoelectric ignition system, it is possible to ensure the operation of a generator equipped with only a cylinder. For liquefied gas in the field at any distance from the power line,

the need for which does not arise at all.

Among the advantages of the proposed heat generator should include:

- independent of the availability of power to rotate the fan motor;

- the most rational placement of the combustion chamber along the axis of the flow;

- a relatively simple configuration of concentric parts;

- high uniformity of the heat flux at the outlet of the heat generator;

- low heating temperature of the outer surface of the heat generator.

SUMMARY OF THE INVENTION A heat generator Shchurkina EP. Comprising a housing with a combustion chamber coaxially located inside and a burner with a gas supply pipe, connected to the fan duct by an air pipe and having a pipe for exhausting combustion products, characterized in that , in order to increase operational reliability and efficiency, a gas turbine is additionally installed in the duct of the fan ba on the same axis with it, and the combustion chamber additionally contains a swirl and in its end wall facing the air flow are made holes, and around the casing an additional secondary air duct is located, made in the form of a shell with internal heat-exchange fins.