CN201010525Y

CN201010525Y - Active carbon preparing equipment

Info

Publication number: CN201010525Y
Application number: CNU2007201070384U
Authority: CN
Inventors: 钟顺乃
Original assignee: Individual
Current assignee: Individual
Priority date: 2007-03-09
Filing date: 2007-03-09
Publication date: 2008-01-23
Anticipated expiration: 2017-03-09

Abstract

An equipment for activated carbon preparation consists of a drying device, a carbonization device, an activation device, a kiln, a boiler, as well as a cooling device, the carbonization device is fixed in a carbonization chamber kiln, the activation device is fixed in an activation chamber kiln, an isolation layer is provided between the two chamber kilns, and the two chamber kilns are connected through a pipe line, the stranding cage of the carbonization device consists of a hollow spiral rod and a stranding cage outer tube, the spiral rod is equipped with an air inlet and an air outlet, the air outlets are opened on many places on the stranding cage outer tube, the air outlets are connected with the boiler through the pipeline, the surface of a hollow spiral rod of the activation device is opened with an air outlet, the carbonization device is connected with the activation device through the pipeline, the boiler gas pipeline enters into the activation chamber kiln of the activation device, and the boiler water vapor pipeline enters into the spiral rod hollow cavity of the stranding cage of the activation device. The production efficiency is greatly increased after adopting the equipment, in the production process, the constant fuel gas combustion on heating the kilns is not needed, thereby saving a huge amount of energy, in addition, the materials are fully activated, and the surplus energy is sufficiently utilized, thereby making the better product quality.

Description

A kind of equipment for preparing gac

(1) technical field

The utility model relates to a kind of equipment for preparing gac.

(2) background technology

Publication number: CN1890349A, name is called: gac manufacturing carbonizing apparatus, this device is by process object thing feed mechanism, drying oven, charring furnace, the high-temperature water vapor generation device, deodorization stove, formations such as remover, waste gas in the drying oven and waste heat obtain comprehensive utilization, feed in the deodorization stove and burn, water in the heat heating high-temperature water vapor generation device of gained, the device and waste gas in the charring furnace and waste heat are not recycled, so its energy does not make full use of, because the high-temperature water vapor of high-temperature water vapor generation device feeds charring furnace heat supply activation carbon dust in this device, to control the movement velocity of its water vapour in this process, control is complicated, often makes that the heating in the material charring furnace is inhomogeneous, activates insufficient, these some designs make that the quality product of producing is not good, and complete assembly equipment complexity, to invest greatlyyer, processing sequence is many, the reference mark is many, and staff's operative technique requires high.

(3) summary of the invention

A kind of equipment for preparing gac that technical problem to be solved in the utility model is to provide that a kind of technology is simple, production efficiency is high, can the utilization system waste heat.

Described a kind of equipment for preparing gac, be by drying installation, carbonizing apparatus, activating apparatus, kiln, boiler and refrigerating unit are formed, drying installation is by the wet feed opening for feed, drying duct, induced draft fan is formed, carbonizing apparatus is by opening for feed, motor, transmission rig, the strand cage, discharge port, support, pipeline is formed, activating apparatus is by opening for feed, motor, transmission rig, the strand cage, discharge port, support, pipeline is formed, kiln is made up of carbonizing kiln chamber and activation kiln chamber, refrigerating unit is by motor, transmission rig, opening for feed, the strand cage, cooling water cavity, discharge port, support is formed, be provided with drying installation between the screw rod air outlet of carbonizing apparatus and the opening for feed of carbonizing apparatus, the front end of the drying duct of drying installation has the wet feed opening for feed, induced draft fan is installed on drying duct, drying duct one end is connected with the air outlet of screw rod in the carbonizing apparatus, and the drying duct the other end is connected with the opening for feed of carbonizing apparatus.The strand cage front end of carbonizing apparatus is connected with an end of opening for feed, and the rear end of strand cage is connected with discharge port, and motor is connected with screw rod in twisting cage by transmission rig, and stent support whole strand cage.One end of opening for feed is connected with the front end of strand cage, and the discharge port in the other end and the carbonizing apparatus joins, and discharge port is connected with the rear end of twisting cage, and motor is connected with screw rod in twisting cage by transmission rig, and stent support whole strand cage.

Preferably, described carbonizing apparatus is fixed in the carbonizing kiln chamber, activating apparatus is fixed in the activation kiln chamber, be provided with sealing coat between the two kiln chambeies, and be connected by pipeline, the strand cage of carbonizing apparatus is made up of a hollow screw rod and strand cage outer tube, screw rod is provided with inlet mouth and air outlet, strand cage outer tube many places have the air outlet, the air outlet is connected with boiler by pipeline, the strand cage of activating apparatus is made up of a hollow screw rod and strand cage outer tube, the screw rod surface has the air outlet, carbonizing apparatus is connected by material pipe with activating apparatus, and the gas pipeline of boiler penetrates the activation kiln chamber of activating apparatus, and the water vapour pipeline of boiler penetrates in the screw rod cavity of strand cage of activating apparatus.

Preferably, the screw rod of described carbonizing apparatus is provided with inlet mouth near opening for feed one end, and an end of close discharge port is provided with the air outlet.

Preferably, the strand cage outer tube upper top of described carbonizing apparatus evenly has 5-20 air outlet.

Preferably, described activation kiln chamber and carbonizing kiln chamber be by pipe connection, and the pipeline air outlet penetrates in the carbonizing kiln chamber near the discharge port place of carbonizing apparatus.

Preferably, the air outlet that the mast outside surface of the screw rod of described activating apparatus evenly has is between the flight.

Preferably, the strand cage of described refrigerating unit is made up of screw rod and strand cage outer tube, and cooling water cavity surrounds strand cage outer tube.

The beneficial effects of the utility model are:

1, this equipment adopts this design of strand cage, makes production efficiency improve greatly;

2, in process of production, inflammable gas in the strand cage is by the air outlet on the strand cage outer tube, be connected with boiler by pipeline, inflammable gas is fully burned in boiler, produce water vapour, burning back hot gas is passed in the activation kiln chamber in the activating apparatus by pipeline, utilize hot gas heat-activated kiln chamber, after this hot gas is passed in the carbonizing kiln by pipeline again, heating carbonizing kiln chamber, hot gas enters from the screw rod inlet mouth of carbonizing apparatus again, passes screw rod, has also heated screw rod, moreover be drained into drying installation from the air outlet of screw rod, drying installation utilizes waste heat that wet feed is carried out drying again, and heat is fully used, and has saved the energy;

3, the hot gas that comes out from kiln feeds screw rod by the screw rod inlet mouth of carbonizing apparatus, discharges from the screw rod air outlet again, and this process is heated screw rod, in process of production, material is heated evenly, thereby makes good product quality, waste heat is fully used;

4, because the waste gas of the utility model equipment exhausting has been fully burned and Btu utilization, be up to state standards, environment is not polluted.

5, the water vapour pipeline of boiler feeds in the activating apparatus in the screw rod cavity in the utility model equipment, so water vapour comes out from the air outlet that boiler is transported to screw rod, spray to the carbon dust that in the strand cage, stirs of activating apparatus more uniformly from the air outlet of screw rod, make carbon dust in activating apparatus, be activated fully, thereby quality product is better;

6, the peripheral cooling water cavity of strand cage outer tube in refrigerating unit makes cooling performance better, prevents gac because temperature is too high, and combustion case takes place, and guarantees production safety.

(4) description of drawings

Accompanying drawing 1 is a kind of synoptic diagram for preparing the equipment of gac.

1, drying installation 2, carbonizing apparatus 3, activating apparatus 4, kiln 5, boiler 6, refrigerating unit 7, wet feed opening for feed 8, induced draft fan 9, drying duct 10, motor 11, transmission rig 12, opening for feed 13, strand cage 14, screw rod 15, inlet mouth 16, air outlet 17, strand cage outer tube 18, strand cage air outlet 19, support 20, discharge port 21, boiler hot gas pipeline 22, feedwater steam pipeline 23, motor 24, transmission rig 25, opening for feed 26, strand cage 27, screw rod 28, air outlet 29, strand cage outer tube 30, support 31, discharge port 32, motor 33, transmission rig 34, opening for feed 35, strand cage 36, screw rod 37, strand cage outer tube 38, cooling water cavity 39, support 40, opening for feed

(5) embodiment

The utility model is described in further detail below in conjunction with embodiment, but protection domain of the present utility model is not limited to this.

But said material generally is the organic materials of charings such as wood chip in the present embodiment.

1, a kind of structure and connection relation for preparing the equipment of gac

(1) structure of drying installation 1 and annexation

As shown in Figure 1, drying installation 1 be by: wet feed opening for feed 7, induced draft fan 8, drying duct 9 interconnect and form, drying installation is arranged between the opening for feed of the screw rod air outlet of carbonizing apparatus and carbonizing apparatus, the front end of the drying duct of carbonizing apparatus has the wet feed opening for feed, induced draft fan and cleaning apparatus are installed on drying duct, drying duct one end is connected with the air outlet of screw rod in the carbonizing apparatus, and the drying duct the other end is connected with the opening for feed of carbonizing apparatus.

(1) structure of carbonizing apparatus 2 and connection relation

As shown in Figure 1, carbonizing apparatus 2 is by motor 10, transmission rig 11, opening for feed 12, strand cage 13, support 19 discharge ports 20 are interconnected to constitute, strand cage 13 is made up of a hollow screw rod 14 and strand cage outer tube 17, the length of screw rod 14 is: 12000mm, transmission rig 11 is by belt, speed reduction unit, shaft coupling is formed, strand cage 13 and some pipelines all are fixed in the carbonizing kiln chamber of kiln 4 in the carbonizing apparatus 2, motor 10 is connected with screw rod 14 by transmission rig 11, screw rod 14 is supported and the location by bearing support, screw rod 14 front ends have inlet mouth 15, the other end has air outlet 16, inlet mouth 15 and air outlet 16 all are made of a plurality of pores, air outlet 16 is connected with the drying duct of drying installation, one end of opening for feed 12 is connected with drying duct, the other end is connected with strand cage front end, discharge port 20 is connected with the opening for feed 25 of activating apparatus by material pipe, strand cage outer tube 17 evenly has 5-20 strand cage air outlet 18, strand cage air outlet 18 is connected with boiler 5 by pipeline, strand cage outer tube 17 outer walls directly contact with the carbonizing kiln chamber of kiln 4, and support 19 is supporting whole strand cage 13.

(3) structure of activating apparatus 3 and connection relation

As shown in Figure 1, activating apparatus is by motor 23, transmission rig 24, opening for feed 25, strand cage 26, support 30, discharge port 31 interconnects and forms, strand cage 26 is made up of a hollow screw rod 27 and strand cage outer tube 29, transmission rig 24 is by belt, speed reduction unit, shaft coupling is formed, activating apparatus 3 is fixed in the activation kiln chamber of kiln 4, motor 23 is connected with screw rod 27 by transmission rig 24, screw rod 27 is supported and the location by bearing support, one port of screw rod 27 is connected with feedwater steam pipeline 22, the cartridge outer surface of screw rod 27 evenly has air outlet, many places 28, air outlet 28 is between the flight, the intensity that keeps screw rod 27 simultaneously, opening for feed 25 is connected with the discharge port 20 of carbonizing apparatus by material pipe, discharge port 31 is connected with the opening for feed 34 of refrigerating unit 6 by material pipe, and support 30 is supporting whole strand cage 26.

(4) structure of kiln 4 and connection relation

Kiln 4 is divided into carbonizing kiln chamber and activation kiln chamber, is provided with sealing coat between the two kiln chambeies, and is connected by pipeline, and the air outlet of pipeline penetrates in the kiln chamber near the discharge port place of carbonizing apparatus.Carbonizing apparatus and activating apparatus all are fixed in the kiln 4.

(5) structure of refrigerating unit 6 and connection relation

As shown in Figure 1, refrigerating unit 6 is by motor 32, transmission rig 33, opening for feed 34, strand cage 35, cooling water cavity 38, support 39, discharge port 40 is formed, strand cage 35 is that a screw rod 36 is formed with strand cage outer tube 37, the length of screw rod 36 is: 4000mm, transmission rig 33 is by belt, speed reduction unit, shaft coupling is formed, one end of opening for feed 34 is connected with the front end of strand cage 35, discharge port 31 in the other end and the activating apparatus 3 joins, discharge port 40 is connected with the rear end of strand cage 35, motor 32 is connected with the screw rod 36 of strand in the cage 35 by transmission rig 33, screw rod 36 is supported and the location by bearing support, cooling water cavity 38 surrounds strand cage outer tube 37, the outer wall of strand cage outer tube 38 directly contacts with the water in the cooling water cavity 37, and support 39 is supporting whole strand cage 35.

2, a kind of equipment moving relation for preparing gac

(1) a kind of equipment material for preparing gac feeds motion

In process of production, opening device, the induced draft fan of drying installation 1 is opened, carbonizing apparatus 2, the motor starting of activating apparatus 3 and refrigerating unit 6, drive corresponding screw rod by transmission rig, wet stock enters drying duct 9 drying installation 1 from wet feed opening for feed 7, under the effect of the promotion of hot gas and induced draft fan 8, pass the opening for feed 12 that drying duct 9 enters into carbonizing apparatus 2, enter in the strand cage 13 from opening for feed 12, material advances to discharge port 20 places under the effect of the screw rod 14 of rotation, in propulsive process, finish the charing of material, moreover discharge from the discharge port 20 of carbonizing apparatus 2, because the opening for feed 25 of the discharge port 20 of carbonizing apparatus 2 and activating apparatus 3 is connected by material pipe, material directly enters in the opening for feed 25 of activating apparatus 3, enter from opening for feed 25 in the strand cage 26 of activating apparatus 3, rotation along with strand cage 26 internal screw bars 27, material promotes to discharge port 31 places, in activating apparatus 3, finish the activation of carbon dust, because the opening for feed 34 of the discharge port 31 of activating apparatus 3 and refrigerating unit 6 is connected by material pipe, material enters in the opening for feed 34 of refrigerating unit 6, enter from opening for feed 34 in the strand cage 35 of refrigerating unit 6, rotation along with strand cage 35 internal screw bars 36, material promotes to discharge port 40 places, finish the cooling of carbon dust, final material is discharged from discharge port 40, is sent to other carbon system processing unitss, and whole charging and discharging process time are about 30 minutes.

(2) a kind of equipment gas circulation motion for preparing gac

In process of production, in the carbonizing kiln chamber of kiln 4, add inflammable gass such as coal gas earlier, igniting makes its burning, heat whole carbonizing kiln chamber, again owing to strand cage outer tube 17 outer walls directly contact with the carbonizing kiln chamber, make strand cage outer tube 17 temperature raise, along with material comes out from drying machine, enter in the strand cage 13 in the carbonizing apparatus 1, in the effect of rotating screw rod 14 in discharge port 20 propulsive processes, the temperature of strand cage outer tube 17 has passed to material, material temperature is raise, and under the effect of the stirring of screw rod 14, make evenly being heated of material, material is in the process of heating, material generation chemical transformation in the material, produce a large amount of inflammable gass, gas rises, by the strand cage air outlet 18 on the strand cage outer tube 17, enter the pipeline in the carbonizing kiln chamber that is arranged on kiln 4, pipeline is connected with boiler, inflammable gas is passed in the boiler, burning fully produces a large amount of high-temperature vapor and hot gas in boiler, and high-temperature vapor feeds in the screw rod 27 of activating apparatus, hot gas feeds the activation kiln chamber of kiln 4, heated whole activation kiln chamber, hot gas has entered the carbonizing kiln chamber of kiln 4 again by pipeline, heat whole carbonizing kiln chamber, the hot gas that comes out from the carbonizing kiln chamber enters the inlet mouth 15 of screw rod 14, enter in screw rod 14 cavities, hot gas heats whole screw rod 14 by heat exchange, passes screw rod 14 again, arrive the air outlet 16 of screw rod 14, because air outlet 16 is connected with drying duct 9, hot gas is discharged from the end outlet of drying duct 9 under induced draft fan 8 effects.

3, a kind of equipment work principle for preparing gac

Light the inflammable gas that fills in advance in the carbonizing kiln chamber of kiln 4 earlier, temperature in the carbonizing kiln chamber is raise, material is from wet feed opening for feed 7 access arrangements of drying installation 1, effect at waste heat, wet feed is carried out drying, dried material enters in the strand cage 13 of carbonizing apparatus, under the promotion of screw rod 14, promote to discharge port 20 directions, under the effect of the hot gas heating in the carbonizing kiln chamber of kiln 4, material generation chemical transformation in the material, produce a large amount of inflammable gass, inflammable gas rises and passes the strand cage air outlet 18 of twisting on the cage outer tube 17, enter the pipeline that is arranged in the carbonizing kiln chamber, pipeline is connected with boiler, inflammable gas is passed in the boiler, burning fully in boiler, produce a large amount of high-temperature vapor and hot gas, high-temperature vapor feeds in the screw rod 27 of activating apparatus, high-temperature vapor sprays from the air outlet 28 on the screw rod 27, be sprayed at by the carbon dust of carbonizing apparatus charing, it is activated fully, the hot gas that comes out from boiler feeds the activation kiln chamber of kiln 4, heated whole activation kiln chamber, hot gas has entered the carbonizing kiln chamber of kiln 4 again by pipeline, heat whole carbonizing kiln chamber, make the temperature in whole carbonizing kiln chamber reach 550 ℃-600 ℃, heated the strand cage 27 of activating apparatus, make the temperature in the strand cage 27 reach powdered carbon activatory temperature, with the acting in conjunction of the high-temperature vapor of air outlet 28 ejection from screw rod 27 under, carbon dust fully activates, hot gas in the activation kiln chamber has entered the carbonizing kiln chamber of kiln 4 again by pipeline, heat whole carbonizing kiln chamber, make the temperature in whole carbonizing kiln chamber reach 350 ℃-400 ℃, the strand cage 13 of heating carbonizing apparatus, make strand cage 13 interior temperature reach the temperature of carbon dust charing, constantly add in this process in the carbonizing kiln chamber of heating kiln 4, do not need constantly to add the carbonizing kiln chamber of heating kiln 4 with fuel gas buring, heat material temperature in the strand cage 13, saved a large amount of energy.

The hot gas that comes out from the carbonizing kiln chamber enters the inlet mouth 15 of screw rod 14, enter in screw rod 14 cavities, hot gas heats whole screw rod 14 by heat exchange, pass screw rod 14 again, arrive the air outlet 16 of screw rod 14, because air outlet 16 is connected with drying duct 9, hot gas is under induced draft fan 8 effects, discharge from the end outlet of drying duct 9, hot gas is dry wet stock in this process, this gas circulation utilization design makes the energy obtain comprehensive utilization, and material is heated evenly, and makes that the quality of product is better.In this process, the suffered temperature with discharge port 20 places strand cage 13 in of material in opening for feed 12 places strand cage 13 is different, and temperature raises gradually, the temperature height at discharge port 20 places, material charing under this high temperature and anoxybiotic state.

Material is along with the screw rod 27 of activating apparatus rotates, material temperature is very high, go out from discharge port 31 again, as directly being drained in the air, may blaze up, so the utility model designs a refrigerating unit 6, the strand cage outer tube 37 outer cooling water cavities 38 that surround of refrigerating unit 6, come out from activating apparatus 3 at material, enter in the strand cage 35 of refrigerating unit 6, along with the rotation of screw rod 36 advances to discharge port 40 places, in this course, the heat of material carries out heat exchange with strand cage outer tube 37, strand cage outer tube 37 carries out heat exchange with cooling water cavity 38, brings water coolant heat, makes the heat of material reduce, temperature of charge during to discharge port 40 is a room temperature, thus make gac can safety device for transferring outside.

Claims

1. equipment for preparing gac, be by carbonizing apparatus, activating apparatus, kiln, boiler and refrigerating unit are formed, carbonizing apparatus is by opening for feed, motor, transmission rig, the strand cage, discharge port, support, pipeline is formed, activating apparatus is by opening for feed, motor, transmission rig, the strand cage, discharge port, support, pipeline is formed, kiln is made up of carbonizing kiln chamber and activation kiln chamber, it is characterized in that: carbonizing apparatus is fixed in the carbonizing kiln chamber, activating apparatus is fixed in the activation kiln chamber, be provided with sealing coat between the two kiln chambeies, and be connected by pipeline, the strand cage of carbonizing apparatus is made up of a hollow screw rod and strand cage outer tube, screw rod is provided with inlet mouth and air outlet, strand cage outer tube many places have the air outlet, the air outlet is connected with boiler by pipeline, the strand cage of activating apparatus is made up of a hollow screw rod and strand cage outer tube, the screw rod surface has the air outlet, carbonizing apparatus is connected by material pipe with activating apparatus, the gas pipeline of boiler penetrates the activation kiln chamber of activating apparatus, and the water vapour pipeline of boiler penetrates in the screw rod cavity of strand cage of activating apparatus.

2. the equipment of preparation gac according to claim 1 is characterized in that: the screw rod of carbonizing apparatus is provided with inlet mouth near opening for feed one end, and an end of close discharge port is provided with the air outlet.

3. the equipment of preparation gac according to claim 1 is characterized in that: the strand cage outer tube upper top of carbonizing apparatus evenly has 5-20 air outlet.

4. the equipment of preparation gac according to claim 1 is characterized in that: pipe connection is passed through in activation kiln chamber and carbonizing kiln chamber, and the pipeline air outlet penetrates in the carbonizing kiln chamber near the discharge port place of carbonizing apparatus.

5. the equipment of preparation gac according to claim 1 is characterized in that: the air outlet that the mast outside surface of the screw rod of activating apparatus evenly has is between the flight.

6. the equipment of preparation gac according to claim 1, it is characterized in that: between the opening for feed of the screw rod air outlet of carbonizing apparatus and carbonizing apparatus, be provided with drying installation, drying installation is made up of wet feed opening for feed, drying duct, induced draft fan, the front end of drying duct has the wet feed opening for feed, induced draft fan is installed on drying duct, drying duct one end is connected with the air outlet of screw rod in the carbonizing apparatus, and the drying duct the other end is connected with opening for feed in the carbonizing apparatus.

7. the equipment of preparation gac according to claim 1, it is characterized in that: refrigerating unit is made up of motor, transmission rig, opening for feed, strand cage, cooling water cavity, discharge port, support, one end of opening for feed is connected with the front end of strand cage, discharge port in the other end and the carbonizing apparatus joins, discharge port is connected with the rear end of strand cage, motor is connected with the screw rod of strand in the cage by transmission rig, stent support whole strand cage, the strand cage is made up of screw rod and strand cage outer tube, and cooling water cavity surrounds strand cage outer tube.