CN104791813B

CN104791813B - A kind of waste gas combustion furnace

Info

Publication number: CN104791813B
Application number: CN201510196419.3A
Authority: CN
Inventors: 戴恩平; 霍达
Original assignee: Greenstar (beijing) Environmental Technology Co Ltd
Current assignee: Greenstad (Beijing) Environmental Technology Co.,Ltd.
Priority date: 2015-04-23
Filing date: 2015-04-23
Publication date: 2017-07-28
Anticipated expiration: 2035-04-23
Also published as: CN104791813A; WO2016169391A1

Abstract

A kind of waste gas combustion furnace, including base, frame device, process gas inlet means, first heater, secondary heating mechanism, retracting device and oxygen inlet device, frame device includes framework, first swash plate, first baffler, first through hole, second through hole and lower wall, process gas inlet means include exhaust gas inlet pipe, air inlet pipe, second baffler, 3rd baffler and screen pack, first heater includes heating bucket, first fix bar, second fix bar, outlet pipe, first valve, water inlet pipe and the second valve, secondary heating mechanism includes heating frame, feed tube, 3rd valve, drain pipe, 4th valve and projection, retracting device includes the second swash plate, interstitial hole, delivery line, fifth hole, effuser and the 5th valve, oxygen inlet device includes oxygen inlet pipe and the 6th valve, first baffler is in vertical shape.The present invention can fully be burnt to waste gas, and the hot gas that waste gas burning is produced can be utilized, and prevent the waste of the energy.

Description

A kind of waste gas combustion furnace

Technical field

The present invention relates to environmental technology field, more particularly, to a kind of waste gas combustion furnace.

Background technology

Considerable industrial production can all produce waste gas, and waste gas produces huge harm to human body, pollutes air, because This is, it is necessary to which by exhaust-gas treatment into discharge is allowed after innocuous gas, considerable waste gas is gaseous organic compound, using burning Technique is the most universal, waste gas treatment process that effect is preferable and cost is minimum.

A kind of waste gas combustion furnace disclosed in Chinese patent CN200420024060.9, including housing, burning are found through retrieval Room and burner, the exhaust gas inlet that one end of the combustion chamber leads to by tubulation on the exhaust outlet of the housing other end, housing are led to The cavity volume crossed between the cavity volume between each tubulation and inner walls and outer wall of combustion chamber leads to combustion chamber import, and this waste gas burns Stove is burnt with simple structure, is realized and is preheated pending waste gas with combustion heat energy, therefore, i.e., rationally make use of heat energy, contribute to Ensure the burning treatment effect of waste gas, improve efficiency, the temperature of discharge gas is reduced again, it is manufactured and operating cost is low.But Be because the high-temperature flue gas that burning is produced walk be in tubulation, and to pipe outside heating by the exhaust gases, therefore, from tubulation inducer to Gas temperature in the pipe of tubulation outlet section is gradually reduced, so outlet block temperature is less than inducer temperature, therefore, tubulation A kind of high-temperature material suitable for inducer must be used, so as to cause the material property of outlet section tubulation will higher than material requested Ask, in the market, high-temperature material price is more than cryogenic material price, and then causes cost to increase.On the other hand, because temperature drops Low, gas volume will reduce, so the flue gas free air space needed for tubulation outlet section is less than real space, so as to cause to set Smoke outlet seems huge, wastes material, adds cost.

Therefore, it is necessary to provide a kind of new technical scheme to overcome drawbacks described above.

The content of the invention

The waste gas combustion furnace of above-mentioned technical problem can be effectively solved it is an object of the invention to provide a kind of.

To reach the purpose of the present invention, adopt the following technical scheme that：

A kind of waste gas combustion furnace, the waste gas combustion furnace includes base, the frame device above the base, is located at The process gas inlet means of the frame device left and right sides, the first heater inside the frame device, positioned at described Secondary heating mechanism below one heater, the retracting device above the first heater and positioned at the framework Oxygen inlet device below device, the base is provided with the first support column, and the frame device includes framework, positioned at described The first swash plate inside framework, the first baffler above first swash plate, positioned at the framework at right surface One through hole, the second through hole and lower wall above the first through hole, the process gas inlet means include exhaust gas inlet pipe, position Air inlet pipe in the exhaust gas inlet pipe side, the second baffler inside the exhaust gas inlet pipe, the 3rd baffler and Screen pack, the first heater includes heating bucket, the first fix bar above the heating bucket, positioned at the heating The second fix bar below bucket, the outlet pipe on the left of the heating bucket, the first valve being arranged on the outlet pipe, position In the water inlet pipe heated on the right side of bucket and the second valve being arranged on the water inlet pipe, the secondary heating mechanism includes adding Hot frame, the feed tube positioned at the heating frame side, the 3rd valve being arranged on the feed tube, under the feed tube Drain pipe, the 4th valve being arranged on the drain pipe and the projection being arranged on the heating frame of side, the recovery dress Put the interstitial hole including the second swash plate, in the middle of second swash plate, the delivery line above second swash plate, be located at The fifth hole of the framework upper surface, the effuser on the right side of the framework and the 5th valve being arranged on the effuser Door, the oxygen inlet device includes oxygen inlet pipe and the 6th valve being arranged on the oxygen inlet pipe, the framework In hollow cuboid, one end of first swash plate is fixedly connected with the inner surface of the framework, first swash plate it is another One end is upwards and to framework intermediate, inclined, and first baffler is in vertical shape, the upper surface of first baffler and following table Face is oblique, and the lower surface of first baffler is fixedly connected with the upper surface of the first swash plate, first baffler Upper surface is fixedly connected with the lower surface of second swash plate, and first baffler is made of heat-barrier material, the lower wall One corner block of formation protruding upward, the top of the corner block is provided with third through-hole, and the 3rd baffler, which is provided with, runs through it The rectangular opening on left and right surface, places water, the projection horizontal positioned, institute between second baffler and the 3rd baffler The one side for stating projection is fixedly connected with the heating frame, and the projection is located at the surface of the corner block, the delivery line In inverted " mountain " font, the two ends outlet of the delivery line is described straight down and positioned at the surface of second swash plate Sodium hydroxide solution is placed with second swash plate.

The exhaust gas inlet pipe is in rectangular-shape, the exhaust gas inlet pipe horizontal positioned, one end of the exhaust gas inlet pipe It is fixedly connected and is communicated with the inside of the framework with the side of the framework.

Second baffler is in cuboid, and second baffler places vertically, the side of second baffler with The inner surface of the exhaust gas inlet pipe is fixedly connected.

3rd baffler is in cuboid, and the 3rd baffler places vertically, the side of the 3rd baffler with The inner surface of the exhaust gas inlet pipe is fixedly connected.

The screen pack is in cuboid, and the screen pack is placed vertically, the side of the screen pack and the exhaust gas inlet The inner surface of pipe is fixedly connected.

The heating bucket is in hollow cylinder, and the heating bucket horizontal positioned, the heating bucket is provided with third through-hole And fourth hole.

First fix bar is oblique, and the surface of the lower end of first fix bar and the heating bucket, which is fixed, to be connected Connect, the upper end of first fix bar is fixedly connected with the lower surface of second swash plate, first fix bar is provided with and passed through Wear first open-work on its left and right surface.

The upper end of second fix bar with it is described heating bucket surface be fixedly connected, the lower end of second fix bar with The heating frame is fixedly connected, and second fix bar is provided with the second open-work through its left and right surface.

The left end of the effuser is directed at second through hole and is fixedly connected with the right surface of the framework.

The heating frame is in a rectangular trapezoid, the heating frame and the space of the inner surface formation closing of the framework, described Heating frame is made of the metal material of heat conduction.

Compared with prior art, the present invention has the advantages that：Waste gas combustion furnace of the present invention is simple in construction, user Just, waste gas can fully be burnt, high combustion efficiency, and the hot gas that waste gas burning is produced can be utilized, prevent The only waste of the energy, and the present invention can be before waste gas burning so that and sulfur dioxide therein is predominantly absorbed, so that in burning When waste gas in be free of sulfur dioxide so that carbon monoxide therein etc. can fully be burnt, and burn after dioxy Change carbon to be chemically reacted, prevent it is discharged into air from polluting environment, aggravate greenhouse effects.

Brief description of the drawings

Fig. 1 is the structural representation of waste gas combustion furnace of the present invention.

Embodiment

Clearly complete explanation is made to waste gas combustion furnace of the present invention below in conjunction with accompanying drawing.

As shown in figure 1, waste gas combustion furnace of the present invention includes base 1, the frame device 2 positioned at the top of base 1, is located at The process gas inlet means 3 of the left and right sides of frame device 2, the first heater 4 inside the frame device 2, positioned at institute State the secondary heating mechanism 5 below first heater 4, the retracting device 6 positioned at the top of first heater 4 and be located at The oxygen inlet device 7 of the lower section of frame device 2.

As shown in figure 1, the base 1 is in cuboid, and the horizontal positioned of base 1, the base 1 is provided with the first support Post 11, first support column 11 is provided with two and is located at the left and right sides respectively, and first support column 11 is in cuboid, described First support column 11 is placed vertically, and the lower surface of first support column 11 is fixedly connected with the upper surface of the base 1, described The upper surface of first support column 11 is fixedly connected with the lower surface of the process gas inlet means 3.

As shown in figure 1, the frame device 2 includes framework 21, the first swash plate 22 inside the framework 21, is located at First baffler 23 of the top of first swash plate 22, positioned at the first through hole 24 at right surface of framework 21, positioned at described first The second through hole 26 and lower wall 25 of the top of through hole 24.The framework 21 is in hollow cuboid, and the framework 21 is placed vertically, institute State first through hole 24 rounded, second through hole 26 is rounded, the through hole 26 of first through hole 24 and second causes the frame The exterior space of body 2 is communicated with its inner space.First swash plate 22 is provided with two and respectively positioned at the left and right sides, described first One end of swash plate 22 is fixedly connected with the inner surface of the framework 21, and the other end of first swash plate 22 is upward and inclines to centre Tiltedly.First baffler 23 is in vertical shape, and the upper surface of first baffler 23 and lower surface are oblique, and described first The lower surface of baffler 23 is fixedly connected with the upper surface of the first swash plate 22, and first baffler 23 uses heat-barrier material system Into.The lower wall 25 is protruding upward to form a corner block, and the top of the corner block is provided with third through-hole 251, the threeway Hole 251 causes the inner space of framework 21 to be communicated with space below.

As shown in figure 1, the process gas inlet means 3 are provided with two and respectively positioned at the left and right sides of the framework 21, institute Process gas inlet means 3 are stated including exhaust gas inlet pipe 31, the air inlet pipe 32 positioned at the side of exhaust gas inlet pipe 31, positioned at described useless The second baffler 33, the 3rd baffler 34 and screen pack 36 inside gas inlet tube 31.The exhaust gas inlet pipe 31 is in cuboid Shape, the horizontal positioned of exhaust gas inlet pipe 31, one end of the exhaust gas inlet pipe 31 is fixedly connected with the side of the framework 21 And communicated with the inside of the framework 21.Second baffler 33 is in cuboid, and second baffler 33 is placed vertically, institute The side for stating the second baffler 33 is fixedly connected with the inner surface of the exhaust gas inlet pipe 31, the right table of second baffler 33 Face and the right surface of the exhaust gas inlet pipe 31 are in same perpendicular.3rd baffler 34 is in cuboid, described 3rd baffler 34 is placed vertically, and the side of the 3rd baffler 34 is fixed with the inner surface of the exhaust gas inlet pipe 31 to be connected Connect, the 3rd baffler 34 is provided with the rectangular opening 35 through its left and right surface, and the rectangular opening 35 is in rectangular-shape, described Water is placed between second baffler 33 and the 3rd baffler 34 so that the sulfur dioxide in waste gas is integrated with water.It is described Screen pack 36 is in cuboid, and the screen pack 36 is placed vertically, the side of the screen pack 36 and the exhaust gas inlet pipe 31 Inner surface is fixedly connected.The air inlet pipe 32 is L-shaped, and one end of the air inlet pipe 32 passes through the left and right of second baffler 33 Surface extends to the inside of the exhaust gas inlet pipe 31, left and right of the air inlet pipe 32 through the lower end of second baffler 33 Surface.

As shown in figure 1, the first heater 4 includes heating bucket 41, consolidated positioned at the first of the top of heating bucket 41 Fixed pole 42, the second fix bar 43 positioned at the lower section of heating bucket 41, the outlet pipe 44 positioned at the left side of heating bucket 41, setting In the first valve 45 on the outlet pipe 44, the water inlet pipe 46 positioned at heating bucket 41 right side and it is arranged at the water inlet pipe The second valve 47 on 46.The heating bucket 41 is in hollow cylinder, 41 horizontal positioneds of the heating bucket, the heating bucket 11 Third through-hole 411 and fourth hole 412 are provided with, the third through-hole 411 is rounded, and positioned at the upper of the heating bucket 41 Side, the fourth hole 412 is rounded, and the fourth hole 412 is located at the lower section of the heating bucket 41.First fix bar 42 provided with two and respectively positioned at the left and right sides, and first fix bar 42 is oblique, the lower end of first fix bar 42 It is fixedly connected with the surface of the heating bucket 41, first fix bar 42 is provided with the first open-work through its left and right surface 421, first open-work 421 is in rectangular-shape.Second fix bar 43 is provided with two and is located at the left and right sides respectively, described The upper end of second fix bar 43 is fixedly connected with the surface of the heating bucket 41, and second fix bar 43 is provided with left through it Second open-work 431 on right surface, second open-work 431 is in rectangular-shape.The left end of the water inlet pipe 46 passes through the framework 21 right surface extends to the inside of the framework 21, the left end of the water inlet pipe 46 be aligned the third through-hole 411 and with institute The surface for stating heating bucket 41 is fixedly connected so that the inside of the heating bucket 41 is communicated with the inside of the water inlet pipe 46.It is described Second valve 47 is arranged on the water inlet pipe 46, the flow for controlling the reclaimed water of water inlet pipe 46.The outlet pipe 44 Right-hand member extends to the inside of the framework 21 through the left surface of the framework 21, the right-hand member alignment of the outlet pipe 44 described the Four through holes 412 and it is fixedly connected with the surface of the heating bucket 41 so that inside and the outlet pipe 44 of the heating bucket 41 Inside communicate.First valve 45 is arranged on the outlet pipe 44, the stream for controlling the water in the outlet pipe 44 Amount.

As shown in figure 1, the secondary heating mechanism 5 is provided with two and is located at the left and right sides respectively, second heating is filled Putting 5 includes heating frame 51, the feed tube 52 positioned at the side of heating frame 51, the 3rd valve being arranged on the feed tube 52 53rd, positioned at the lower section of the feed tube 52 drain pipe 54, the 4th valve 55 being arranged on the drain pipe 54 and it is arranged at institute State the projection 56 on heating frame 51.The heating frame 51 is in a rectangular trapezoid, the heating frame 51 and the side wall shape of the framework 21 Into the space of closing, the heating frame 51 is made of the metal material of heat conduction, and the heating frame 51 is interior with the framework 21 Surface is fixedly connected.The feed tube 52 is L-shaped, one end extending sideways to institute through the framework 21 of the feed tube 52 State the inside of heating frame 51 so that the inside of the heating frame 51 is communicated with the inside of the feed tube 52.3rd valve 53 are arranged on the feed tube 52, the flow for controlling liquid in the feed tube 52.The left end pair of the drain pipe 54 The accurate first through hole 24 and be fixedly connected with the side of the framework 21 so that the inside of the heating frame 51 with it is described go out liquid The inside of pipe 54 is communicated.4th valve 55 is arranged on the drain pipe 54, the stream for controlling liquid in drain pipe 54 Output.The horizontal positioned of projection 56, the one side of the projection 56 is fixedly connected with the heating frame 51, the projection 56 In the surface of the corner block.The lower surface of second fix bar 43 is fixedly connected with the upper surface of the heating frame 51.

As shown in figure 1, the retracting device 6 includes the second swash plate 61, the interstitial hole in the middle of second swash plate 61 62nd, positioned at the delivery line 63 of the top of the second swash plate 61, the fifth hole 64 positioned at the upper surface of framework 21, positioned at described The effuser 65 on the right side of framework 21 and the 5th valve 66 being arranged on the effuser 65.Second swash plate 61 is provided with two And it is located at the left and right sides respectively, and one end of second swash plate 61 is fixedly connected with the inner surface of the framework 21, and described second The other end of swash plate 61 is upward and extends to centre, the upper end of first fix bar 42 and the lower surface of second swash plate 61 It is fixedly connected, the upper surface of first baffler 23 is fixedly connected with the lower surface of second swash plate 61.The delivery line 63 be in inverted " mountain " font, and the delivery line 63 is connected with the interstitial hole 62 so that the air of the lower section of the second swash plate 61 can To enter inside delivery line 63.The two ends outlet of the delivery line 63 straight down and alignment second swash plate 61 just on Side.Sodium hydroxide solution is placed with second swash plate 61, the two ends outlet of the delivery line 63 extends to the hydroxide In sodium solution so that can be reacted from the gas of the inside of delivery line 63 outflow with sodium hydroxide, prevent from being exhausted directly to The external world, causes greenhouse effects.The left end of the effuser 65 be aligned second through hole 26 and with the right surface of the framework 21 It is fixedly connected so that the space of the top of the second swash plate 61 is communicated with the inner space of the effuser 65.5th valve Door 66 is arranged on the effuser 65, the flow for controlling liquid in effuser 65.

As shown in figure 1, the oxygen inlet device 7 includes oxygen inlet pipe 71 and is arranged on the oxygen inlet pipe 71 The 6th valve 72.The oxygen inlet pipe 71 is L-shaped, the alignment third through-hole 251 of the oxygen inlet pipe 71 and with The lower surface of the lower wall 25 is fixedly connected.6th valve 72 is arranged on the oxygen inlet pipe 71, for controlling State the flow of the oxygen in oxygen inlet pipe 71.

As shown in figure 1, the waste gas combustion furnace of the present invention in use, first access waste gas from air inlet pipe 32, enters it Enter to the inside of exhaust gas inlet pipe 31.Oxygen is inputted from oxygen inlet pipe 72 simultaneously, the oxygen passes through oxygen inlet pipe 72 And the inside of framework 21 is entered through third through-hole 251.The waste gas enters the second baffler 33 and the 3rd barrier Between plate 34, the sulfur dioxide in waste gas is integrated with water, and then other waste gas enter exhaust gas inlet pipe by rectangular opening 35 31 depths, then enters the top of third through-hole 251 after the filtration of screen pack 36, and converges with oxygen, so After light waste gas, the fuel gas such as carbon monoxide therein starts burning, and because oxygen is sufficient, fuel gas can fully fire Burn.Water is now entered to the inside that heating frame 51 is entered in heating bucket 41 and from feed tube 52, Ran Houke from water inlet pipe 46 The burning of combustion gas body is heated to the water in the water inside heating frame 51 and heating bucket 41.Until all burnt, burning is produced Carbon dioxide entered from interstitial hole 62 in delivery line 63, then into the sodium hydroxide solution of the top of the second swash plate 61 And generation calcium carbonate and water is reacted, a small amount of gas can be discharged by fifth hole 64, and now its harm to environment is Through very little.After the completion of reaction, discharged by effuser 65, the water in heating bucket 41 is discharged by outlet pipe 44, in heating frame 51 Water discharged by drain pipe 55.The present invention can not only reduce pollution of the waste gas to environment, and waste gas can also be obtained fully Utilize, save the energy, environmental protection, and cause the gas flow very little of discharge, meet the requirement of present energy-saving and emission-reduction.So far, originally Invention waste gas combustion furnace is finished using process description.

The foregoing is only a specific embodiment of the invention, but protection scope of the present invention is not limited thereto, any Those skilled in the art the invention discloses technical scope in, change or replacement can be readily occurred in, should all be covered Within protection scope of the present invention.Therefore, protection scope of the present invention should be based on the protection scope of the described claims.

Claims

1. a kind of waste gas combustion furnace, it is characterised in that：The waste gas combustion furnace includes base, the framework above the base Device, the process gas inlet means positioned at the frame device left and right sides, the first heater inside the frame device, position Secondary heating mechanism below the first heater, the retracting device above the first heater and it is located at Oxygen inlet device below the frame device, the base be provided with the first support column, the frame device include framework, The first swash plate inside the framework, the first baffler above first swash plate, positioned at the right table of the framework First through hole on face, the second through hole above the first through hole and lower wall, the process gas inlet means include waste gas Inlet tube, the air inlet pipe positioned at the exhaust gas inlet pipe side, the second baffler inside the exhaust gas inlet pipe, the 3rd Baffler and screen pack, the first heater include heating bucket, the first fix bar above the heating bucket, are located at The second fix bar below the heating bucket, the outlet pipe on the left of the heating bucket, the be arranged on the outlet pipe One valve, the water inlet pipe on the right side of the heating bucket and the second valve being arranged on the water inlet pipe, second heating Device include heating frame, the feed tube positioned at the heating frame side, the 3rd valve being arranged on the feed tube, positioned at institute The drain pipe below feed tube, the 4th valve being arranged on the drain pipe and the projection being arranged on the heating frame are stated, The retracting device includes the second swash plate, the interstitial hole in the middle of second swash plate, above second swash plate Delivery line, the fifth hole positioned at the framework upper surface, the effuser on the right side of the framework and it is arranged at the outflow The 5th valve on pipe, the oxygen inlet device includes oxygen inlet pipe and the 6th valve being arranged on the oxygen inlet pipe Door, the framework is in hollow cuboid, and one end of first swash plate is fixedly connected with the inner surface of the framework, and described the The other end of one swash plate is upwards and to framework intermediate, inclined, and first baffler is in vertical shape, first baffler it is upper Surface and lower surface are oblique, and the lower surface of first baffler is fixedly connected with the upper surface of the first swash plate, and described the The upper surface of one baffler is fixedly connected with the lower surface of second swash plate, and first baffler uses heat-barrier material system Into the lower wall is protruding upward to form a corner block, and the top of the corner block is provided with third through-hole, the 3rd baffler Provided with the rectangular opening through its left and right surface, water, the projection are placed between second baffler and the 3rd baffler Horizontal positioned, the one side of the projection is fixedly connected with the heating frame, and the projection is located at the surface of the corner block, The delivery line is in inverted " mountain " font, and the two ends of the delivery line are exported straight down and positioned at second swash plate just Sodium hydroxide solution is placed with top, second swash plate.

2. waste gas combustion furnace as claimed in claim 1, it is characterised in that：The exhaust gas inlet pipe is in rectangular-shape, described useless Gas inlet tube horizontal positioned, one end of the exhaust gas inlet pipe be fixedly connected with the side of the framework and with the framework Portion is communicated.

3. waste gas combustion furnace as claimed in claim 2, it is characterised in that：Second baffler is in cuboid, described second Baffler is placed vertically, and the side of second baffler is fixedly connected with the inner surface of the exhaust gas inlet pipe.

4. waste gas combustion furnace as claimed in claim 3, it is characterised in that：3rd baffler is in cuboid, the described 3rd Baffler is placed vertically, and the side of the 3rd baffler is fixedly connected with the inner surface of the exhaust gas inlet pipe.

5. waste gas combustion furnace as claimed in claim 4, it is characterised in that：The screen pack is in cuboid, and the screen pack is erected Straight to place, the side of the screen pack is fixedly connected with the inner surface of the exhaust gas inlet pipe.

6. waste gas combustion furnace as claimed in claim 5, it is characterised in that：The heating bucket is in hollow cylinder, described to add Hot bucket horizontal positioned, the heating bucket is provided with third through-hole and fourth hole.

7. waste gas combustion furnace as claimed in claim 6, it is characterised in that：First fix bar is oblique, and described first The lower end of fix bar is fixedly connected with the surface of the heating bucket, under the upper end of first fix bar and second swash plate Surface is fixedly connected, and first fix bar is provided with the first open-work through its left and right surface.

8. waste gas combustion furnace as claimed in claim 7, it is characterised in that：The upper end of second fix bar and the heating bucket Surface be fixedly connected, the lower end of second fix bar is fixedly connected with the heating frame, and second fix bar is provided with The second open-work through its left and right surface.

9. waste gas combustion furnace as claimed in claim 8, it is characterised in that：The left end of the effuser is directed at second through hole And be fixedly connected with the right surface of the framework.

10. waste gas combustion furnace as claimed in claim 9, it is characterised in that：The heating frame is in a rectangular trapezoid, the heating frame With the space of the inner surface formation closing of the framework, the heating frame is made of the metal material of heat conduction.