CN112594703A - Small-size three-dimensional combustion chamber waste incinerator - Google Patents

Abstract

The invention discloses a small-sized three-dimensional combustion chamber garbage incinerator; the incinerator uses the periphery of a combustion chamber as a combustion chamber, thereby avoiding the heat loss of the combustion chamber and strengthening the pyrolysis temperature of the combustion chamber; a combustion-supporting air preheating layer is arranged at the periphery of the two combustion chambers, so that heat loss of the two combustion chambers is avoided, and combustion-supporting air is heated, so that combustion supporting and temperature rising of the first combustion chamber and the second combustion chamber are facilitated; the high-temperature flue gas from the two combustion chambers passes through an air cooling heat exchanger, combustion-supporting air is heated by the heat exchanger to replace partial heat in the flue gas, and then enters the air preheating layer, the first combustion chamber and the second combustion chamber respectively in the tangential direction, so that the heat generated by garbage incineration is sent back to the furnace to the maximum extent, the heat in the first combustion chamber and the second combustion chamber is accumulated continuously, the first combustion chamber and the second combustion chamber do not need to support combustion any more, and the stable operation can be realized; thereby achieving the purposes of saving energy and reducing the operating cost.

Description

Small-size three-dimensional combustion chamber waste incinerator

Technical Field

The invention relates to the technical field related to an incinerator, in particular to a small-sized three-dimensional combustion chamber garbage (medical life) incinerator.

Background

It is usually designed and produced into small (medical/domestic) garbage incinerator with one combustion chamber and two combustion chambers. The small (medical/domestic) garbage is firstly put into a combustion chamber, and is pyrolyzed and gasified under the conditions of combustion supporting by fuel oil or natural gas and air introduction, wherein the pyrolysis temperature is usually not lower than 850 ℃. The flue gas generated by pyrolysis contains a large amount of combustible materials such as organic waste gas, but the concentration of the combustible materials in the flue gas usually cannot reach the spontaneous combustion concentration. The smoke is introduced into a combustion chamber of another device, and under the condition of supporting combustion by fuel oil or natural gas and introducing air, combustible substances in the smoke are thoroughly combusted and decomposed into inorganic substances and water. The combustion temperature of the two combustion chambers is not lower than 850 ℃, and the residence time of the flue gas at the temperature is not lower than 2 seconds. To maintain stable combustion in the first and second combustion chambers, it is necessary to continuously consume fuel oil or natural gas. When the first and second combustion chambers are in operation, heat is continuously dissipated to the periphery, which causes heat loss.

Disclosure of Invention

Therefore, in order to solve the above-mentioned disadvantages, the present invention provides a small-sized vertical combustion chamber garbage (medical life) incinerator; the incinerator uses the periphery of a combustion chamber as a combustion chamber, thereby avoiding the heat loss of the combustion chamber and strengthening the pyrolysis temperature of the combustion chamber; a combustion-supporting air preheating layer is arranged at the periphery of the two combustion chambers, so that heat loss of the two combustion chambers is avoided, and combustion-supporting air is heated, so that combustion supporting and temperature rising of the first combustion chamber and the second combustion chamber are facilitated; the high-temperature flue gas from the two combustion chambers passes through an air cooling heat exchanger, combustion-supporting air is heated by the heat exchanger to replace partial heat in the flue gas, and then enters the air preheating layer, the first combustion chamber and the second combustion chamber respectively in the tangential direction, so that the heat generated by garbage incineration is sent back to the furnace to the maximum extent, the heat in the first combustion chamber and the second combustion chamber is accumulated continuously, the first combustion chamber and the second combustion chamber do not need to support combustion any more, and the stable operation can be realized; thereby achieving the purposes of saving energy and reducing the operating cost; the air enters the air preheating layer in the tangential direction, so that the heating time of the air is prolonged and the air is uniform; air enters the first combustion chamber and the second combustion chamber in a tangential direction, so that airflow in the furnace is rotated, combustion-supporting air and flue gas are fully mixed, and pyrolysis is more thorough; the air preheater, the combustion chamber and the secondary combustion chamber are integrated into a whole, so that energy is saved, the whole set of equipment is more compact, the equipment is convenient to transport and use in the field, and the equipment is used for on-site waste incineration treatment in field engineering projects, disaster sites, ships and the like.

The invention is realized in this way, construct a small-scale stereoscopic combustion chamber rubbish (medical treatment and living) incinerator, characterized by that; the device is provided with a feed hopper, a feed door, a first combustion chamber, a second combustion chamber, a blower, a smoke outlet, a second combustion chamber burner, a first combustion chamber air inlet channel, a slag outlet, a furnace bridge, a smoke outlet channel, a second combustion chamber smoke inlet, a second combustion chamber air inlet, an air preheating layer and an air cooling heat exchanger;

the first combustion chamber is positioned in the inner cavity of the second combustion chamber, and the top of the first combustion chamber is provided with a feed hopper; the first combustion chamber is communicated with the second combustion chamber through a smoke inlet of the second combustion chamber; the outer side of the second combustion chamber is provided with an air preheating layer; the lower end of the secondary combustion chamber is communicated with an air cooling heat exchanger through a flue gas outlet channel, and the air cooling heat exchanger is communicated with a flue gas outlet; the lower end of one combustion chamber is provided with a furnace bridge, and the lower end of the one combustion chamber is communicated with an air inlet channel of the one combustion chamber.

The invention relates to a small-sized three-dimensional combustion chamber garbage incinerator, which is characterized in that; the bottom of a combustion chamber is a slag outlet.

The invention relates to a small-sized three-dimensional combustion chamber garbage incinerator, which is characterized in that; a feed door is arranged at the feed hopper.

The invention relates to a small-sized three-dimensional combustion chamber garbage incinerator, which is characterized in that; the second combustion chamber burner and the first combustion chamber burner are positioned outside the incinerator.

The invention relates to a small-sized three-dimensional combustion chamber garbage incinerator, which is characterized in that; the operation is as follows; the incinerator uses the periphery of a combustion chamber as a combustion chamber, thereby avoiding the heat loss of the combustion chamber and strengthening the pyrolysis temperature of the combustion chamber; a combustion-supporting air preheating layer is arranged at the periphery of the two combustion chambers, so that heat loss of the two combustion chambers is avoided, and combustion-supporting air is heated, so that combustion supporting and temperature rising of the first combustion chamber and the second combustion chamber are facilitated; the high-temperature flue gas from the two combustion chambers passes through an air cooling heat exchanger, combustion-supporting air is heated by the heat exchanger to replace partial heat in the flue gas, and then enters the air preheating layer, the first combustion chamber and the second combustion chamber respectively in the tangential direction, so that the heat generated by garbage incineration is sent back to the furnace to the maximum extent, the heat in the first combustion chamber and the second combustion chamber is accumulated continuously, the first combustion chamber and the second combustion chamber do not need to support combustion any more, and the stable operation can be realized; thereby achieving the purposes of saving energy and reducing the operating cost; the air enters the air preheating layer in the tangential direction, so that the heating time of the air is prolonged and the air is uniform; air enters the first combustion chamber and the second combustion chamber in a tangential direction, so that airflow in the furnace is rotated, combustion-supporting air and flue gas are fully mixed, and pyrolysis is more thorough; the air preheater, the combustion chamber and the secondary combustion chamber are integrated into a whole, so that energy is saved, the whole set of equipment is more compact, the equipment is convenient to transport and use in the field, and the equipment is used for on-site waste incineration treatment in field engineering projects, disaster sites, ships and the like.

The invention has the following advantages: when the small-sized vertical combustion chamber garbage (medical life) incinerator is implemented; the incinerator uses the periphery of a combustion chamber as a combustion chamber, thereby avoiding the heat loss of the combustion chamber and strengthening the pyrolysis temperature of the combustion chamber; a combustion-supporting air preheating layer is arranged at the periphery of the two combustion chambers, so that heat loss of the two combustion chambers is avoided, and combustion-supporting air is heated, so that combustion supporting and temperature rising of the first combustion chamber and the second combustion chamber are facilitated; the high-temperature flue gas from the two combustion chambers passes through an air cooling heat exchanger, combustion-supporting air is heated by the heat exchanger to replace partial heat in the flue gas, and then enters the air preheating layer, the first combustion chamber and the second combustion chamber respectively in the tangential direction, so that the heat generated by garbage incineration is sent back to the furnace to the maximum extent, the heat in the first combustion chamber and the second combustion chamber is accumulated continuously, the first combustion chamber and the second combustion chamber do not need to support combustion any more, and the stable operation can be realized; thereby achieving the purposes of saving energy and reducing the operating cost; the air enters the air preheating layer in the tangential direction, so that the heating time of the air is prolonged and the air is uniform; air enters the first combustion chamber and the second combustion chamber in a tangential direction, so that airflow in the furnace is rotated, combustion-supporting air and flue gas are fully mixed, and pyrolysis is more thorough; the air preheater, the combustion chamber and the secondary combustion chamber are integrated into a whole, so that energy is saved, the whole set of equipment is more compact, the equipment is convenient to transport and use in the field, and the equipment is used for on-site waste incineration treatment in field engineering projects, disaster sites, ships and the like.

Drawings

FIG. 1 is a schematic view of the integrated high energy saving domestic garbage incinerator;

wherein: the device comprises a feed hopper 1, a feed door 2, a first combustion chamber 3, a second combustion chamber 4, an air blower 5, a flue gas outlet 6, a second combustion chamber burner 7, a first combustion chamber burner 8, a first combustion chamber air inlet channel 9, a slag outlet 10, a furnace bridge 11, a flue gas outlet channel 12, a second combustion chamber flue gas inlet 13, a second combustion chamber air inlet 14, an air preheating layer 15 and an air cooling heat exchanger 16.

Detailed Description

The present invention will be described in detail with reference to fig. 1, and the technical solutions in the embodiments of the present invention will be clearly and completely described, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The present invention provides a small-sized vertical combustion chamber garbage (medical life) incinerator by improvement, as shown in fig. 1, which can be implemented as follows; the device is provided with a feed hopper 1, a feed door 2, a first combustion chamber 3, a second combustion chamber 4, an air blower 5, a flue gas outlet 6, a second combustion chamber burner 7, a first combustion chamber burner 8, a first combustion chamber air inlet channel 9, a slag outlet 10, a furnace bridge 11, a flue gas outlet channel 12, a second combustion chamber flue gas inlet 13, a second combustion chamber air inlet 14, an air preheating layer 15 and an air cooling heat exchanger 16; the first combustion chamber 3 is positioned in the inner cavity of the second combustion chamber 4, and the top of the first combustion chamber 3 is provided with a feed hopper 1; the first combustion chamber 3 is communicated with the second combustion chamber 4 through a flue gas inlet 13 of the second combustion chamber; the outer side of the second combustion chamber 4 is provided with an air preheating layer 15; the lower end of the secondary combustion chamber 4 is communicated with an air cooling heat exchanger 16 through a flue gas outlet channel 12, and the air cooling heat exchanger 16 is communicated with a flue gas outlet 6; the lower end of a combustion chamber 3 is provided with a furnace bridge 11, and the lower end of the combustion chamber 3 is communicated with a combustion chamber air inlet channel 9.

When the small-sized vertical combustion chamber garbage (medical life) incinerator is implemented; the bottom of a combustion chamber 3 is a slag outlet 10.

When the small-sized vertical combustion chamber garbage (medical life) incinerator is implemented; a feed door 2 is arranged at the feed hopper 1.

When the small-sized vertical combustion chamber garbage (medical life) incinerator is implemented; the second combustion chamber combustor 7 and the first combustion chamber combustor 8 are positioned outside the incinerator.

When the small-sized vertical combustion chamber garbage (medical life) incinerator is implemented; the incinerator uses the periphery of a combustion chamber as a combustion chamber, thereby avoiding the heat loss of the combustion chamber and strengthening the pyrolysis temperature of the combustion chamber; a combustion-supporting air preheating layer is arranged at the periphery of the two combustion chambers, so that heat loss of the two combustion chambers is avoided, and combustion-supporting air is heated, so that combustion supporting and temperature rising of the first combustion chamber and the second combustion chamber are facilitated; the high-temperature flue gas from the two combustion chambers passes through an air cooling heat exchanger, combustion-supporting air is heated by the heat exchanger to replace partial heat in the flue gas, and then enters the air preheating layer, the first combustion chamber and the second combustion chamber respectively in the tangential direction, so that the heat generated by garbage incineration is sent back to the furnace to the maximum extent, the heat in the first combustion chamber and the second combustion chamber is accumulated continuously, the first combustion chamber and the second combustion chamber do not need to support combustion any more, and the stable operation can be realized; thereby achieving the purposes of saving energy and reducing the operating cost; the air enters the air preheating layer in the tangential direction, so that the heating time of the air is prolonged and the air is uniform; air enters the first combustion chamber and the second combustion chamber in a tangential direction, so that airflow in the furnace is rotated, combustion-supporting air and flue gas are fully mixed, and pyrolysis is more thorough; the air preheater, the combustion chamber and the secondary combustion chamber are integrated into a whole, so that energy is saved, the whole set of equipment is more compact, the equipment is convenient to transport and use in the field, and the equipment is used for on-site waste incineration treatment in field engineering projects, disaster sites, ships and the like.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (5)

1. A small-sized three-dimensional combustion chamber garbage incinerator is characterized in that; the device is provided with a feed hopper (1), a feed door (2), a first combustion chamber (3), a second combustion chamber (4), an air blower (5), a flue gas outlet (6), a second combustion chamber burner (7), a first combustion chamber burner (8), a first combustion chamber air inlet channel (9), a slag outlet (10), a furnace bridge (11), a flue gas outlet channel (12), a second combustion chamber flue gas inlet (13), a second combustion chamber air inlet (14), an air preheating layer (15) and an air cooling heat exchanger (16);

the first combustion chamber (3) is positioned in the inner cavity of the second combustion chamber (4), and the top of the first combustion chamber (3) is provided with a feed hopper (1); the first combustion chamber (3) is communicated with the second combustion chamber (4) through a flue gas inlet (13) of the second combustion chamber; the outer side of the second combustion chamber (4) is provided with an air preheating layer (15); the lower end of the secondary combustion chamber (4) is communicated with an air-cooled heat exchanger (16) through a flue gas outlet channel (12), and the air-cooled heat exchanger (16) is communicated with a flue gas outlet (6); the lower end of a combustion chamber (3) is provided with a furnace bridge (11), and the lower end of the combustion chamber (3) is communicated with a combustion chamber air inlet channel (9).

2. The small-sized vertical combustion chamber garbage incinerator according to claim 1, wherein; the bottom of a combustion chamber (3) is provided with a slag outlet (10).

3. The small-sized vertical combustion chamber garbage incinerator according to claim 1, wherein; a feed door (2) is arranged at the feed hopper (1).

4. The small-sized vertical combustion chamber garbage incinerator according to claim 1, wherein; the second combustion chamber burner (7) and the first combustion chamber burner (8) are positioned outside the incinerator.

5. The small-sized vertical combustion chamber garbage incinerator according to claim 1, wherein; the operation is as follows; the incinerator uses the periphery of a combustion chamber as a combustion chamber, thereby avoiding the heat loss of the combustion chamber and strengthening the pyrolysis temperature of the combustion chamber; a combustion-supporting air preheating layer is arranged at the periphery of the two combustion chambers, so that heat loss of the two combustion chambers is avoided, and combustion-supporting air is heated, so that combustion supporting and temperature rising of the first combustion chamber and the second combustion chamber are facilitated; the high-temperature flue gas from the two combustion chambers passes through an air cooling heat exchanger, combustion-supporting air is heated by the heat exchanger to replace partial heat in the flue gas, and then enters the air preheating layer, the first combustion chamber and the second combustion chamber respectively in the tangential direction, so that the heat generated by garbage incineration is sent back to the furnace to the maximum extent, the heat in the first combustion chamber and the second combustion chamber is accumulated continuously, the first combustion chamber and the second combustion chamber do not need to support combustion any more, and the stable operation can be realized; thereby achieving the purposes of saving energy and reducing the operating cost; the air enters the air preheating layer in the tangential direction, so that the heating time of the air is prolonged and the air is uniform; air enters the first combustion chamber and the second combustion chamber in a tangential direction, so that airflow in the furnace is rotated, combustion-supporting air and flue gas are fully mixed, and pyrolysis is more thorough; the air preheater, the combustion chamber and the secondary combustion chamber are integrated into a whole, so that energy is saved, the whole set of equipment is more compact, the equipment is convenient to transport and use in the field, and the equipment is used for on-site waste incineration treatment in field engineering projects, disaster sites, ships and the like.

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