RU186341U1 - GAS HEATING DEVICE - Google Patents

Abstract

The utility model relates to the field of heat engineering and can be used in various industries. A gas heating device comprises an annular combustion chamber, the cavity of which is formed by an end wall with a fuel supply pipe, an end wall with a flue gas pipe, an outer cylindrical wall and an inner cylindrical wall, between which there is a first cylindrical perforated partition that forms an ignition zone with an inner cylindrical wall flue gas generation fuel, a pipe for supplying air from the atmosphere, and a gas heating chamber, the cavity of which is internally formed cylindrical wall pipe for supplying the cold gas and the hot gas outlet pipe. The device is arranged to recover the heat of flue gases. The utility model is aimed at additional use of the heat of the exhaust flue gases. 4 s.p. f-ly.

Description

The utility model relates to the field of heat engineering and can be used in various industries, for example, metallurgy, engineering, building materials industry for heating nitrogen, hydrogen, inert gases for use as protective media for heating, as well as air heating for use in heating technologies and in air heating systems for industrial and domestic premises.

A device for heating is known, comprising an annular combustion chamber, the cavity of which is formed by an end wall with a fuel supply pipe, an end wall with a flue gas pipe, an outer cylindrical wall and an inner cylindrical wall, between which a first cylindrical perforated partition forms a zone with an inner cylindrical wall ignition of flue gas fuel, a pipe for supplying air from the atmosphere, and a gas heating chamber, the cavity of which is formed a crumpled inner cylindrical wall, a cold gas inlet pipe and a heated gas outlet pipe (RU 2514810, 2014),

The device has a low fuel efficiency due to heat loss from the exhaust flue gases.

The utility model is aimed at additional use of the heat of the exhaust flue gases.

To achieve the indicated technical result, a gas heating device is proposed comprising an annular combustion chamber, the cavity of which is formed by an end wall with a fuel supply pipe, an end wall with a flue gas pipe, an outer cylindrical wall and an inner cylindrical wall, between which the first cylindrical perforated partition is located, forming with the inner cylindrical wall a zone of ignition of the fuel of formation of flue gases, a pipe for supplying air from the atmosphere phera, and a gas heating chamber, the cavity of which is formed by the aforementioned inner cylindrical wall, a cold gas supply pipe and a heated gas discharge pipe, and it is configured to recover the heat of the flue gas.

To recover the heat of the flue gases, the device is equipped with a fan, the outlet from which is connected by a gas duct to the cavity between the said outer cylindrical wall and the first cylindrical perforated partition, and the inlet to the said fan is connected to the flue gas exhaust pipe by an additional gas duct and to the said air supply pipe from the atmosphere.

The annular combustion chamber is equipped with a second cylindrical perforated baffle, forming with the outer cylindrical wall an intermediate combustion zone and with the inner cylindrical wall a fuel afterburning zone with the formation of flue gases, located in front of the flue gas outlet pipe.

The gas heating chamber is provided with a third cylindrical perforated baffle located in front of the cold gas inlet outlet and forming a gas heating zone with an inner cylindrical wall.

The gas heating chamber is equipped with a fourth cylindrical perforated partition located in front of the entrance to the hot gas outlet pipe and forming an additional gas heating zone with an internal cylindrical wall.

The utility model is illustrated by the figure of a drawing of a device for heating gas.

A device for heating gas, comprises an annular combustion chamber 1, the cavity of which is formed by an end wall with a fuel supply pipe 2, an end wall with a flue gas pipe 3, an outer cylindrical wall 4 and an inner cylindrical wall 5, a gas heating chamber 6, the cavity of which is formed by an internal a cylindrical wall 5, a pipe 7 for supplying cold gas and a pipe 8 for removing hot gas, a fan 9, the output of which is connected to the cavity of the combustion chamber 1 by a gas duct 10, and the input is connected to an additional gas duct 11 and with a pipe 12 for supplying air from the atmosphere.

The fan 9 is designed for the recovery of flue gas (for afterburning in the combustion chamber 1 of the products of incomplete combustion, which are part of the flue gas).

In the cavity of the combustion chamber 1 in the direction from the end wall with the fuel supply pipe 2 to the end wall with the flue gas pipe 3 between the outer cylindrical wall 4 and the inner cylindrical wall 5, there is a first cylindrical perforated partition 13 and a second cylindrical perforated partition 14.

On the side of the end wall with the fuel supply pipe 2, the outer wall 4 is connected by a gas duct 10 to the outlet of the fan 9 and forms a manifold for supplying a mixture of air and flue gases with the first partition 13, which forms a fuel ignition zone with an inner cylindrical wall 5.

On the side of the end wall with the flue gas outlet pipe 3, the outer wall 4 forms an intermediate combustion zone with a second partition 14, which with the inner cylindrical wall 5 forms the afterburning zone of incomplete combustion products.

The mixture of air and flue gases enters the fuel ignition zone from the gas duct 10 through the openings of the first partition 13 in the form of radial jets acting on the surface of the inner cylindrical wall 5, which contributes to the evaporation of fuel and the beginning of diffusion combustion, which continues in the intermediate afterburning zone.

In the afterburning zone, products of incomplete combustion of flue gas enter through the openings of the second partition 14 in the form of radial jets acting on the surface of the inner cylindrical wall 5, which contributes to an increase in the completeness of combustion due to their turbulization. It is a mixture of air and flue gases in the form of radial jets.

In the cavity of the chamber 6, the gas heating is formed by the inner wall 5 of the combustion chamber 1, which is on the one hand connected to the cold gas supply pipe 7, and on the other hand is connected to the hot gas discharge pipe 8.

A third perforated cylindrical partition 15 is located in the cavity of the heating chamber 6 from the side of the cold gas inlet 7, and a fourth perforated cylindrical partition 16 is located on the side of the hot gas outlet 8.

From the pipe 7, cold gas is preliminarily supplied inside the third partition 15, the openings of which create radial jets for the gas preheating zone by heat exchange through the inner wall 5 with flue gases, respectively, in the afterburning zone, and then it is fed into the fourth partition 16, the openings of which create radial jets for the zone of the final heating of the gas due to heat exchange through the inner wall 5 with flue gases, respectively, in the ignition zone, before the heated gas is supplied, the branch pipe 8 bringing gas.

A device for heating gas works as follows.

Air is taken from the atmosphere by the fan 9 and mixed with flue gases from the gas duct 8 is supplied to the input zone of the annular combustion chamber 1, formed by the outer wall 12 and the perforated partition 14, through which the hole system is directed by jets perpendicular to the surface of the inner cylindrical wall 13 of the intermediate zone along which fuel comes from the nozzle. In the interaction of fuel with a system of jets of air-smoke mixture and it is ignited using an electric igniter (not shown).

In the annular combustion chamber 1, a system of diffusion flames organizes the combustion of fuel on the surface of the inner cylindrical wall 13 with a high heat flux density while minimizing the formation of nitrogen oxides under combustion conditions with a lack of air. Next, the combustion products through a perforated partition enter the intermediate recovery zone in the form of a system of high-speed jets perpendicular to the outer surface of the inner cylindrical wall 13.

Cold gas enters the heating chamber 5 from the nozzle 6 through the openings of the perforated cylindrical partition 16 in the form of a system of jets perpendicular to the inner surface of the inner cylindrical wall. Cold gas flowing out of the openings of the partition 16 after colliding with the inner surface of the inner cylindrical wall 13 of the heating chamber forms a system of fan jets that efficiently absorb the heat given off by the flue gases from the end wall with the flue gas outlet pipe in the exit zone of the annular combustion chamber 1. Further, for additional heating, the gas enters through the holes of the perforated cylindrical partition 17 in the form of a system of jets perpendicular to the heat-transferring inner surface of the housing of the heating chamber, into the zone of the combustion chamber, where it is heated to high temperatures and is removed through the pipe 8.

Claims (5)

1. A device for heating gas, containing an annular combustion chamber, the cavity of which is formed by an end wall with a fuel supply pipe, an end wall with a flue gas pipe, an outer cylindrical wall and an inner cylindrical wall, between which there is a first cylindrical perforated partition forming with an inner cylindrical wall of the zone of ignition of the fuel of the formation of flue gases, a pipe for supplying air from the atmosphere, and a gas heating chamber, the cavity of which is formed mentioning Uta inner cylindrical wall, nozzle for supplying the cold gas and the hot gas outlet pipe, characterized in that it is adapted to recover flue gas heat. 2. A device for heating gas under item 1, characterized in that for the recovery of flue gas heat it is equipped with a fan, the outlet of which is connected by a gas duct to the cavity between the outer cylindrical wall and the first perforated cylindrical wall, and the inlet of the said fan is connected to the nozzle removal of flue gases by an additional gas duct and with the mentioned pipe for supplying air from the atmosphere. 3. A device for heating gas according to claim 2, characterized in that the annular combustion chamber is provided with a second cylindrical perforated baffle, forming an intermediate combustion zone with an outer cylindrical wall and a fuel afterburning zone with the formation of flue gases, located in front of the flue gas outlet pipe gases. 4. A device for heating gas according to claim 3, characterized in that the gas heating chamber is provided with a third cylindrical perforated partition located in front of the outlet from the cold gas supply pipe and forming a gas heating zone with an inner cylindrical wall. 5. A device for heating gas according to claim 4, characterized in that the gas heating chamber is provided with a fourth cylindrical perforated partition located in front of the entrance to the hot gas outlet pipe and forming an additional gas heating zone with an internal cylindrical wall.

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