CN101486929B - Biomass non-pressure gas making machine - Google Patents
Biomass non-pressure gas making machine Download PDFInfo
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- CN101486929B CN101486929B CN 200910114932 CN200910114932A CN101486929B CN 101486929 B CN101486929 B CN 101486929B CN 200910114932 CN200910114932 CN 200910114932 CN 200910114932 A CN200910114932 A CN 200910114932A CN 101486929 B CN101486929 B CN 101486929B
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E20/00—Combustion technologies with mitigation potential
- Y02E20/16—Combined cycle power plant [CCPP], or combined cycle gas turbine [CCGT]
- Y02E20/18—Integrated gasification combined cycle [IGCC], e.g. combined with carbon capture and storage [CCS]
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Abstract
The invention discloses a biomass stress-free gas producing machine which comprises a machine, an air inlet oxygen-feeding device, a rotary dedusting device and a circulating hot water supply device; the biomass stress-free gas producing machine is characterized in that the machine is internally provided with a gas producing collision reaction device and more than one set of parallel-connected or serially-connected gas producing reaction device; each set of gas producing reaction device comprises a gasification furnace, a wastewater and tar high-temperature pyrolysis reaction device and a swaging actuating device; the wastewater and tar high-temperature pyrolysis reaction device is filled with dolomite; the secondary pure gas output tubes arranged at the bottom of each set of the wastewater and tar high-temperature pyrolysis reaction device are connected with the bottom of the collision reaction device after serially connected or parallel connected subsequently. The biomass stress-free gas producing machine is a novel gasification device to carry out second decomposition on the wastewater and tar by using the high-temperature chemical reaction of the wastewater and tar and the dolomite, which takes the dolomite as medium to carry out decomposition on the wastewater and tar by high temperature, so as to actually achieve the goals of zero emission, no secondary pollution, green environmental protection and large-scale gas production in the biomass gas producing technology.
Description
Technical field
The present invention relates to combustion equipment, especially relate to a kind of biomass non-pressure gas making machine that uses inferior solid-state biomass to carry out extensive aerogenesis as raw material.
Background technology
Biomass gasification technology is meant under unburnt condition, utilizes airborne oxygen or oxygen carrier to make vaporized chemical, with Wood Adhesives from Biomass for containing H
2, CO, CH
4Process Deng inflammable gas.At present biomass thermal chemical conversion technology is a kind of of tool practicality in the gasification technology; It is that inferior solid-state biomass is converted into high-quality inflammable gas; It can be widely used in and drive oil engine, Stirling hot-air engine generating and agricultural irrigation equipment, or directly is used for cooking, heating, used for drying corps and Industrial products oven dry etc.And inferior solid-state biomass is exactly the waste (like husk, wood chip, stalk) of grain and farm-forestry crop, all kinds of combustible life, medical rubbish and all types of industries product deutero-incendivity waste etc.; They are a kind of inexhaustible substitute energys; Be a kind of renewable resource of preciousness, and China is to the technological lag that utilizes of biomass energy, utilization ratio less than 10%; All the other mostly go out of use or commit to the flames, very unfortunately.
Biomass gasification technology mostly is through the air combustion direct gasification, and the combustion gas that is produced all is low heating value gass, and the general heating amount is 5MJ/m
3About.The biomass indirect gasification technology that adopts outside heat supply is also arranged, owing to do not contain N in its combustion gas composition
2, thereby calorific value can reach 10-15MJ/m
3Particularly when water vapor is made gasifying medium, can obtain H
2Content reaches the combustion gas about 50%.At present, all biomass gasification device all exists the temperature of thermal chemical reaction in the gasification installation and effective product combustion gas (H
2, CO, CH
4) matching problem of turnover ratio, and this just directly caused in the gas generation process part effectively the product combustion gas be converted into carbonic acid gas, waste water and tar, make the productive rate of effective product combustion gas descend and form second environmental pollution.
Owing to contain impurity such as a large amount of tar, ash content and water vapor in the combustion gas of gasifying biomass, must it be removed and just can obtain effective product combustion gas.Tar is a kind of complex compound of being made up of aromatic hydrocarbon and verivate thereof and polycyclic aromatic hydrocarbons, and the component that can analyze just reaches kind more than 100, also has a lot of compositions to be difficult to confirm.Wherein massfraction is respectively benzene, naphthalene, toluene, YLENE, vinylbenzene, phenol and indenes greater than 5% nearly 7 kinds.Biomass coke tar is gaseous state being liquid below 200 ℃ more than 300 ℃, at high temperature can resolve into the small molecules permanent gases.In biomass gasification process, the subject matter that tar produces the back existence has: (1) tar accounts for the 5%--10% of combustible gas energy, is difficult at low temperatures utilized by burning with combustion gas, and waste is serious; (2) tar condenses into liquid at low temperatures, and Yi Heshui, carbon granule etc. combines, and stops up gas pipe line, blocks valve, corroding metal, and causing can't trouble-free burning; (3) tar is difficult to perfect combustion, and produces particle such as carbon black, and is serious to the gas-fired equipment infringement; (4) smell of tar and the generation of burning back thereof has the trace infringement to human body.This shows that the tar in the combustible gas has sizable hazardness, is the biggest obstacle that gasification is used.Therefore, how tar is changed into effective product combustion gas (H
2, CO, CH
4) become a urgent problem.
At present, the Technology of removing tar and dust both at home and abroad mainly contains three kinds of wet purification, dry purification and cracking purifications.
System for wet purification mainly is to adopt the method for water washing to remove tar and dust; This purification system generally is to link together two or more washing purifiers; System cost is lower, and is simple to operate, this mode of the general employing of the purification system at biomass gasification technology initial stage; But this mode is eliminated owing to there is following shortcoming gradually: 1, contain the waste water directly discharging usually of tar, cause secondary pollution; 2, a large amount of tar lose with current, cause the waste of energy; 3 change effects are bad.
Dry cleaning system is the purifying method of the cascade filtration that adopts for the pollution problem of avoiding tar; Like the two stage cyclone fly-ash separator dedusting of in fixed bed lower suction type biomass gasifying furnace, adopting; One-level tubular cooler and box filter purification system without grit and tar in the thick gas of water washing, can be avoided the secondary pollution to water and soil earth like this; But it is bad that this purification system is removed the effect of tar, and the deposition of tar is very serious.
To the tar in the gasification; The good method that can take is to be converted into combustible gas to it; Both can improve the vapourizing furnace gasification efficiency, can reduce the coal-tar middle oil content of combustion gas again, improve the utility value of combustible gas; The cracking purification techniques is to make it be cracked into available disposable gas someway the tar utilization that is produced in the gasification, and its method has thermo-cracking, catalytic pyrolysis, electric cracking etc.Ways such as simple in the past washing or filtration are just separated tar from gas; Not only waste the energy of tar itself but also produced a large amount of pollutions; Thermo-cracking needs very high temperature and enough residence time, has implemented certain difficulty, and catalystic pyrolysis has reduced the coal-tar middle oil content of combustion gas; Be the most effective, state-of-the-art at present method, in large and medium-sized vapourizing furnace, be used gradually.In catalytic pyrolysis, most critical be the problem of selecting for use of catalyzer, a large amount of experiment proofs; A lot of materials all have katalysis to coke tar cracking, as: Ni base and heavy oit pyrolysis catalyzer, they are active high; Effective, existing very high cleavage rate in the time of 700 ℃, but their costs are higher; Carbon deposit causes its inactivation again easily, in general biomass gasification technology, is difficult to use.
Summary of the invention
The object of the present invention is to provide a kind of with rhombspar do medium through high temperature to the tar in the combustion gas and waste water carry out that second pyrolysis makes it be converted into effective product combustion gas once more, realizes non-secondary pollution, really reaches zero release, environmental protection, the biomass non-pressure gas making machine of aerogenesis on a large scale.
The objective of the invention is to realize like this: the present invention includes body, air intake helps oxygen device, rotation ash handling equipment and circulation heating water device; Wherein air intake helps the oxygen device to be made up of gas blower and gas blower blast tube in the external left side of fitting machine; Circulation heating water device is by the water inlet pipe of bringing penstock into, form around the circulation heating water pipe of gasification furnace body outer wall and the hot water outlet pipe who takes penstock out of; Thermometer and the tensimeter that is used to show chamber temperature and pressure is installed on the top, outside of body; Bottom, outside at body is provided with ash output hole; Characteristic is in body, to be provided with aerogenesis crash response device and an above parallel connection of cover or a placed in-line air-generating reaction device; Outside body, be provided with more than the cover and the continuous feeding of air-generating reaction matched with devices; Every cover air-generating reaction device is that round shape, below are gasification body of heater, waste water and tar Pintsch process reaction unit and the binder transmission mechanism composition of taper by the top, and the gasification body of heater is divided into the combustion chamber of top and igniting chamber two portions of below by grate, in igniting chamber, installs to be provided with lighter for ignition and to rotate ash handling equipment; In body, below be provided with the waste water and the tar Pintsch process reaction unit of ring-type tubular for the outside, the combustion chamber of taper; In waste water and tar Pintsch process reaction unit, be filled with rhombspar, the inlet end of the band combustion gas output switch of main gas tube is installed in the vertical the right of body, and is communicated with the combustion chamber; The outlet side of main gas tube is installed in the top side-walls of waste water and tar Pintsch process reaction unit; The aerogenesis crash response device of ring-type tubular is installed on the right side of the intravital air-generating reaction device of machine, and the bottom of aerogenesis crash response device is higher than the bottom of waste water and tar Pintsch process reaction unit, on the sidewall of aerogenesis crash response device, is equipped with to be up and down staggered tar cooling Impactor; The inlet end of pure combustion gas output tube is located at aerogenesis crash response device top, and the body that passes outwards through of the outlet side of pure combustion gas output tube links to each other with equipment through pure combustion gas output valve; Every cover waste water links to each other with the bottom of aerogenesis crash response device behind the serial or parallel connection with the inferior pure combustion gas output tube of tar Pintsch process reaction unit bottom successively; Continuous feeding is made up of continuous charging bucket, feed-pipe and screw feeding turbine; The lower end of continuous charging bucket is fixed on the opening for feed place of feed-pipe left end; Screw feeding turbine to the combustion chamber pressing materials is installed in the feed-pipe, and the discharge port of feed-pipe right-hand member stretches in the body and communicates with the middle and lower part of combustion chamber; It is that the combustion chamber of taper communicates that the gas blower blast tube gets in the body with the below behind blower switch; The thick gas escape pipe that the band thick air valve of row is installed and is communicated with on the vertical left side of every cover gasification body of heater with the combustion chamber.
The vertical dividing plate of scission reaction that aerogenesis crash response device is divided into two is installed in waste water and tar Pintsch process reaction unit; Make after the thick gas that obtains behind waste water and the tar Pintsch process reaction unit gets into waste water and tar Pintsch process reaction unit, must in waste water and tar Pintsch process reaction unit, after the abundant reaction of a circle becomes time pure combustion gas, just get in the aerogenesis crash response device.
All be equipped with in the upper end of each thick gas escape pipe and be located at the tubaeform cover that thick gas circulation tube upper end can horizontally rotate, the lower end of thick gas circulation tube links to each other with the gas blower blast tube through threeway.
On every cover air-generating reaction device, be equipped with the binder transmission mechanism that constitutes by binder transmission bracket, pressing plate, iron chains and rolling rod; Two binder transmission bracket are installed in the center of top of gasification body of heater; The rolling rod that comes transmission through motor or wind is installed between two binder transmission bracket; In the combustion chamber, be provided with pressing plate, the lower end of iron chains and pressing plate intermediary hanger are fixed together, and the upper end of iron chains is fixed on the centre of rolling rod.
Below in the combustion chamber of taper, grate above the air intake that communicates with the gas blower blast tube be installed help the oxygen disk, help the air outlet that evenly is processed with rounded arrangement on the oxygen disk at air intake.
The scope of rhombspar particle diameter is 5--15cm.
Carbon massfraction in the biomass is about 40%, is elements such as hydrogen, nitrogen, oxygen, magnesium, silicon, phosphorus, potassium, calcium secondly.The organic composition of biomass is main with Mierocrystalline cellulose, semicellulose, and massfraction is 50%.Biomass material heats under anoxia condition, makes it to take place the energy conversion process of complicated thermal chemical reaction.This process nature is atoms of elements such as the carbon, hydrogen, oxygen in the biomass, under reaction conditions, according to the one-tenth key principle of chemical bond, becomes the molecule of inflammable gass such as carbon monoxide, methane, hydrogen.Like this, the most of energy in the biomass is just transferred in these gases.The realization of the gasification of above-mentioned biomass is accomplished through gasification reactor apparatus (being gas making machine).
The applicant has carried out the catalytic pyrolysis experiment to cavings, pine powder at the tar that 700 ° of gasified produce, and research contrasts the catalytic performance of several kinds of catalyzer, and the result shows and takes all factors into consideration H in the cracked gas
2, CO, CH
4Content, 700 ℃ down the catalytic performance of several kinds of catalyzer be: Ni base cleavage rate 99%, heavy oit pyrolysis 95%, rhombspar cracking 69%, thermo-cracking 31%.Wherein rhombspar is when 800 ° of temperature, and cleavage rate reaches 99%.Can be known by above experimental result: Ni base and heavy oit pyrolysis catalyst activity are high, effective, existing very high cleavage rate in the time of 700 ℃, but their costs are higher, and carbon deposit causes its inactivation again easily, in general biomass gasification technology, is difficult to use.And rhombspar [CaMg (CO3)
2] in contain 20%MgO, 30%CaO, 40%CO2 and some other micro-mineral substance, it both can do mix directly entering vapourizing furnace pyrolysis fuel oil of back with biomass, also can be in self-contained system the tar in the catalytic pyrolysis combustion gas; Be reduced into stable inflammable gas; Transformation efficiency can reach more than 99.8%, and low cost of manufacture, although cleavage rate is than above two kinds low in the time of 700 ℃; But the ideal cleavage rate is arranged in the time of more than 800 ℃; In the time of 900 ℃ even can reach 99.8%, having very high practical value, is ideal biomass coke tar catalyst for cracking.The catalytic pyrolysis of tar also requires suitable device and processing condition except that requiring appropriate catalyst; Influencing the most important factor of catalytic effect is temperature and duration of contact, and the needed suitable temperature of rhombspar catalyzer is 800 ℃--900 ℃, and this temperature is close with the gasifying biomass temperature; Realize easily; Duration of contact is by the decision of the specific surface area of the relative residence time of gas and catalyzer, so the relative residence time of gas and dolomite particles size become the important process condition of catalytic pyrolysis, when being relative residence time 0.1-0.25 second for fluidized-bed; The present invention is more satisfactory cracker, and wherein the OK range of rhombspar particle diameter is 5--15cm.
Biomass non-pressure gas making machine of the present invention is that the waste water that utilizes the press-down type anaerobism gasification combustion gas that body of heater produced to get into to have loaded rhombspar in the annular barrel obtains the biomass non-pressure gas making machine of pure effective product combustion gas with tar Pintsch process reaction unit and aerogenesis crash response device, and it has manufacturing combustion gas, purifying gas, separates the function of combustion gas automatically.
The present invention utilizes depleted regenerated crystal biomass material within 5-6 minute, to be converted into pure combustible gas immediately; The incendiary gaseous mass can with coal gas, liquefied gas, the equal effect of diesel oil; Be superior to other products in a way; And it is that medium carries out second pyrolysis through high temperature to waste water and tar with the rhombspar; Gasification installation before having overcome can only carry out the shortcoming that a cracking, cracking are insufficient, still have tar and discharge of wastewater, thereby really reaches the zero release of biomass gas producing technology, realizes that non-secondary pollution, all associations thick gas and tar can realize that second pyrolysis, gasification efficiency are high, it is fast, stable to start, environmental protection, the purpose of aerogenesis on a large scale.No pressure in the combustion chamber of the present invention can not produce the danger of blast, and is safe and reliable.The present invention can be widely used in and drive oil engine, Stirling hot-air engine generating and agricultural irrigation equipment, or cooking, heating, used for drying corps and the Industrial products oven dry etc. that directly are used for whole unit, company, hotel or village are located.
Description of drawings
Fig. 1 is a contour structures synoptic diagram of the present invention;
Fig. 2 is for having only the internal structure synoptic diagram of a cover air-generating reaction device in the body of the present invention;
Fig. 3 is the cross sectional representation of waste water and tar Pintsch process reaction unit and aerogenesis crash response device;
Fig. 4 is the schematic top plan view of waste water and tar Pintsch process reaction unit
Fig. 5 is the schematic top plan view that helps the oxygen combustion unit;
Synoptic diagram is looked on the right side at A-A place among Fig. 6;
Fig. 7 is for there being the internal structure synoptic diagram of three cover air-generating reaction devices in the body of the present invention.
Embodiment
Below in conjunction with embodiment and contrast accompanying drawing the present invention is done further explain.
Embodiment 1: in body, have only a cover air-generating reaction device
The present invention includes body 1, air intake helps the oxygen device, is installed in rotation ash handling equipment 2 and circulation heating water device in the igniting chamber 34; Wherein air intake helps the oxygen device to be made up of with gas blower blast tube 25 gas blower 23 in left side outside body 1 is installed; Circulation heating water device is by the water inlet pipe of bringing penstock 21 into 22, form around the circulation heating water pipe 39 of gasification body of heater 30 outer walls and the hot water outlet pipe 9 that takes penstock 8 out of; The thermometer 4 and tensimeter 5 that is used to show combustion chamber 29 temperature and pressures is installed on the top, outside of body 1; Bottom, outside at body 1 is provided with ash output hole 26; In body 1, be provided with an aerogenesis crash response device 35 and a cover air-generating reaction device; Outside body 1, be provided with the continuous feeding device of a cover; Air-generating reaction device 38 is that round shape, below are gasification body of heater 30, waste water and tar Pintsch process reaction unit 31 and the binder transmission mechanism composition of taper by the top; Gasification body of heater 30 is divided into igniting chamber 34 two portions of the combustion chamber 29 and the below of top by grate 33; In igniting chamber 34, install and be provided with lighter for ignition 3, in body 1, below for 29 outsides, combustion chamber of taper are provided with the waste water and the tar Pintsch process reaction unit 31 of ring-type tubular, in waste water and tar Pintsch process reaction unit 31, be filled with rhombspar 37; The inlet end of the band combustion gas output switch 27 of main gas tube 10 is installed in body 1 vertical the right; And be communicated with combustion chamber 29, the outlet side of main gas tube 10 is installed in the top side-walls of waste water and tar Pintsch process reaction unit 31, and the right side of the air-generating reaction device in body 1 is equipped with the aerogenesis crash response device 35 of ring-type tubular; The bottom of aerogenesis crash response device 35 is higher than the bottom of waste water and tar Pintsch process reaction unit 31; On the sidewall of aerogenesis crash response device 35, be equipped with and be staggered up and down tar cooling Impactor 36, the inlet end of pure combustion gas output tube 7 is located at aerogenesis crash response device 35 tops, and the body 1 that passes outwards through of the outlet side of pure combustion gas output tube 7 links to each other with external equipment through pure combustion gas output valve 6; Waste water links to each other with the bottom of aerogenesis crash response device 35 with the inferior pure combustion gas output tube 38 of tar Pintsch process reaction unit 31 bottoms; Continuous feeding is made up of continuous charging bucket 18, feed-pipe 19 and screw feeding turbine 20; The lower end of continuous charging bucket 18 is fixed on the opening for feed place of feed-pipe 19 left ends; Screw feeding turbine 20 to combustion chamber 29 pressing materials is installed in the feed-pipe 19, and the discharge port of feed-pipe 19 right-hand members stretches in the body 1 and communicates with the middle and lower part of combustion chamber 29; It is that the combustion chamber 29 of taper communicates that gas blower blast tube 25 gets in the body 1 with the below behind blower switch 24; The thick gas escape pipe 15 that the band thick air valve 14 of row is installed and is communicated with on the gasification body of heater 30 vertical left sides with combustion chamber 29.
The vertical dividing plate 39 of the scission reaction that aerogenesis crash response device 35 is divided into two is installed in waste water and tar Pintsch process reaction unit 31; Make after the thick gas that obtains behind waste water and the tar Pintsch process reaction unit gets into waste water and tar Pintsch process reaction unit 31, must in waste water and tar Pintsch process reaction unit 31, after the abundant reaction of a circle becomes time pure combustion gas, just get in the aerogenesis crash response device 35.
All be equipped with in the upper end of thick gas escape pipe 15 and be located at the tubaeform cover 16 that thick gas circulation tube 17 upper ends can horizontally rotate, the lower end of thick gas circulation tube 17 links to each other with gas blower blast tube 25 through threeway.
On every cover air-generating reaction device, be equipped with the binder transmission mechanism that constitutes by binder transmission bracket 11, pressing plate 28, iron chains 13 and rolling rod 12; Two binder transmission bracket 11 are installed in the center of top of gasification body of heater; The rolling rod 12 that comes transmission through motor or wind is installed between two binder transmission bracket 11; In the combustion chamber, be provided with pressing plate 28, the lower end of iron chains 13 and pressing plate 28 intermediary hangers are fixed together, and the upper end of iron chains 13 is fixed on the centre of rolling rod 12.
Below the combustion chamber 29, grate 33 above the air intake that communicates with gas blower blast tube 25 be installed help oxygen disk 32; Help the rounded arrangement that evenly is processed with on the oxygen disk 32 more than two pairs, the airduct 40 that is 45 at air intake; Evenly upwards air blast of airduct 40, thus guarantee that combustion chamber 29 is covering of the fan work.
The scope of rhombspar 37 particle diameters is 5--15cm.
Principle of work:
Biomass are at first clamp-oned in the combustion chamber 29 of gasification body of heater 30 through continuous charging bucket 18 by continuous feeding; Gas, waste water and the tar that after lighter for ignition 3 is lighted, produces gets into waste water and tar Pintsch process reaction unit 31 through main gas tube 10; React with the rhombspar 37 in waste water and the tar Pintsch process reaction unit 31; Carry out preliminary strong separating, make strong the separating of tar become nonvolatil pure combustion gas, obtain containing the inferior pure combustion gas of pure combustion gas, waste water and tar; Solve the many problems of gas tar content so on the one hand, improved fuel gases calorific value on the other hand.Inferior pure combustion gas gets in the aerogenesis crash response device 35 again, in aerogenesis crash response device 35, fully becomes pure combustion gas after the reaction around a circle, and pure combustion gas is just from pure combustion gas output tube 7 outputs.Waste water and tar are condensed into oil droplet after in aerogenesis crash response device 35, running into up and down staggered tar cooling Impactor 36 in the operational process; Drip to aerogenesis crash response device 35 bottoms; Because the bottom of aerogenesis crash response device 35 is higher than the bottom of waste water and tar Pintsch process reaction unit 31; The waste water of condensation and tar are back to waste water and tar in aerogenesis crash response device 31 through inferior pure combustion gas output tube 38; React once more with rhombspar 37 and to carry out second pyrolysis, produce pure combustion gas and export through pure combustion gas output valve 6 at last.The thick gas that can produce in 5 minutes of the initial reaction after lighter for ignition 3 is lighted; The thick gas escape pipe 15 of thick gas warp, thick gas circulation tube 16 are again in gas blower blast tube 25 entering combustion chambers 29; The thick air valve 14 of the row of closing after 5 minutes, the 30 beginning aerogenesis work of gasification body of heater.In the initial combustion process, combustion chamber 29 endogenous substances are fully loaded with, and pressing plate 28 guarantees down the biomass compacting and along with the consumption of biomass descends automatically in deadweight, thereby guarantees can not burn, put up a bridge when gasification body of heater 30 is worked.Under the effect of gas blower 23, airduct 40 is evenly upwards air blast of 45, thereby guarantees that combustion chamber 29 is covering of the fan work, and the working temperature of combustion chamber 29 is reached more than 800 degree.
The principle of work of waste water and tar Pintsch process reaction unit 31: when start working in combustion chamber 29; The temperature of combustion chamber 29 below ring-type conical inboard wall steel plates can reach after 5-10 minute more than 800 ℃; Can reach after 30 minutes more than 1100 ℃; Rhombspar 37 in logical superheated conduction progressively increasing thermal wastewater and the tar Pintsch process reaction unit 31 in the rhombspar fluidized-bed, when the waste water of association in the thick gas contacted high temperature rhombspar 37 with tar, waste water and tar began to be cracked into inflammable gas and get into aerogenesis crash response device 35; Running hours, this reaction process circulation is carried out.Combustion chamber 29 bottom ring-type back taper type inwall steel plates adopt special boilers use the heatproof steel plate, its heatproof can reach about 1900 ℃ and heat conduction fast, can in 5-10 minute, rhombspar 37 be heated to more than 800 ℃, thereby assurance rhombspar 37 carries out the cracked temperature.
In normal operation of boiler was carried out, boiler had guaranteed the continuous air feed work of boiler through the work of screw feeding turbine 20 with pressing plate 28.Reach after the purpose that adds hot water from 8 outputs of circulating hot water delivery valve from the waste heat that utilizes air-generating reaction after inlet valve 21 gets into bodies 1 through the normal pressure tap water simultaneously.Vapourizing furnace sinters piece easily in reaction process, be difficult for ash discharge, solves this problem through rotation ash handling equipment 2, thereby guarantees to reach the purpose of non-stop run.
Method of use:
1, biomass is clamp-oned in the combustion chamber 29 of gasification body of heater 30 by continuous feeding through continuous charging bucket 18, and filled up combustion chamber 29;
2, rotate rolling rod 12 through motor or wind, be pulled upwardly pressing plate 28, plump pressing plate 28 again, compress the biomass in the combustion chamber 29;
3, the biomass of lighter for ignition ignition combustion chambers 3 29 bottoms; And the thick air valve 14 of the row of opening; The thick gas that produces is discharged from thick gas escape pipe 15; And through thick gas circulation tube 16 again in gas blower blast tube 25 entering combustion chambers 29, the thick air valve 14 of the row of closing after 5 minutes, the 30 beginning aerogenesis work of gasification body of heater;
4, open pure combustion gas output valve 6, can obtain pure combustion gas.
Embodiment 2: the air-generating reaction device more than two covers is arranged in body
The structure of embodiment 2 and embodiment 1 are basic identical, and difference is:
In body 1, be provided with aerogenesis crash response device 35 and two above parallel connection of cover or placed in-line air-generating reaction devices; Outside body 1, be provided with more than two covers and the continuous feeding of air-generating reaction matched with devices, every cover waste water links to each other with the bottom of aerogenesis crash response device 35 behind the serial or parallel connection with the inferior pure combustion gas output tube 38 of tar Pintsch process reaction unit 31 bottoms successively.
Many cover air-generating reaction devices link together through parallel connection or placed in-line mode, and many cover air-generating reaction devices are worked simultaneously, reach the purpose of extensive aerogenesis.
Claims (6)
1. biomass non-pressure gas making machine; Comprise rotation ash handling equipment (2) and circulation heating water device that body (1), air intake help the oxygen device, are installed in igniting chamber in (34); Wherein air intake helps the oxygen device to be made up of the gas blower (23) and the gas blower blast tube (25) in left side outside body (1) is installed; Circulation heating water device is by the water inlet pipe of bringing penstock (21) into (22), form around the circulation heating water pipe (39) of gasification body of heater (30) outer wall and the hot water outlet pipe (9) that takes penstock (8) out of; Thermometer (4) and the tensimeter (5) that is used to show combustion chamber (29) temperature and pressure is installed on the top, outside of body (1); Be provided with ash output hole (26) in the bottom, outside of body (1); It is characterized in that: in body (1), be provided with an aerogenesis crash response device (35) and a cover air-generating reaction device; Outside body (1), be provided with the continuous feeding device of a cover; Air-generating reaction device (38) is that round shape, below are gasification body of heater (30), waste water and tar Pintsch process reaction unit (31) and the binder transmission mechanism composition of taper by the top; Gasification body of heater (30) is divided into the combustion chamber (29) of top and igniting chamber (34) two portions of below by grate (33); In igniting chamber (34), install and be provided with lighter for ignition (3), body (1) in, the below is waste water and the tar Pintsch process reaction unit (31) that is provided with the ring-type tubular outside the combustion chamber (29) of taper, in waste water and tar Pintsch process reaction unit (31), is filled with rhombspar (37); The inlet end of the band combustion gas output switch (27) of main gas tube (10) is installed in the vertical the right of body (1); And be communicated with combustion chamber (29), the outlet side of main gas tube (10) is installed in the top side-walls of waste water and tar Pintsch process reaction unit (31), and the right side of the air-generating reaction device in body (1) is equipped with the aerogenesis crash response device (35) of ring-type tubular; The bottom of aerogenesis crash response device (35) is higher than the bottom of waste water and tar Pintsch process reaction unit (31); On the sidewall of aerogenesis crash response device (35), be equipped with and be staggered up and down tar cooling Impactor (36), the inlet end of pure combustion gas output tube (7) is located at aerogenesis crash response device (35) top, and the body (1) that passes outwards through of the outlet side of pure combustion gas output tube (7) links to each other with external equipment through pure combustion gas output valve (6); Waste water links to each other with the bottom of aerogenesis crash response device (35) with the inferior pure combustion gas output tube (38) of tar Pintsch process reaction unit (31) bottom; Continuous feeding is made up of continuous charging bucket (18), feed-pipe (19) and screw feeding turbine (20); The lower end of continuous charging bucket (18) is fixed on the opening for feed place of feed-pipe (19) left end; Screw feeding turbine (20) to combustion chamber (29) pressing materials is installed in the feed-pipe (19), and the discharge port of feed-pipe (19) right-hand member stretches in the body (1) and communicates with the middle and lower part of combustion chamber (29); It is that the combustion chamber (29) of taper communicates that gas blower blast tube (25) gets in the body (1) with the below behind blower switch (24); The thick gas escape pipe (15) that band row's thick air valve (14) is installed and is communicated with on the vertical left side of gasification body of heater (30) with combustion chamber (29).
2. biomass non-pressure gas making machine as claimed in claim 1 is characterized in that: the vertical dividing plate of scission reaction (39) that aerogenesis crash response device (35) is divided into two is installed in waste water and tar Pintsch process reaction unit (31).
3. according to claim 1 or claim 2 biomass non-pressure gas making machine; It is characterized in that: all be equipped with in the upper end of thick gas escape pipe (15) and be located at the tubaeform cover (16) that thick gas circulation tube (17) upper end can horizontally rotate, the lower end of thick gas circulation tube (17) links to each other with gas blower blast tube (25) through threeway.
4. biomass non-pressure gas making machine as claimed in claim 3; It is characterized in that: on every cover air-generating reaction device, be equipped with the binder transmission mechanism that constitutes by binder transmission bracket (11), pressing plate (28), iron chains (13) and rolling rod (12); Two binder transmission bracket (11) are installed in the center of top of gasification body of heater (30); The rolling rod (12) that comes transmission through motor or wind is installed between two binder transmission bracket (11); In the combustion chamber, be provided with pressing plate (28), the lower end of iron chains (13) and pressing plate (28) intermediary hanger are fixed together, and the upper end of iron chains (13) is fixed on the centre of rolling rod (12).
5. biomass non-pressure gas making machine as claimed in claim 1; It is characterized in that: the top of the below of (29), grate (33) is equipped with the air intake that communicates with gas blower blast tube (25) and helps oxygen disk (32) in the combustion chamber; Help the rounded arrangement that evenly is processed with on the oxygen disk (32) more than two pairs, the airduct (40) that is 45 at air intake; Airduct (40) is upwards air blast evenly, thereby guarantees that combustion chamber (29) is covering of the fan work.
6. biomass non-pressure gas making machine as claimed in claim 1 is characterized in that: the scope of rhombspar (37) particle diameter is 5--15cm.
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CN111265966A (en) * | 2020-02-04 | 2020-06-12 | 苏合梅 | Waste gas cracking device |
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Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101000146A (en) * | 2006-12-30 | 2007-07-18 | 周海军 | Integral compound gasification stove |
CN101021336A (en) * | 2006-12-30 | 2007-08-22 | 周松林 | Biomass combined type gasification furnace |
CN101240904A (en) * | 2008-03-24 | 2008-08-13 | 沈桀 | Crushing-free, moisture-resistant, tar-free and empty-burning-prevention biomass gasification furnace |
CN101338204A (en) * | 2008-08-18 | 2009-01-07 | 北京乡电电力有限公司 | Integration biomass gasification stove catalytic splitting process and device thereof |
CN201354358Y (en) * | 2009-02-16 | 2009-12-02 | 熊天东 | Non-pressure biological substance gasification boiler |
-
2009
- 2009-02-16 CN CN 200910114932 patent/CN101486929B/en not_active Expired - Fee Related
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101000146A (en) * | 2006-12-30 | 2007-07-18 | 周海军 | Integral compound gasification stove |
CN101021336A (en) * | 2006-12-30 | 2007-08-22 | 周松林 | Biomass combined type gasification furnace |
CN101240904A (en) * | 2008-03-24 | 2008-08-13 | 沈桀 | Crushing-free, moisture-resistant, tar-free and empty-burning-prevention biomass gasification furnace |
CN101338204A (en) * | 2008-08-18 | 2009-01-07 | 北京乡电电力有限公司 | Integration biomass gasification stove catalytic splitting process and device thereof |
CN201354358Y (en) * | 2009-02-16 | 2009-12-02 | 熊天东 | Non-pressure biological substance gasification boiler |
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