CN1818023A - Apparatus for producing fuel oil by fast thermal cracking and organic waste in agricultural and forest industries - Google Patents
Apparatus for producing fuel oil by fast thermal cracking and organic waste in agricultural and forest industries Download PDFInfo
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- CN1818023A CN1818023A CN 200510112221 CN200510112221A CN1818023A CN 1818023 A CN1818023 A CN 1818023A CN 200510112221 CN200510112221 CN 200510112221 CN 200510112221 A CN200510112221 A CN 200510112221A CN 1818023 A CN1818023 A CN 1818023A
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Abstract
An apparatus for producing fuel oil from agricultural and forest organic refuse by fast thermal cracking consists of oxygen-denuded air generator, feeder, fluidized bed reactor, product collector and temperature adjuster. The oxygen-denuded air generator is communicated with fluidized bed reactor by pipe line, feeder is welded on fluidized bed reactor by circular pipe penetrating bottom of fluidized bed reactor wall, both fluidized bed reactor and feeder are welded on the same foundation bed, product collector is connected to fluidized bed reactor by flange disk, temperature adjuster is connected with fluidized bed reactor and oxygen-denuded air generator by line. It is cheap and can be used to build organic refuse thermal cracking model.
Description
Technical field
What the present invention relates to is a kind of equipment of chemical machinery technical field, and specifically, what relate to is a kind of apparatus for producing fuel oil by fast thermal cracking and organic waste in agricultural and forest industries.
Background technology
The producing fuel oil by fast thermal cracking and organic waste in agricultural and forest industries technology has become a main path of biomass utilization.Corresponding thermo-cracking is produced the oil fuel device various ways, but because complex structure, the producing apparatus technology difficulty is big, cost is high, and its application is restricted.
Through the literature search of prior art is found, Chinese patent application number is; 02112008.0 name is called: biomass integrated thermocracking equipment for preparing liquid fuel, this patent readme is: adopt cyclonic separator and carbon filter to combine, reach efficient recovery charcoal and cleaning fugitive constituent; The built-up type feeding device guarantees smooth feed; Adopt the variable cross-section fluidized-bed reactor, guaranteed the productive rate of bio oil; Charcoal roasting kiln and reactor interchanger are formed autothermal operation system, the waste heat that effectively utilizes autothermal operation system and produced.Utilize the fluidized-bed gas-solid advantages such as strong and heat flow rate per unit area is big of conducting heat mutually to realize the recycling of separating out fast of the flash intensification of biomass and fugitive constituent and solid carbon.Used source of the gas is provided by the industrial nitrogen gas cylinder.The weak point of this technology is: under air conveying condition, the built-up type feeding device can not guarantee experiment when carrying out in reactor feed at the uniform velocity; Can not provide foundation for the biomass through pyrolysis modeling; Originate as carrier gas with nitrogengas cylinder, directly improved the cost of each test, can not produce by batch production and be used for reference.
Summary of the invention
The objective of the invention is to overcome deficiency of the prior art, a kind of apparatus for producing fuel oil by fast thermal cracking and organic waste in agricultural and forest industries is provided, make it have characteristics simple in structure, practical, that experimentation cost is low, and can reliable basis is provided, quantitative analysis is carried out in the thermo-cracking behavior for the thermo-cracking modeling.
The present invention is achieved by the following technical solutions, the present invention includes: Poor oxygen gas generating unit, feeding unit, fluidized-bed reactor, product collection device, Temperature-controlled appliance.Annexation is: the Poor oxygen gas generating unit links to each other by pipeline with fluidized-bed reactor; Feeding unit is welded on the fluidized-bed reactor by vertical pipe through fluidized-bed reactor wall bottom, and fluidized-bed reactor and feeding unit are welded on the pedestal jointly; The product collection device is connected by ring flange with fluidized-bed reactor, and Temperature-controlled appliance links to each other with fluidized-bed reactor, Poor oxygen gas generating unit by circuit.
The Poor oxygen gas generating unit comprises air compressor, Poor oxygen gas producer, gas-holder.Air compressor links to each other with the Poor oxygen gas producer by pressure-resistant rubber hose, and the Poor oxygen gas producer is connected with gas-holder with ring flange through metal tubes.
Feeding unit comprises feeding warehouse, feeder, condensation water jacket, wheel box, motor.Feeding warehouse and condensation water jacket are welded on the feeder, and motor and feeder are coupled together by cutting ferrule.Wheel box is connected with axle with motor.
Fluidized-bed reactor as the key components of this complete equipment comprises heat scission reaction chamber, carrier gas preheating chamber, thermometer hole, external admission mouth, interior inlet mouth, venting port, gas distribution grid.The heat scission reaction chamber is a right cylinder weldless steel tube, and the two ends welding flange is furnished with the ring flange top cover of same size, and venting port (being welded on the ring flange) is set on the top cover, by difference highly thermometer hole is set on same bus on the tube wall.The carrier gas preheating chamber is to be material with seamless steel, is welded by a right cylinder and a cone, and inner hollow, cone vertex of a cone direction is down.Right cylinder upper end welding flange, its specification is identical with the ring flange specification at two ends, heat scission reaction chamber, and thermometer hole is set on the wall.Right cylinder one face down bonding connects a level and runs through steel pipe, enters end sealing in the right cylinder, and the other end is the external admission mouth; Steel pipe is opened a breach and is inlet mouth being positioned at the cylinder axis place, and the position is below steel pipe.The heat scission reaction chamber is connected with ring flange with the carrier gas preheating chamber, uses bolting, and gas distribution grid is set between ring flange herein.The asbestos washer sealing is used in connection between ring flange.
From heat passage angle analysis, a fluidized-bed reactor part is the regenerator section of inert carrier gas, and a part is the zone that the castoff heat cracking reacts.In fluidized bed body a plurality of points for measuring temperature are set, are equipped with corresponding sectional type ceramic electrical heating jacket, be easier to the control of temperature of reaction.The fluidized-bed reactor of reducing can not only be realized the good fluidization of an internal reaction thing, and whole thermo-cracking space is in the identical temperature field, for condition has been created in castoff heat cracking modeling.
The product collection device comprises cyclonic separator, collection charcoal case, condenser and oil trap.Cyclonic separator welds together with collection charcoal case, and cyclonic separator is connected by high temperature resistant pipeline with condenser, and condenser is connected with plug with oil trap.Condenser is made by the good red copper of heat conductivility, has realized the effect of rapid condensation.This helps the raising of fuel oil yield.
Temperature-controlled appliance comprises PID temperature regulator, thermal sensor, ceramic electrical heating jacket.PID temperature regulator one end links to each other with power supply, and the other end links to each other with thermal sensor, ceramic electrical heating jacket, constitutes two complete loops.Thermal sensor one end links to each other with the PID temperature regulator, and the other end links to each other with temperature UUT in each self-loop.The ceramic electrical heating jacket directly links to each other with the PID temperature regulator by lead.
Among the present invention, the Poor oxygen gas generating unit provides stable inert carrier gas for the organic waste in agricultural and forest industries thermo-cracking.Compare with using industrial nitrogen, this has not only reduced experimentation cost, and has indicated direction for batch production production.Feeding unit can not only guarantee that material at the uniform velocity enters reactor, and has solved the difficult problem of material local heating's coking before entering reactor.At the uniform velocity the organic waste in agricultural and forest industries thermo-cracking modeling that is embodied as of charging provides possibility.
Description of drawings
Fig. 1 is a structural representation of the present invention
Fig. 2 is a Poor oxygen gas generating unit structural representation of the present invention
Fig. 3 is a feeding unit structural representation of the present invention
Fig. 4 is a fluidized-bed reactor structural representation of the present invention
Fig. 5 is a product collection apparatus structure synoptic diagram of the present invention
Fig. 6 is a Temperature-controlled appliance structural representation of the present invention
Concrete mode of connection
As shown in Figure 1, the present invention includes: Poor oxygen gas generating unit (1), feeding unit (2), fluidized-bed reactor (3), product collection device (4), Temperature-controlled appliance (5).Poor oxygen gas generating unit (1) links to each other by pipeline with fluidized-bed reactor (3); Feeding unit (2) is welded on the fluidized-bed reactor 3 by the vertical pipe through fluidized-bed reactor (3) wall bottom, and fluidized-bed reactor (3) is welded on the pedestal jointly with feeding unit (2); Product collection device (4) is connected by ring flange with fluidized-bed reactor (3), and Temperature-controlled appliance (5) links to each other with Poor oxygen gas generating unit (1), fluidized-bed reactor (3) by circuit.
As shown in Figure 2, Poor oxygen gas generating unit (1) comprising: air compressor (6), Poor oxygen gas producer (7), gas-holder (8), tensimeter (9), flow control valve (10), flow control valve (11), spinner-type flowmeter (12), flow control valve (13), spinner-type flowmeter (14).Air compressor (6) links to each other with Poor oxygen gas producer (7) through pressure line; Poor oxygen gas producer (7) is provided with thermometer hole on the wall, Poor oxygen gas producer (7) uses ring flange to be connected with the extension pipeline of gas-holder (8), and the middle asbestos washer that adds seals.Tensimeter (9) is set on the gas-holder (8), flow control valve (10) is set in the extension pipeline, the extension pipeline is divided into two bursts of gas circuits through T-valve, one stock-traders' know-how flow control valve (11) links to each other with feeding unit (2) with spinner-type flowmeter (12), and a stock-traders' know-how flow control valve (13) links to each other with fluidized-bed reactor (3) with spinner-type flowmeter (14).
As shown in Figure 3, feeding unit (2) comprising: wheel box (16), motor (17), feeding warehouse (18), feeder (19), condensation water jacket (20).Wheel box (16) links to each other with axle with motor (17), has the effect of regulating motor speed; Feeding warehouse (18) is the back taper hopper of sealing, is vertically welded on the urceolus of feeder (19); Feeder (19) comprises follower arm and urceolus, and follower arm places urceolus inside, and urceolus is vertically welded on the wall of fluidized-bed reactor (3); Condensation water jacket (20) is a hollow device that has intake-outlet, and is concentric and weld on it with the urceolus of feeder (19).
As shown in Figure 4, fluidized-bed reactor (3) comprising: heat scission reaction chamber (21), carrier gas preheating chamber (22), external admission mouth (23), interior inlet mouth (24), venting port (25), thermometer hole (26), gas distribution grid (27).Heat scission reaction chamber (21) is a hollow circular cylinder, the two ends welding flange is furnished with the ring flange top cover of same size, and venting port (25) is set on the top cover, be welded on the ring flange, by difference highly thermometer hole (26) be set on same bus on the fluidized-bed reactor tube wall.Carrier gas preheating chamber (22) is to be welded by a right cylinder and a cone, inner hollow, and cone vertex of a cone direction is down.Right cylinder upper end welding flange, its specification is identical with the ring flange specification at two ends, heat scission reaction chamber (21), and thermometer hole (26) is set on the wall.Right cylinder one face down bonding connects a level and runs through steel pipe, enters end sealing in the right cylinder, and the other end is external admission mouth (23); Steel pipe is opened a breach being positioned at the cylinder axis place, and the position is interior inlet mouth (24) below steel pipe.Heat scission reaction chamber (21) is connected with ring flange with carrier gas preheating chamber (22), uses bolting, and gas distribution grid (27) is set between ring flange herein.
As shown in Figure 5, product collection device (4) comprising: cyclonic separator (29), collection charcoal case (30), condenser (31), oil trap (32), gas meter (33), flow control valve (34), gas sampling mouth (35).Cyclonic separator (29) is connected with ring flange on extension pipeline separately with fluidized-bed reactor (3), and cyclonic separator (29) vertical weld is connected on the collection charcoal case (30), cyclonic separator (29) bottom welding pipeline and collection charcoal case (30) concentric.Condenser (31) is connected with high temperature resistant pipeline with cyclonic separator (29), is connected with plug with holes with oil trap (32).Gas meter (33), flow control valve (34), gas sampling mouth (35) are set on the extension pipeline of oil trap, and each unit interface goes out with pipe valve to connect.
As shown in Figure 6, Temperature-controlled appliance (5) comprising: ceramic electrical heating jacket (15), ceramic electrical heating jacket (28), PID intelligent temperature controller (36), thermal sensor (37), thermal sensor (38).PID intelligent temperature controller (36) comprises air switch, PID temperature controller, rly., and each several part is fixed in the electric appliance control box, connects with lead.PID temperature regulator, thermal sensor, ceramic electrical heating jacket are formed two loops altogether, and the ceramic electrical heating jacket is added thermal control.One the tunnel is made up of PID temperature regulator (36), thermal sensor (37), the ceramic electrical heating jacket (28) that braces on fluidized-bed reactor (3), and the thermopair of thermal sensor (37) one ends embeds in the fluidized-bed reactor (3); Another road is made up of PID temperature regulator (36), thermal sensor (38), the ceramic electrical heating jacket (15) that braces on Poor oxygen gas producer (7).The annexation in two loops is: the air switch of PID temperature regulator (36) links to each other with power supply, each conversion of signals end points is connected with thermal sensor (38) signal output part with the thermal sensor (37) of corresponding circuit, the temperature probe of thermal sensor (37) and thermal sensor (38) signals collecting end embeds in the heating member, and ceramic electrical heating jacket (28) and ceramic electrical heating jacket (15) via line are connected to the rly. in the PID temperature regulator (36) in each self-loop.The temperature controller of PID temperature regulator (36) connects air switch and rly., the working order of control ceramic electrical heating jacket.
When the present invention moves, at first connect each parts in the equipment, feeding warehouse (18) is filled up the reaction raw materials sealing, and check resistance to air loss, feed water of condensation to condensation water jacket (20) and condenser (31).After the power-on, go up the pre-heating temperature value of setting the ceramic electrical heating jacket at PID intelligent temperature controller (36).When PID intelligent temperature controller (36) shows that Poor oxygen gas producer (7) is after temperature reaches set(ting)value under external application ceramic electrical heating jacket (15) effect, open air compressor (6), air is squeezed in the Poor oxygen gas producer (7), and the gas after the deoxygenation charges into gas-holder (8).When showing gas-holder (8), tensimeter (9) when pressure reaches requirement, closes air compressor (6); After the equipment operation, be lower than setting down in limited time when tensimeter (9) shows gas-holder (8) pressure, air compressor (6) starts automatically.When PID intelligent temperature controller (36) shows fluidized-bed reactor (3) temperature reaches set(ting)value under external application ceramic electrical heating jacket (28) effect, regulate carrier gas flux by flow control valve (10), flow control valve (11), flow control valve (13), starter motor (17), by driving feeder (19) convey materials in fluidized-bed reactor (3), heat scission reaction takes place in fluidized-bed reactor (3), the thermo-cracking steam that produces is through cyclonic separator (29), the impurity of carrying secretly is separated, be deposited in the collection charcoal case (30).Through condenser (31) thermo-cracking steam is being carried out condensation, the oil fuel of generation is collected in the oil trap (32).Uncondensed gas is measured flow by gas meter (33), and can sample by gas sampling mouth (35), and gaseous constituent is analyzed.
Claims (10)
1, a kind of apparatus for producing fuel oil by fast thermal cracking and organic waste in agricultural and forest industries, comprise: Poor oxygen gas generating unit (1), feeding unit (2), fluidized-bed reactor (3), product collection device (4), Temperature-controlled appliance (5), it is characterized in that Poor oxygen gas generating unit (1) links to each other by pipeline with fluidized-bed reactor (3); Feeding unit (2) is welded on the fluidized-bed reactor (3) by the vertical pipe through fluidized-bed reactor (3) wall bottom, fluidized-bed reactor (3) is welded on the pedestal jointly with feeding unit (2), product collection device (4) is connected by ring flange with fluidized-bed reactor (3), and Temperature-controlled appliance (5) links to each other with Poor oxygen gas generating unit (1), fluidized-bed reactor (3) by circuit.
2, apparatus for producing fuel oil by fast thermal cracking and organic waste in agricultural and forest industries according to claim 1, it is characterized in that, Poor oxygen gas generating unit (1) comprising: air compressor (6), Poor oxygen gas producer (7), gas-holder (8), tensimeter (9), flow control valve (10), flow control valve (11), spinner-type flowmeter (12), flow control valve (13), spinner-type flowmeter (14), air compressor (6) links to each other with Poor oxygen gas producer (7) through pressure line, Poor oxygen gas producer (7) uses ring flange to be connected with the extension pipeline of gas-holder (8), the middle asbestos washer that adds seals, tensimeter (9) is set on the gas-holder (8), flow control valve (10) is set in the extension pipeline, the extension pipeline is divided into two bursts of gas circuits through T-valve, one stock-traders' know-how flow control valve (11) links to each other with feeding unit (2) with spinner-type flowmeter (12), and a stock-traders' know-how flow control valve (13) links to each other with fluidized-bed reactor (3) with spinner-type flowmeter (14).
3, apparatus for producing fuel oil by fast thermal cracking and organic waste in agricultural and forest industries according to claim 1, it is characterized in that, feeding unit (2) comprising: wheel box (16), motor (17), feeding warehouse (18), feeder (19), condensation water jacket (20), wheel box (16) links to each other with electric wire with motor (17), feeding warehouse (18) is the back taper hopper of sealing, be vertically welded on the urceolus of feeder (19), feeder (19) is welded on the wall of fluidized-bed reactor (3), condensation water jacket (20) is a hollow device that has intake-outlet, and is concentric and weld on it with the urceolus of feeder (19).
4, apparatus for producing fuel oil by fast thermal cracking and organic waste in agricultural and forest industries according to claim 3 is characterized in that, feeder (19) comprises follower arm and urceolus, and follower arm places urceolus inside, and urceolus is vertically welded on the wall of fluidized-bed reactor (3).
5, apparatus for producing fuel oil by fast thermal cracking and organic waste in agricultural and forest industries according to claim 1, it is characterized in that, fluidized-bed reactor (3) comprising: heat scission reaction chamber (21), carrier gas preheating chamber (22), external admission mouth (23), interior inlet mouth (24), venting port (25), thermometer hole (26), gas distribution grid (27), venting port (25) is set on the heat scission reaction chamber (21), carrier gas preheating chamber (22) one face down bondings connect a level and run through steel pipe, the other end is external admission mouth (23), the interior steel pipe of carrier gas preheating chamber (22) below is provided with interior inlet mouth (24), heat scission reaction chamber (21) is connected with ring flange with carrier gas preheating chamber (22), use bolting, gas distribution grid (27) is set between ring flange herein.
6, apparatus for producing fuel oil by fast thermal cracking and organic waste in agricultural and forest industries according to claim 5, it is characterized in that, heat scission reaction chamber (21) is a hollow circular cylinder, the two ends welding flange, the ring flange top cover of being furnished with same size, venting port (25) is set on the top cover, on same bus thermometer hole (26) is set on the tube wall.
7, apparatus for producing fuel oil by fast thermal cracking and organic waste in agricultural and forest industries according to claim 5, it is characterized in that, carrier gas preheating chamber (22) is to be welded by a right cylinder and a cone, inner hollow, cone vertex of a cone direction down, right cylinder upper end welding flange, its specification is identical with the ring flange specification at two ends, heat scission reaction chamber (21), thermometer hole (26) is set on the wall, right cylinder one face down bonding connects a level and runs through steel pipe, enter end sealing in the right cylinder, the other end is external admission mouth (23).
8, apparatus for producing fuel oil by fast thermal cracking and organic waste in agricultural and forest industries according to claim 1, it is characterized in that, product collection device (4) comprising: cyclonic separator (29), collection charcoal case (30), condenser (31), oil trap (32), gas meter (33), flow control valve (34), gas sampling mouth (35), cyclonic separator (29) is connected with ring flange on extension pipeline separately with fluidized-bed reactor (3), cyclonic separator (29) vertical weld is connected on the collection charcoal case (30), cyclonic separator (29) bottom welding pipeline and collection charcoal case (30) concentric, condenser (31) is connected with high temperature resistant pipeline with cyclonic separator (29), be connected with plug with holes with oil trap (32), gas meter (33) is set on the extension pipeline of oil trap (32), flow control valve (34), gas sampling mouth (35), each unit interface go out with pipe valve to connect.
9, apparatus for producing fuel oil by fast thermal cracking and organic waste in agricultural and forest industries according to claim 1, it is characterized in that, Temperature-controlled appliance (5) comprising: ceramic electrical heating jacket (15), ceramic electrical heating jacket (28), PID intelligent temperature controller (36), thermal sensor (37), thermal sensor (38), these parts are formed two loops altogether, the ceramic electrical heating jacket is added thermal control: the one tunnel is by PID temperature regulator (36), thermal sensor (37), the ceramic electrical heating jacket (28) that braces on fluidized-bed reactor (3) is formed, and the thermopair of thermal sensor (37) one ends embeds in the fluidized-bed reactor (3); One the tunnel is by PID temperature regulator (36), thermal sensor (38), the ceramic electrical heating jacket (15) that braces on Poor oxygen gas producer (7) is formed, the annexation in two loops is: PID temperature regulator (36) links to each other with power supply, each conversion of signals end points is connected with thermal sensor (38) signal output part with the thermal sensor (37) of corresponding circuit, the temperature probe of thermal sensor (37) and thermal sensor (38) signals collecting end embeds in the heating member, and ceramic electrical heating jacket (28) and ceramic electrical heating jacket (15) via line are connected to the PID temperature regulator (36) in each self-loop.
10, apparatus for producing fuel oil by fast thermal cracking and organic waste in agricultural and forest industries according to claim 9, it is characterized in that, PID intelligent temperature controller (36) comprises air switch, PID temperature controller, rly., and each several part is fixed in the electric appliance control box, connects with lead.
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CNB2005101122219A CN100510007C (en) | 2005-12-29 | 2005-12-29 | Apparatus for producing fuel oil by fast thermal cracking and organic waste in agricultural and forest industries |
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CNB2005101122219A CN100510007C (en) | 2005-12-29 | 2005-12-29 | Apparatus for producing fuel oil by fast thermal cracking and organic waste in agricultural and forest industries |
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CN1818023A true CN1818023A (en) | 2006-08-16 |
CN100510007C CN100510007C (en) | 2009-07-08 |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101962563A (en) * | 2010-10-30 | 2011-02-02 | 上海交通大学 | Device for preparing biofuel by quick thermal cracking of biomass |
CN105154123A (en) * | 2015-07-13 | 2015-12-16 | 河南科技大学 | System for preparing bio-oil through thermal cracking of biomass |
-
2005
- 2005-12-29 CN CNB2005101122219A patent/CN100510007C/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101962563A (en) * | 2010-10-30 | 2011-02-02 | 上海交通大学 | Device for preparing biofuel by quick thermal cracking of biomass |
CN101962563B (en) * | 2010-10-30 | 2013-11-06 | 上海交通大学 | Device for preparing biofuel by quick thermal cracking of biomass |
CN105154123A (en) * | 2015-07-13 | 2015-12-16 | 河南科技大学 | System for preparing bio-oil through thermal cracking of biomass |
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