CN201864688U - Multifunctional fluidized bed type biomass pyrolysis converter - Google Patents

Multifunctional fluidized bed type biomass pyrolysis converter Download PDF

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CN201864688U
CN201864688U CN2010206464609U CN201020646460U CN201864688U CN 201864688 U CN201864688 U CN 201864688U CN 2010206464609 U CN2010206464609 U CN 2010206464609U CN 201020646460 U CN201020646460 U CN 201020646460U CN 201864688 U CN201864688 U CN 201864688U
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gas
pyrolysis
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outlet
solid separator
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任学勇
司慧
常建民
王文亮
车颜喆
张继宗
高雪景
伊江平
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Beijing Forestry University
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Beijing Forestry University
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    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E50/00Technologies for the production of fuel of non-fossil origin
    • Y02E50/10Biofuels, e.g. bio-diesel

Abstract

The utility model relates to a multifunctional fluidized bed type biomass pyrolysis converter which pertains to the technical field of biomass recycle and energy equipment thereof. The multifunctional fluidized bed type biomass pyrolysis converter comprises a pyrolytic reaction device, a gas-solid separator, an ash content returner, a carbon collecting box, a filter, a condenser, an oil storage tank, a washing decoking device and a gas storage tank, wherein the pyrolytic reaction device is used for pyrolytic carbonization, liquidation or gasification of dried and ground materials; the gas-solid separator is used for separating carbon and pyrolytic gas obtained in the pyrolysis device by pyrolyzation; the ash content returner is used for returning ash contents; the carbon collecting box is used for collecting the carbon separated by the gas-solid separator; the filter is used for removing impurity by filtering the pyrolytic gas; the condenser is used for condensing the pyrolytic gas; the oil storage tank is used for storing condensed liquid; the washing decoking device is used for removing coke and dust from non-condensable gas and cooling the non-condensable gas; and the gas storage tank is used for storing the non-condensable gas. The multifunctional fluidized bed type biomass pyrolysis converter controls the temperature of a fluidized bed reactor by sections, realizes pyrolysis carbonization, liquidation and gasification of biomass, improves the quality of pyrolysis product, and solves the problem of environment pollution caused by biomass conversion.

Description

A kind of multifunctional fluidized bed formula biomass pyrolytic conversion system
Technical field
The utility model relates to a kind of multifunctional fluidized bed formula biomass pyrolytic conversion system, belongs to biomass regeneration and energy equipment technical field thereof.
Background technology
Biomass are a kind of renewable, environmentally friendly resources, and it utilizes the zero release that can realize carbonic acid gas in the process.Biomass pyrolytic charing, liquefaction and gasification are the major techniques of biomass utilization, are that the testing apparatus of one is significant so study a kind of biomass pyrolytic charing, liquefaction and gasification multifunctional of can collecting.
Biomass pyrolytic charing, liquefaction and gasification technology all belong to biomass thermal chemical transformation technology.The main purpose of biomass pyrolytic charing is to obtain pyrolytic carbon and byproduct wood vinegar, wood gas at lesser temps and under than slow temperature rise rate; The activated gac that makes excellent property of pyrolytic carbon can be widely used in fields such as gas sweetening, sewage disposal.The main purpose of biomass pyrolysis liquefaction is to obtain bio oil and byproduct pyrolytic carbon, non-condensable gases under medium temperature of reaction and higher temperature rise rate; The bio oil power supply heat supply that can directly act as a fuel also can be used for producing chemical, substitutes phenol as part and prepares synvaren.The main purpose of biomass pyrogenation gasification is to obtain inflammable gas and byproduct tar, powdered carbon under high reaction temperature and higher temperature rise rate; Inflammable gas utilising efficiency height, and of many uses, as can also being used for the burning boiler or the direct generation of electricity with the coal gas of doing manual labour.
At present, biomass pyrolytic charing, liquefaction and gasification technical development are very fast, study more, now developed polytype biomass pyrolysis reactor both at home and abroad, but the universal performance of existing pyrolysis reactor is all bad, and all have deficiency separately, especially lacking can the synthetic study pyrolysis charring, the equipment of liquefaction and gasification multifunctional all.
Summary of the invention
The purpose of this utility model is to propose a kind of multifunctional fluidized bed formula biomass pyrolytic conversion system, comprehensive fluidized bed pyrolysis charing, liquefaction and gasification reaction conditions and reactor features are so that realize pyrolysis charring, liquefaction and the gasification of biomass in same device.
The multifunctional fluidized bed formula biomass pyrolytic conversion system that the utility model proposes comprises:
Pyrolysis reactor, be used to make the raw material after the drying and crushing to carry out pyrolysis charring, liquefaction or gasification reaction, the bottom, left side of pyrolysis reactor is provided with opening for feed, the lower right side of pyrolysis reactor links to each other with the ash content material returning device, the bottom of pyrolysis reactor is provided with the fluidized gas inlet mouth, and the top of pyrolysis reactor links to each other with the inlet of gas-solid separator;
Gas-solid separator, the charcoal that is used for the pyrolysis reactor pyrolysis is obtained separates with pyrolysis gas, the import of gas-solid separator links to each other with the outlet of the top of described pyrolysis reactor, and the lower part outlet of gas-solid separator links to each other with the ash content material returning device, and the top outlet of gas-solid separator links to each other with strainer;
The ash content material returning device, being used for making described gas-solid separator to separate the ash content that obtains turns back in the described pyrolysis reactor, or collect in the collection charcoal case, the import of ash content material returning device links to each other with the lower part outlet of described gas-solid separator, the left side outlet of ash content material returning device links to each other with the lower right side import of described pyrolysis reactor, and the right side outlet of ash content material returning device links to each other with collection charcoal case;
Collection charcoal case is used to collect gas-solid separator and separates the charcoal that obtains, and the inlet of collection charcoal case links to each other with the right side outlet of described ash content material returning device;
Strainer, the pyrolysis gas that is used to described gas-solid separator is obtained filters removal impurity, and the right side outlet of strainer links to each other with condenser;
Condenser is used to make through filtering pyrolysis air cooling and coagulates, and obtains condensed fluid and non-condensable gases, and the outlet of condenser links to each other with storage tank; The gas inlet of washing decoking device links to each other;
Storage tank is used to store the condensed fluid that is obtained by described condenser, and the outlet of storage tank links to each other with the washing decoking device;
The washing decoking device, be used for the not condensable gases of described storage tank is carried out decoking, dedusting and cooling, the bottom, left side of washing decoking device is gas feed, left upper portion is a pneumatic outlet, lower right side is a circulating water intake, right upper portion is a circulating water outlet, and the pneumatic outlet of left upper portion links to each other with gas-holder;
Gas-holder is used to store through described washing decoking device washing and removes defocused not condensable gases, and the import of gas-holder links to each other with described washing decoking device pneumatic outlet.
The multifunctional fluidized bed formula biomass pyrolytic conversion system that the utility model proposes is undertaken sectional temperature-controlledly by fluid bedreactors, realize biomass pyrolytic charing, liquefaction and gasification well, helps relation and influence mechanism between the systematic study three.Biomass pyrolytic reaction unit of the present utility model, compare with existing same technology and to have the following advantages and technique effect:
1, the fluidized-bed reactor in the pyrolysis conversion system of the present utility model, adopt the pattern of three sections temperature controls, each temperature control section at the fluidized bed type pyrolysis reactor is equipped with all kinds of monitoring instruments such as corresponding temperature, pressure, flow, realize the accuracy controlling of factors such as temperature, temperature rise rate, pressure in each temperature control section reaction process, therefore when being used for pyrolytic reaction, pyrolytic process is convenient to regulate, and helps improving the quality of pyrolysis product.
2, in the operational process of pyrolysis conversion system of the present utility model, the flue gas that carbonization process produces again feeds fluidized-bed reactor as carrier gas through cooling, dedusting after extracting tar, the gas that produces in the liquefaction process feeds fluidized-bed reactor again as carrier gas after bio oil is extracted in condensation, the ash content that produces in the gasification feeds in the fluidized-bed reactor again through the ash content material returning device, has solved the pollution of Wood Adhesives from Biomass to environment.
3, the gas that produces in the pyrolysis conversion system of the present utility model is taked the bubble proof water-washing technique after condensation, can realize the effect of decoking, dedusting and cooling three aspects simultaneously.
Description of drawings
Fig. 1 is the structural representation of the utility model pyrolysis conversion system.
Among Fig. 1, the 1st, pyrolysis reactor, the 2nd, fluidized-bed hypomere temperature control district, the 3rd, temperature control district, fluidized-bed stage casing, the 4th, fluidized-bed epimere temperature control district, the 5th, gas-solid separator, the 6th, strainer, the 7th, condenser, the 8th, washing decoking device, the 9th, gas-holder, the 10th, storage tank, the 11st, collection charcoal case, the 12nd, ash content material returning device.
Embodiment
The multifunctional fluidized bed formula biomass pyrolytic conversion system that the utility model proposes, its structure comprises as shown in Figure 1:
Pyrolysis reactor 1, be used to make the raw material after the drying and crushing to carry out pyrolysis charring, liquefaction or gasification reaction, the bottom, left side of pyrolysis reactor is provided with opening for feed, the lower right side of pyrolysis reactor links to each other with the ash content material returning device, the bottom of pyrolysis reactor is provided with the fluidized gas inlet mouth, and the top of pyrolysis reactor links to each other with the inlet of gas-solid separator;
Gas-solid separator 5, the charcoal that is used for the pyrolysis reactor pyrolysis is obtained separates with pyrolysis gas, the import of gas-solid separator links to each other with the outlet of the top of described pyrolysis reactor, and the lower part outlet of gas-solid separator links to each other with the ash content material returning device, and the top outlet of gas-solid separator links to each other with strainer;
Ash content material returning device 12, being used for making described gas-solid separator to separate the ash content that obtains turns back in the described pyrolysis reactor, or collect in the collection charcoal case, the import of ash content material returning device links to each other with the lower part outlet of described gas-solid separator, the left side outlet of ash content material returning device links to each other with the lower right side import of described pyrolysis reactor, and the right side outlet of ash content material returning device links to each other with collection charcoal case;
Collection charcoal case 11 is used to collect gas-solid separator and separates the charcoal that obtains, and the inlet of collection charcoal case links to each other with the right side outlet of described ash content material returning device;
Strainer 6, the pyrolysis gas that is used to described gas-solid separator is obtained filters removal impurity, and the right side outlet of strainer links to each other with condenser;
Condenser 7 is used to make through filtering pyrolysis air cooling and coagulates, and obtains condensed fluid and non-condensable gases, and the outlet of condenser links to each other with storage tank; The gas inlet of washing decoking device links to each other;
Storage tank 10 is used to store the condensed fluid that is obtained by described condenser, and the outlet of storage tank links to each other with the washing decoking device;
Washing decoking device 8, be used for the not condensable gases of described storage tank is carried out decoking, dedusting and cooling, the bottom, left side of washing decoking device is gas feed, left upper portion is a pneumatic outlet, lower right side is a circulating water intake, right upper portion is a circulating water outlet, and the pneumatic outlet of left upper portion links to each other with gas-holder;
Gas-holder 9 is used to store through described washing decoking device washing and removes defocused not condensable gases, and the import of gas-holder links to each other with described washing decoking device pneumatic outlet.
The utility model pyrolysis conversion system, can realize functions such as pyrolysis, liquefaction and gasification, therefore, temperature and temperature rise rate control for fluidized-bed reactor are very crucial, this reactor adopts the method for three sections temperature controls, and as shown in fig. 1, wherein 2 is fluidized-bed hypomere temperature control districts, the 3rd, temperature control district, fluidized-bed stage casing, the 4th, fluidized-bed epimere temperature control district.Be used for accurately measuring and the flow of real time monitoring apparatus each several part, temperature, temperature rise rate, pressure etc.By adjusting, so that realize biomass pyrolytic charing, liquefaction and gasification well to three sections temperature ranges.
When the utility model device was used for the biomass pyrolytic charing, its technological process was as follows:
(1) biomass material is pulverized, the granularity after the pulverizing is 0.3~1.2mm, and to make it be dried to water ratio be 6%~12%;
(2) make above-mentioned material carry out pyrolytic reaction, produce charcoal and pyrolysis gas, temperature of reaction is divided into three sections, the hypomere temperature control district of reactor is 150~200 ℃ (pre-charing stages), temperature control district, stage casing is 200~350 ℃ (charing stages), epimere temperature control district is 350~450 ℃ (calcination stages), and fluidized carrier gas is N 2, the reaction times is 3~5 seconds;
(3) charcoal that above-mentioned reaction is obtained separates with pyrolysis gas, and the major product charcoal that obtains is collected and is used for following process, and byproduct pyrolysis gas moves on carrier gas;
(4) the pyrolysis gas that above-mentioned steps (3) is obtained filters, and removes impurity;
(5) the filtering pyrolysis air cooling of above-mentioned process is coagulated, after the condensation not the condensible gas temperature be 80~120 ℃, condensable gases becomes liquid collecting;
(6) the not condensable gases that above-mentioned steps (5) is obtained is washed decoking, and washing decoking temperature is 15~25 ℃, and the time is 1.5~3 seconds;
(7) make 75%~90% in the not condensable gases that above-mentioned steps (6) obtains enter step (2) and continue reaction, recycle, 10%~25% collect standby.
When the utility model device was used for biomass pyrolysis liquefaction, its technological process was as follows:
(1) biomass material is pulverized, the granularity after the pulverizing is 0.3~1.2mm, and to make it be dried to water ratio be 6%~12%;
(2) make above-mentioned material carry out pyrolytic reaction, produce charcoal and pyrolysis gas, temperature of reaction is divided into three sections, and the hypomere temperature control district of reactor is 525~575 ℃ (main reaction region); Temperature control district, stage casing is 475~525 ℃ (side reaction districts); Epimere temperature control district is 400~450 ℃ (buffer zones); Fluidized carrier gas is N 2, the reaction times is 0.5~3 second;
(3) charcoal that above-mentioned reaction is obtained separates with pyrolysis gas, and the pyrolysis gas that obtains moves on carrier gas, and the byproduct charcoal is collected;
(4) the pyrolysis gas that above-mentioned steps (3) is obtained filters, and removes impurity;
(5) the filtering pyrolysis air cooling of above-mentioned process is coagulated, after the condensation not the condensible gas temperature be 80~120 ℃, condensable gases becomes the major product bio oil and collects;
(6) the not condensable gases that above-mentioned steps (5) is obtained is washed decoking, and washing decoking temperature is 15~25 ℃, and the time is 1.5~3 seconds;
(7) make 55%~70% in the not condensable gases that above-mentioned steps (6) obtains enter step (2) and continue reaction, recycle, 45%~30% collect standby.
When the utility model device was used for biomass pyrogenation gasification, its technological process was as follows:
(1) biomass material is pulverized, the granularity after the pulverizing is 0.3~1.2mm, and to make it be dried to water ratio be 6%~12%;
(2) make above-mentioned material carry out pyrolytic reaction, produce pyrolysis gas and ash content, temperature of reaction is divided into three sections, and the hypomere temperature control district of reactor is 400~500 ℃ (oxidation heat liberation stages); Temperature control district, stage casing is 500~750 ℃ (pyrolysis phase); 750~900 ℃ of (gasification reduction phase) fluidized carrier gas in epimere temperature control district are air, and the reaction times is 0.5~2 second;
(3) the pyrolysis gas that above-mentioned reaction is obtained separates with ash content, and the pyrolysis gas that obtains moves on carrier gas, and ash content turns back to again and continues reaction in the pyrolysis reactor;
(4) the pyrolysis gas that above-mentioned steps (3) is obtained filters, and removes impurity;
(5) the filtering pyrolysis air cooling of above-mentioned process is coagulated, after the condensation not the condensible gas temperature be 80~120 ℃, condensable gases becomes liquid collecting;
(6) the not condensable gases that above-mentioned steps (5) is obtained is washed decoking, and washing decoking temperature is 15~25 ℃, and the time is 1.5~3 seconds;
(7) make major product that above-mentioned steps (6) obtains not condensable gases enter gas-holder and collect.
Therefore the utility model device can carry out the research of aspects such as biomass pyrolytic charing, liquefaction, gasification because each temperature control section temperature and temperature rise rate are adjustable.The embodiment of this biomass pyrolytic testing apparatus specifically is described by following three embodiment.
Embodiment one:
This device can be used for biomass pyrolytic charing research, and idiographic flow is as follows:
It is 200 ℃ that fluidized-bed hypomere temperature control district temperature is set, and stage casing temperature control district temperature is 300 ℃, and epimere temperature control district temperature is 400 ℃, and carrier gas is a nitrogen.Regulating ducted air circulation is 6m 3/ h opens the valve in the connecting pipeline, the operation fluidizing medium recycle system.Open the recycle pump and the external water of condensation circulation line of condenser, the operation condenser system.Treat fast pyrolysis reactor inside be heated to required design temperature and stable after, the operation feed system, it is 10Hz that the stepless frequency modulation motor is set, with water ratio be 8% and particle diameter be that the wheat straw powder of 0.5mm joins in the feed bin.Reaction begins to carry out, and separates by gas-solid separator, obtains the major product pyrolytic carbon; Carry out gas-liquid separation by condenser system, extract tar; Carry out further decoking, dedusting and cooling by washing equipment; Regulate the valve in the vent gas connecting pipeline, with 80% not condensable gases feed fluidized-bed again as carrier gas.20% collects in the gas-holder.Observe working parameters such as temperature displayed, flow, pressure, humidity in the supervisory system, the good operation of assurance device.After treating that material all enters and reacts end, close heating system.After temperature of reactor drops to 150 ℃, close the circulation of gas circulation and condenser, end-of-job, charing efficient is 45%.
Embodiment two:
This device can be used for rapidly pyrolysing and liquefying biomass research, and idiographic flow is as follows:
It is 550 ℃ that the interior hypomere temperature control district of fluidized-bed reactor temperature is set, and stage casing temperature control district temperature is 450 ℃, and epimere temperature control district temperature is 425 ℃, and carrier gas is a nitrogen.Regulating ducted air circulation is 8m 3/ h opens the valve in the connecting pipeline, the operation fluidizing medium recycle system.Open the recycle pump and the external water of condensation circulation line of condenser, the operation condenser system.After treating that fast pyrolysis reactor inside is heated to required design temperature, the operation feed system, it is 10Hz that the stepless frequency modulation motor is set, with water ratio be 8% and particle diameter be that the tamarack wood powder of 0.45-0.9mm joins in the feed bin, reaction begins to carry out, and separates by gas-solid separator; Carry out gas-liquid separation by condenser system, obtain the product bio oil; Carry out decoking, dedusting and cooling by washing equipment; Regulate the valve in the vent gas connecting pipeline, with 60% not condensable gases feed fluidized-bed again as carrier gas, 40% collects in the gas-holder.Observe working parameters such as temperature displayed, flow, pressure, humidity in the supervisory system, the good operation of assurance device.After treating that material all enters and reacts end, close heating system.After temperature of reactor drops to 150 ℃, close the circulation of gas circulation and condenser, end-of-job, liquefaction efficiency are 60%.
Embodiment three:
This device can be used for biomass pyrogenation gasification research, and idiographic flow is as follows:
It is 450 ℃ that the interior hypomere temperature control district of fluidized-bed reactor temperature is set, and stage casing temperature control district temperature is 600 ℃, and epimere temperature control district temperature is 800 ℃, and carrier gas is an air.Regulating ducted air circulation is 8m 3/ h opens the valve in the connecting pipeline, the operation fluidizing medium recycle system.Open the recycle pump and the external water of condensation circulation line of condenser, the operation condenser system.Vapourizing furnace is carried out preheating, and when vapourizing furnace each point temperature reached more than 450 ℃, the burner hearth preheating finished.The experiment of gasifying, after treating that pyrolysis reactor inside is heated to required design temperature, the operation feed system, the motor for feeding rotating speed be set be 25r/min with water ratio be 10% and particle diameter be that the wheat straw of 0.5mm joins in the feed bin, reaction begins to carry out, separate by gas-solid separator, separate the ash content that obtains and reenter reactor by the ash content material returning device; Carry out gas-liquid separation by condenser system, extract tar; Carry out further decoking, dedusting and cooling by washing equipment; Regulate the valve in the vent gas connecting pipeline, condensable gases is not collected in the gas-holder.Observe working parameters such as temperature displayed, flow, pressure, humidity in the supervisory system, the good operation of assurance device.After treating that material all enters and reacts end, close heating system.After temperature of reactor drops to 150 ℃, close the circulation of gas circulation and condenser, end-of-job, gasification efficiency are 70%.

Claims (1)

1. multifunctional fluidized bed formula biomass pyrolytic conversion system is characterized in that this pyrolysis conversion system comprises:
Pyrolysis reactor, be used to make the raw material after the drying and crushing to carry out pyrolysis charring, liquefaction or gasification reaction, the bottom, left side of pyrolysis reactor is provided with opening for feed, the lower right side of pyrolysis reactor links to each other with the ash content material returning device, the bottom of pyrolysis reactor is provided with the fluidized gas inlet mouth, and the top of pyrolysis reactor links to each other with the inlet of gas-solid separator;
Gas-solid separator, the charcoal that is used for the pyrolysis reactor pyrolysis is obtained separates with pyrolysis gas, the import of gas-solid separator links to each other with the outlet of the top of described pyrolysis reactor, and the lower part outlet of gas-solid separator links to each other with the ash content material returning device, and the top outlet of gas-solid separator links to each other with strainer;
The ash content material returning device, being used for making described gas-solid separator to separate the ash content that obtains turns back in the described pyrolysis reactor, or collect in the collection charcoal case, the import of ash content material returning device links to each other with the lower part outlet of described gas-solid separator, the left side outlet of ash content material returning device links to each other with the lower right side import of described pyrolysis reactor, and the right side outlet of ash content material returning device links to each other with collection charcoal case;
Collection charcoal case is used to collect gas-solid separator and separates the charcoal that obtains, and the inlet of collection charcoal case links to each other with the right side outlet of described ash content material returning device;
Strainer, the pyrolysis gas that is used to described gas-solid separator is obtained filters removal impurity, and the right side outlet of strainer links to each other with condenser;
Condenser is used to make through filtering pyrolysis air cooling and coagulates, and obtains condensed fluid and non-condensable gases, and the outlet of condenser links to each other with storage tank; The gas inlet of washing decoking device links to each other;
Storage tank is used to store the condensed fluid that is obtained by described condenser, and the outlet of storage tank links to each other with the washing decoking device;
The washing decoking device, be used for the not condensable gases of described storage tank is carried out decoking, dedusting and cooling, the bottom, left side of washing decoking device is gas feed, left upper portion is a pneumatic outlet, lower right side is a circulating water intake, right upper portion is a circulating water outlet, and the pneumatic outlet of left upper portion links to each other with gas-holder;
Gas-holder is used to store through described washing decoking device washing and removes defocused not condensable gases, and the import of gas-holder links to each other with described washing decoking device pneumatic outlet.
CN2010206464609U 2010-12-03 2010-12-03 Multifunctional fluidized bed type biomass pyrolysis converter Expired - Lifetime CN201864688U (en)

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Cited By (10)

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CN102010729A (en) * 2010-12-03 2011-04-13 北京林业大学 Multifunctional fluidized bed type biomass pyrolysis conversion device
CN102816581A (en) * 2012-07-12 2012-12-12 华中科技大学 Vertical tube moving bed continuous pyrolysis apparatus for biomass
CN102911741A (en) * 2012-10-18 2013-02-06 东南大学 Coal gasification device for circulating fluidized bed
CN103254941A (en) * 2013-05-29 2013-08-21 北京化工大学 High-temperature circular-heating fluidized bed pyrolysis gas producing system
CN103756712A (en) * 2014-01-13 2014-04-30 东南大学 Biomass quick cracking device based on internal-external circulation spouted fluidized bed
CN104194811A (en) * 2014-09-22 2014-12-10 张森 Carbon powder preparation method
CN104293364A (en) * 2014-10-10 2015-01-21 苏州新协力环保科技有限公司 Novel biomass reaction device
CN104949536A (en) * 2015-07-08 2015-09-30 安徽新中远化工科技有限公司 Waste heat recovery boiler system
CN105950218A (en) * 2016-07-06 2016-09-21 福建省闽安机械制造有限公司 Gas-carbon co-production device
CN112280594A (en) * 2020-09-15 2021-01-29 四川仪陇益邦能源有限公司 Device and method for gasifying biological matrix at high temperature

Cited By (14)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102010729B (en) * 2010-12-03 2013-07-24 北京林业大学 Multifunctional fluidized bed type biomass pyrolysis conversion device
CN102010729A (en) * 2010-12-03 2011-04-13 北京林业大学 Multifunctional fluidized bed type biomass pyrolysis conversion device
CN102816581B (en) * 2012-07-12 2015-05-20 华中科技大学 Vertical tube moving bed continuous pyrolysis apparatus for biomass
CN102816581A (en) * 2012-07-12 2012-12-12 华中科技大学 Vertical tube moving bed continuous pyrolysis apparatus for biomass
CN102911741A (en) * 2012-10-18 2013-02-06 东南大学 Coal gasification device for circulating fluidized bed
CN102911741B (en) * 2012-10-18 2013-12-25 东南大学 Coal gasification device for circulating fluidized bed
CN103254941A (en) * 2013-05-29 2013-08-21 北京化工大学 High-temperature circular-heating fluidized bed pyrolysis gas producing system
CN103254941B (en) * 2013-05-29 2014-08-06 北京化工大学 High-temperature circular-heating fluidized bed pyrolysis gas producing system
CN103756712A (en) * 2014-01-13 2014-04-30 东南大学 Biomass quick cracking device based on internal-external circulation spouted fluidized bed
CN104194811A (en) * 2014-09-22 2014-12-10 张森 Carbon powder preparation method
CN104293364A (en) * 2014-10-10 2015-01-21 苏州新协力环保科技有限公司 Novel biomass reaction device
CN104949536A (en) * 2015-07-08 2015-09-30 安徽新中远化工科技有限公司 Waste heat recovery boiler system
CN105950218A (en) * 2016-07-06 2016-09-21 福建省闽安机械制造有限公司 Gas-carbon co-production device
CN112280594A (en) * 2020-09-15 2021-01-29 四川仪陇益邦能源有限公司 Device and method for gasifying biological matrix at high temperature

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