RU183318U1 - GAS THERMAL CLEANING DEVICE - Google Patents

Abstract

Thermal gas cleaning device is designed to destroy gaseous waste or harmful gases. The device comprises a combustion chamber with a mesh metal core (1) made of heat-resistant metal. The core (1) is installed inside a cylindrical body (2) made of heat-resistant concrete. A copper spiral winding (3) is placed in the wall of the housing (2), made with an internal channel for the flow of coolant. Improving the reliability of the device in operation and the degree of gas purification is achieved by designing a combustion chamber in the form of a high-frequency induction heating chamber with a mesh metal core made of heat-resistant metal installed inside a cylindrical body made of heat-resistant concrete, in the wall of which there is a copper spiral winding made with an internal a channel for the flow of coolant, while the combustion chamber is coaxially mounted inside a cylindrical external chamber having hney opening portion for air passage, and the admixing device is provided with a fan with a drive motor and has a channel for supplying a portion of gas flow from the external device chamber into the inner chamber disposed at the combustion chamber inlet. 2 s.p. f-ly, 2 ill.

Description

The utility model relates to devices for the destruction of industrial waste by burning, in particular to devices for the destruction of gaseous waste or harmful gases, and can be used for thermal purification of gases.

A device for thermal cleaning of gases is described in the patent of the Russian Federation No. 2554965 for the invention "Installation of thermal cleaning of the exhaust air" according to class F23G 7/06, filed March 9, 2011 and published July 10, 2015.

This device comprises a combustion chamber and a heat exchanger for transferring heat from the purified gas generated in the combustion chamber to the raw gas supplied to the combustion chamber, the heat exchanger having an internal heat exchange chamber for flowing of an internal fluid and an external heat exchange chamber for flowing of an external fluid, a bypass device with a separation device by which a part of the external fluid stream in the form of a bypass fluid stream is separated from eshnego residual fluid flow and shunt device through which the bypass fluid flow is mixed back into the remainder of the fluid flow after it has passed the portion of the outer heat-exchange chamber, and the bypass device has a bypass channel annularly encompassing path residual fluid flow.

The mixing device has at least one mixing point, which extends annularly in at least half of the contour of the residual fluid flow, or several mixing points distributed over the mixing region. The mixing device is located upstream from the outlet of the external fluid from the external heat exchanger chamber or upstream from the inlet of the residual flow into the external heat exchanger chamber. The external heat exchange chamber is configured to allow untreated or purified gas to flow.

The bypass device has at least one throttle element made in the form of a flow barrier with through holes. The separation device has a bypass damper for controlling the bypass fluid flow to the bypass device and a heat exchanger damper for controlling the residual fluid flow to the heat exchanger. The bypass damper and the heat exchanger damper are connected to each other mechanically or in an automatic control system.

A disadvantage of the known device is the unsatisfactory reliability and degree of gas purification, due to the complexity of its design and the fact that for the thermal purification of industrial polluted gases, natural gas is burned, which does not guarantee the cleanliness of the air leaving the device and also pollutes it with a carbon monoxide product.

The objective of the claimed utility model is to increase the reliability of the device for thermal gas purification in operation and the degree of gas purification.

The technical result that allows us to solve this problem is to maintain the optimal heating temperature in the combustion chamber and to eliminate the appearance of natural gas combustion products in the purified gas through the use of high-frequency induction heating mechanism.

The specified result is achieved by the fact that:

1. In a device for thermal purification of gases containing a combustion chamber, an internal chamber for flowing an internal fluid flow, an external chamber for flowing an external fluid flow, and also a mixing device for supplying a part of the external fluid flow, according to a utility model, the combustion chamber is made in the form of a high-frequency induction heating chamber with a mesh metal core made of heat-resistant metal installed inside a cylindrical body made of heat-resistant concrete, in The copper of which is placed a copper spiral winding made with an internal channel for the flow of coolant, while the combustion chamber is coaxially mounted inside the cylindrical external chamber having in the upper part of the hole for the passage of atmospheric air, and the mixing device is equipped with a fan with a drive motor and has a channel for supplying part of the gas flow from the external chamber of the device into the inner chamber located at the inlet of the combustion chamber.

2. In the device according to claim 1, according to the utility model, the channel of the mixing device is helically wrapped around the combustion chamber.

3. In the device according to claim 1, according to the utility model, the core is removable.

The implementation of the combustion chamber in the form of a high-frequency induction heating chamber with a mesh metal core made of heat-resistant metal mounted inside a cylindrical body made of heat-resistant concrete, in the wall of which is placed a copper spiral winding made with an internal channel for coolant to flow, the combustion chamber is coaxially mounted inside a cylindrical external chamber having, in the upper part of the opening for the passage of atmospheric air, a supply of an additive benefits by a fan with a drive motor and a channel for supplying a part of the gas flow from the external chamber of the device to the internal chamber located at the inlet of the combustion chamber, makes it possible to simplify the thermal treatment of gases, maintain an optimal heating temperature in the combustion chamber and eliminate the appearance of natural gas combustion products in purified gas through the use of high-frequency induction heating mechanism. All this makes it possible to increase the reliability of the device for thermal gas purification in operation and the degree of gas purification.

In this case, the channel of the mixing device can be made spiral wrapping around the combustion chamber.

In this case, the core can be made removable.

The proposed set of essential features informs the claimed device for thermal gas purification of new properties that allow to solve the problem.

The inventive device for thermal purification of gases has a novelty in comparison with the prototype, differing from it in that:

1. the combustion chamber is made in the form of a high-frequency induction heating chamber with a mesh metal core made of heat-resistant metal mounted inside a cylindrical body made of heat-resistant concrete, in the wall of which is placed a copper spiral winding made with an internal channel for coolant to flow, while the combustion chamber coaxially mounted inside a cylindrical external chamber having in the upper part of the hole for the passage of atmospheric air, and the mixing device is sn bzheno fan with drive motor and has a channel for supplying a portion of gas flow from the external device chamber into the inner chamber disposed at the combustion chamber inlet,

2. the channel of the mixing device is made spiral wrapping around the combustion chamber,

3. The core is removable.

The inventive utility model can be widely used in devices for the destruction of industrial waste by burning, in particular, in devices for the destruction of gaseous waste or harmful gases, and can be used for thermal purification of gases, therefore, it meets the criterion of "industrial applicability".

The inventive utility model is illustrated by drawings, which are presented on:

FIG. 1. General view of the device for thermal cleaning of gases in the context.

FIG. 2. Top view of the gas thermal treatment device.

The thermal gas purification device shown in the drawings (see Fig. 1, 2, 3) contains a combustion chamber with a mesh metal core 1 made of heat-resistant metal, in particular, KhN45Y chromium-nickel alloy with a working temperature of 1200-1300 ° C. The core 1 is installed inside a cylindrical body 2 made of heat-resistant concrete. The core 1 is removable. In the wall of the housing 2 there is a copper spiral winding 3 made with an internal channel for the flow of coolant, the source of which and the feed channel to the winding 3 are not shown in the drawings. The combustion chamber is a high-frequency induction heating chamber, its spiral winding 3 is connected to a high-frequency current source (not shown in the drawings).

The combustion chamber is coaxially mounted inside the cylindrical external chamber 4, having in the upper part of the hole 5 for the passage of atmospheric air. At the entrance of the combustion chamber is located the inner chamber 6, having the shape of a truncated cone and connected to the source of contaminated gas - pipe 7.

The mixing device is equipped with a fan 8 with a drive motor 9 and has a channel 10 for supplying a part of the gas flow from the external chamber 4 of the device to the internal chamber 6. The channel 10 of the mixing device is helically wrapped around the combustion chamber.

The operation of the thermal gas cleaning device is as follows.

The operator connects the spiral winding 3 of the combustion chamber to a high frequency current source (not shown in the drawings). Due to induction heating, the mesh metal core 1 heats up and heats the contaminated gas passing through it, which heats up to a high temperature, while the contaminants present in it are burned.

For better gas cleaning, the operator turns on the engine 9, which starts to rotate the fan 8 of the mixing device. The fan 8 takes part of the gas from the external chamber 4 of the device and through the spiral channel 10 of the mixing device directs the gas to the inner chamber 6. The gas passing through the channel 10 is heated from the combustion chamber, and getting through the inner chamber 6 into the combustion chamber, contributes to better combustion pollution, because in it due to the influx of atmospheric air the oxygen content is higher than in the contaminated gas entering the inner chamber 6 from the pipe 7.

The claimed utility model in comparison with the closest analogue is more reliable in operation and has a higher degree of gas purification by maintaining the optimum heating temperature in the combustion chamber and eliminating the appearance of natural gas combustion products in the purified gas, provided by the use of high-frequency induction heating.

In addition, the inventive device for thermal gas cleaning is more economical, since it does not require the burning of large volumes of natural gas for air purification from pollution.

Claims (3)

1. A device for thermal purification of gases, comprising a combustion chamber, an internal chamber for flowing an internal fluid flow, an external chamber for flowing an external fluid flow, and a mixing device for supplying a portion of the external fluid flow, characterized in that the combustion chamber is designed as chambers of high-frequency induction heating with a mesh metal core made of heat-resistant metal mounted inside a cylindrical body made of heat-resistant concrete in the wall a copper spiral winding is placed, made with an internal channel for coolant flow, while the combustion chamber is coaxially mounted inside a cylindrical external chamber having at the top of the hole for the passage of atmospheric air, and the mixing device is equipped with a fan with a drive motor and has a channel for supplying parts gas flow from the external chamber of the device to the internal chamber located at the inlet of the combustion chamber. 2. The device according to p. 1, characterized in that the channel of the mixing device is made spiral wrapping around the combustion chamber. 3. The device according to p. 1, characterized in that the core is removable.

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