CN108980868A

CN108980868A - Energy saving waste gas combustion furnace

Info

Publication number: CN108980868A
Application number: CN201810395662.1A
Authority: CN
Inventors: 潘国祥
Original assignee: Yangzhou Daifa Environmental Science And Technology Co Ltd
Current assignee: Yangzhou Daifa Environmental Science And Technology Co Ltd
Priority date: 2018-04-27
Filing date: 2018-04-27
Publication date: 2018-12-11

Abstract

The invention proposes energy saving waste gas combustion furnaces, including preheater and furnace shell, the shell of preheater is connected to furnace shell, thermal insulation layer is covered with outside the shell and furnace shell of preheater, exhaust gas inlet and exhaust gas outlet are provided on the shell of preheater, waste gas burning room is equipped in furnace shell, exhaust gas outlet connects the waste gas burning room, several High Temperature Gas outlets on the other end of waste gas burning room；High Temperature Gas outlet connection gas-guide tube, gas-guide tube spiral surrounding is placed in the outer of waste gas burning room, the gas outlet of gas-guide tube connects catalyst chamber, catalyst chamber upper end connects regenerative chamber, thermocouple is equipped in catalyst chamber, energy storage bed is equipped in regenerative chamber, it further include air blower and blowing machine, air blower and blowing machine are connected with regenerative chamber respectively by air inlet pipe and an air outlet pipe, gas-guide tube is set, certain residence time is provided, so that exhaust gas full combustion, combines decomposition foul gas in conjunction with low-temperature catalytic oxidation and heat storage technology, the exhaust gas low temperature decomposed discharge can be made.

Description

Energy saving waste gas combustion furnace

Technical field

The invention belongs to incinerator technical fields, particularly relate to energy saving waste gas combustion furnace.

Background technique

Considerable industrial production can all generate exhaust gas, and exhaust gas generates huge harm to human body, polluted atmosphere, because This is needed exhaust-gas treatment at allowing to discharge after innocuous gas, and considerable exhaust gas is gaseous organic compound, using burning Technique is that most universal, effect is preferable, the minimum waste gas treatment process of cost.Traditional incinerator purification efficiency is low, and energy consumption is high.

Summary of the invention

The present invention proposes energy saving waste gas combustion furnace, solves in the prior art that incinerator purification efficiency is low, the defect of energy consumption.

The technical scheme of the present invention is realized as follows:

Energy saving waste gas combustion furnace, including preheater and furnace shell, the shell of preheater are connected to furnace shell, the shell of preheater and It is covered with thermal insulation layer outside furnace shell, exhaust gas inlet and exhaust gas outlet are provided on the shell of preheater, exhaust gas is equipped in furnace shell and fires Room is burnt, the exhaust gas outlet connects the waste gas burning room, and one end of waste gas burning room is equipped with combustor, the exhaust gas combustion It burns and forms incubation cavity between room and furnace shell, several High Temperature Gas outlets on the other end of waste gas burning room；

The High Temperature Gas outlet connection gas-guide tube, the gas-guide tube spiral surrounding are placed in the outer of waste gas burning room, The gas outlet of gas-guide tube connects catalyst chamber, and the catalyst chamber upper end connects regenerative chamber, is equipped with thermocouple in catalyst chamber, in regenerative chamber Further include air blower and blowing machine equipped with energy storage bed, air blower and blowing machine by air inlet pipe and an air outlet pipe respectively with regenerative chamber It is connected；

Seal door structure is additionally provided on the furnace shell.

Further, the seal door structure includes hermatic door, articulated shaft and two articulated jibs, and it is hinged that two are connected on furnace shell Seat, the articulated shaft are connected on the lateral surface of the hermatic door, and one end of two articulated jibs hingedly connects with hinged seat respectively It connects, the other end and hinged axis connection, further includes for by hermatic door and the close-connected locking device of furnace shell, the inside of hermatic door On be provided with sealing convex block.

Further, the top of the combustion chamber is equipped with venting.

Further, the combustion chamber is additionally provided with the temp probe of monitoring chamber temperature.

Further, the preheater is vertical setting with furnace shell.

Further, thermal insulation material is filled in the thermal insulation layer, the thermal insulation material is alumina silicate fibre.

Further, the locking device includes the U-shaped fixed block connecting with hermatic door, further includes the spiral shell connecting with furnace shell Column, the stud pass through the groove of the U-shaped fixed block, hermatic door are fixed on the furnace shell by nut.

In conclusion setting gas-guide tube provides certain residence time the present invention has the advantages that at a proper temperature, So that exhaust gas full combustion, combines decomposition foul gas in conjunction with low-temperature catalytic oxidation and heat storage technology, decomposition can be made The discharge of exhaust gas low temperature.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this Some embodiments of invention without any creative labor, may be used also for those of ordinary skill in the art To obtain other drawings based on these drawings.

Fig. 1 is the energy saving waste gas combustion furnace structural schematic diagram of the present invention；

Fig. 2 is the seal door structure structural schematic diagram of the energy saving waste gas combustion furnace of the present invention.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

As shown in Figs. 1-2, energy saving waste gas combustion furnace, including preheater 1 and furnace shell 2, the shell and furnace shell 2 of preheater 1 connect It is logical, it is covered with thermal insulation layer (not shown) outside the shell and furnace shell of preheater, exhaust gas inlet 3 is provided on the shell of preheater and is given up Gas gas outlet 4, furnace shell is interior to be equipped with waste gas burning room 5, and the exhaust gas outlet connects the waste gas burning room 5, waste gas burning room One end be equipped with combustor 6, incubation cavity 7 is formed between the waste gas burning room and furnace shell, on the other end of waste gas burning room Several High Temperature Gas outlets 8；The High Temperature Gas outlet connection gas-guide tube 9,9 spiral surrounding of gas-guide tube is in the waste gas burning room It is outer place, the gas outlet of gas-guide tube connects catalyst chamber 10, and the catalyst chamber upper end connects regenerative chamber 11, is equipped with heat in catalyst chamber Galvanic couple, it further includes air blower 13 and blowing machine 14, air blower 13 and blowing machine 14 pass through air inlet that regenerative chamber is interior, which to be equipped with energy storage bed 12, Pipe and escape pipe are connected with regenerative chamber 11 respectively；Seal door structure, the seal door structure packet are additionally provided on the furnace shell Hermatic door 18, articulated shaft 19 and two articulated jibs 20 are included, two hinged seats are connected on furnace shell, the articulated shaft 19 is connected to described close On the lateral surface of closure door 18, one end of two articulated jibs 20 is articulated and connected with hinged seat respectively, and the other end and articulated shaft 19 connect Connect, further include for by hermatic door and the close-connected locking device of furnace shell, being provided with sealing convex block 21 on the inside of hermatic door, The preheater is vertical setting with furnace shell, and thermal insulation material is filled in the thermal insulation layer, and the thermal insulation material is aluminium silicate fiber Dimension, it further includes the stud 23 connecting with furnace shell, the spiral shell that the locking device, which includes the U-shaped fixed block 22 connecting with hermatic door, Column passes through the groove of the U-shaped fixed block, hermatic door is fixed on the furnace shell by nut, the arc-shaped knot of articulated jib Structure, the articulated shaft are connected on the middle line of the lateral surface of the hermatic door.The top of the combustion chamber is equipped with venting 17, institute State the temp probe that combustion chamber is additionally provided with monitoring chamber temperature.

The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all in essence of the invention Within mind and principle, any modification, equivalent replacement, improvement and so on be should all be included in the protection scope of the present invention.

Claims

1. energy saving waste gas combustion furnace, it is characterised in that: including preheater and furnace shell, the shell of preheater is connected to furnace shell, preheating It is covered with thermal insulation layer outside the shell and furnace shell of device, is provided with exhaust gas inlet and exhaust gas outlet on the shell of preheater, in furnace shell Equipped with waste gas burning room, the exhaust gas outlet connects the waste gas burning room, and one end of waste gas burning room is equipped with combustor, Incubation cavity, several High Temperature Gas outlets on the other end of waste gas burning room are formed between the waste gas burning room and furnace shell；

The High Temperature Gas outlet connection gas-guide tube, the gas-guide tube spiral surrounding are placed in the outer of waste gas burning room, air guide The gas outlet of pipe connects catalyst chamber, and the catalyst chamber upper end connects regenerative chamber, thermocouple is equipped in catalyst chamber, is equipped in regenerative chamber Energy storage bed, further includes air blower and blowing machine, and air blower and blowing machine are connected with regenerative chamber respectively by air inlet pipe and an air outlet pipe It connects；

Seal door structure is additionally provided on the furnace shell.

2. energy conservation waste gas combustion furnace according to claim 1, it is characterised in that: the top of the combustion chamber is equipped with explosion-proof Mouthful.

3. energy conservation waste gas combustion furnace according to claim 1, it is characterised in that: the combustion chamber is additionally provided with monitoring combustion chamber The temp probe of temperature.

4. energy conservation waste gas combustion furnace according to claim 1, it is characterised in that: the preheater with furnace shell is perpendicular sets It sets.

5. energy conservation waste gas combustion furnace according to claim 1, it is characterised in that: be filled with thermal insulating material in the thermal insulation layer Material, the thermal insulation material are alumina silicate fibre.

6. it is according to claim 1 energy conservation waste gas combustion furnace, it is characterised in that: the seal door structure include hermatic door, Articulated shaft and two articulated jibs are connected with two hinged seats on furnace shell, and the articulated shaft is connected on the lateral surface of the hermatic door, and two One end of the articulated jib is articulated and connected with hinged seat respectively, the other end and hinged axis connection, further include for by hermatic door with Furnace shell close-connected locking device is provided with sealing convex block on the inside of hermatic door.

7. energy conservation waste gas combustion furnace according to claim 6, it is characterised in that: the locking device includes connecting with hermatic door The U-shaped fixed block connect, further includes the stud connecting with furnace shell, and the stud passes through the groove of the U-shaped fixed block, passes through nut Hermatic door is fixed on the furnace shell.