CN205638791U - Wind power generation system that compound fertilizer production tail gas recycling utilized - Google Patents
Wind power generation system that compound fertilizer production tail gas recycling utilized Download PDFInfo
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- CN205638791U CN205638791U CN201620157442.1U CN201620157442U CN205638791U CN 205638791 U CN205638791 U CN 205638791U CN 201620157442 U CN201620157442 U CN 201620157442U CN 205638791 U CN205638791 U CN 205638791U
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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
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/70—Wind energy
- Y02E10/72—Wind turbines with rotation axis in wind direction
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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
- Y02E70/00—Other energy conversion or management systems reducing GHG emissions
- Y02E70/30—Systems combining energy storage with energy generation of non-fossil origin
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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
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P70/00—Climate change mitigation technologies in the production process for final industrial or consumer products
- Y02P70/10—Greenhouse gas [GHG] capture, material saving, heat recovery or other energy efficient measures, e.g. motor control, characterised by manufacturing processes, e.g. for rolling metal or metal working
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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
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P70/00—Climate change mitigation technologies in the production process for final industrial or consumer products
- Y02P70/50—Manufacturing or production processes characterised by the final manufactured product
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Abstract
The utility model discloses a wind power generation system that compound fertilizer production tail gas recycling utilized, including the drying -machine, this wind power generation system still includes dust remover, tuber pipe A, aerogenerator A, heating device and heat exchanger, and the export of drying -machine tail gas and the airtight intercommunication of dust remover, the dust remover of drying -machine are linked together with the heat exchanger through tuber pipe A, and the heat exchanger is linked together through the hot -blast import of drying -machine with the drying -machine, be equipped with a plurality of aerogenerator A and a plurality of draught fan A in tuber pipe A's wind channel, inside tuber pipe A is arranged in to aerogenerator A's electricity generation impeller, all aerogenerator A and electrical connections battery, the inside heat exchange tube of heat exchanger is connected with the heating device electricity. The utility model discloses utilize the produced tail gas of drying -machine to form the wind energy through the wind channel time, turned into the electric energy through the generator with the wind energy to effectively utilize the energy of exhaust emissions, practiced thrift the energy and the energy.
Description
Technical field
This utility model relates to composite heat transfer tail gas recycle and utilizes field; particularly relate to the wind power generation system that a kind of composite heat transfer circulation of tail gas utilizes, particularly relate in compound fertilizer's drum disc pelletize, spray drum pelletize or high-tower granulation tail gas recycle and utilize and carry out wind energy and generate electricity continuously and waste heat from tail gas recycle utilization field.
Background technology
Overwhelming majority composite heat transfer enterprise of China is in producing complex fertilizer product now; the energy of the offer thermals source such as it is drying, steam, conduction oil is the fossil energy such as coal, natural gas; the harmful gass such as great amount of carbon dioxide will be discharged with coal for thermal source and pollute environment; it is unfavorable for the protection of environment; make again energy consumption cost be multiplied with thermals source such as natural gass, while increasing production cost, reduce the profit of enterprise.The fossil energy such as coal, natural gas is non-renewable resources simultaneously, be unfavorable for resources conservation, recycle, the developing direction of energy-saving and emission-reduction.
Utility model content
The weak point existed for prior art, the purpose of this utility model is the wind power generation system providing a kind of composite heat transfer circulation of tail gas to utilize, and the tail gas recycle that make use of compound fertilizer to produce utilizes and produces wind energy and generate electricity continuously.
The purpose of this utility model is achieved through the following technical solutions:
The wind power generation system that a kind of composite heat transfer circulation of tail gas utilizes, including dehydrator, dehydrator import department is provided with dehydrator hot wind inlet, and dehydrator exit is provided with dehydrator offgas outlet.This wind power generation system also includes cleaner unit A, airduct A, wind-driven generator A, heater and heat exchanger, the dehydrator offgas outlet of described dehydrator is airtight with cleaner unit A to be connected, cleaner unit A is connected with heat exchanger by airduct A, and heat exchanger is connected by dehydrator hot wind inlet with dehydrator;Being provided with several wind-driven generators A and several air-introduced machines A in the air channel of airduct A, the electricity generation impeller of described wind-driven generator A is placed in inside airduct A, and all of wind-driven generator A converts control system with accumulator or electricity and electrically connects;Heat exchanger tube within described heat exchanger is connected with heater.
This utility model can also reclaim in cooler produced tail gas and utilize exhaust collection to get up to drive wind turbine power generation, its concrete structure is as follows: this wind power generation system also includes cooler, cleaner unit B, airduct B and wind-driven generator B, cooler import department is provided with cooler air intlet, cooler exit is provided with cooler air outlet slit, the cooler air outlet slit of cooler is airtight with cleaner unit B to be connected, and cleaner unit B is connected with the cooler air intlet of cooler by airduct B;Several wind-driven generators B and several air-introduced machines B in the air channel of airduct B, the electricity generation impeller of described wind-driven generator B is placed in inside airduct B, and all of wind-driven generator B converts control system with accumulator or electricity and electrically connects.
The further preferred technical scheme of this utility model is: described air-introduced machine A is disposed in proximity to the position, airduct A air channel of cleaner unit.
So that the wind speed in airduct A and airduct B is higher, accelerate generating efficiency.The air channel of described airduct A is provided with pressurization speedup blower fan A;The air channel of described airduct B is provided with pressurization speedup blower fan B.
As preferably, described dehydrator hot wind inlet is provided with aerator.
As preferably, described wind-driven generator A is uniformly arranged on the upper, middle and lower urticaria in airduct A air channel to position.
As preferably, described heater is steam heater or hot oil heater, and described heat exchanger is steam finned heat exchanger or conduction oil finned heat exchanger.
This utility model compared with the prior art, has the following advantages and beneficial effect:
(1) this utility model carries out many improvement to traditional composite heat transfer mode of heating; owing to need not the fossil energy such as fire coal, natural gas; save resource; decrease discharge; with the electric energy of cleaning as major impetus with the energy, can really realize recycling, clean productions, protect the purpose of environment.
(2) wind energy produced by the blower fan during this utility model utilizes composite heat transfer is used, required for producing with the electric energy that Wind Power Utilization produces, can reduce or need not the consumption of heat energy in whole production process, provide useful measure for enterprise's reduction energy consumption, potentiation.
(3) this utility model utilizes wind power generation produced by blower fan, can enterprise produce dull season and start aerator during space, air-introduced machine carries out the electric energy that generating produces and is connected to the grid sales, can be that enterprise additionally increases income, creation benefit.
(4) waste heat from tail gas that this utility model produces in process of production is recycled, and Tail Gas also uses endless form and utilizes, and can reduce the discharge of harmful gas to greatest extent, it is achieved energy-saving and emission-reduction, the purpose of protection environment.
Accompanying drawing explanation
Fig. 1 is the structural representation of embodiment one;
Fig. 2 is the structural representation of embodiment two.
Wherein, entitled corresponding to the reference in accompanying drawing:
1-dehydrator, 2-cleaner unit A, 3-air-introduced machine A, 4-airduct A, 5-wind-driven generator A, 6-pressurize speedup blower fan A, 7-heat exchanger, 71-heat exchanger tube, 8-aerator, 9-heater, 10-cooler, 101-cooler air intlet, 102-cooler air outlet slit, 11-dehydrator hot wind inlet, 12-dehydrator offgas outlet, 13-cleaner unit B, 14-air-introduced machine B, 15-airduct B, 16-wind-driven generator B, 17-pressurize speedup blower fan B.
Detailed description of the invention
Below in conjunction with embodiment, this utility model is described in further detail:
Embodiment one
As shown in Figure 1, the wind power generation system that a kind of composite heat transfer circulation of tail gas utilizes, including dehydrator 1, cleaner unit A2, airduct A4, wind-driven generator A5, heater 9 and heat exchanger 7, dehydrator 1 import department is provided with dehydrator hot wind inlet 11, and dehydrator 1 exit is provided with dehydrator offgas outlet 12.The heat that heater 9 is wanted for composite heat transfer process offer baking needed, then carries out heat exchange by dehydrator 1 to composite heat transfer, to dry fertilizer and to produce fertilizer dry, that quality is high.And traditional dehydrator 1 is after drying fertilizer, it is directly discharged to air often with the air of heat or waste heat, causes air themperature to raise so that global warming, is the most also unfavorable for the efficient utilization of heat energy.The air discharged in dehydrator 1, band has surplus heat is recycled and produces electric energy through wind turbine power generation by this utility model again; and electrical power storage is got off; reach the purpose of efficient recovery dehydrator 1 heat energy; air after wind turbine power generation also circulates through the heated transportation of heat exchanger 7 and again dries fertilizer in dehydrator 1 simultaneously; achieve the tail gas in dehydrator 1, heat is reused, and reaches energy-saving and emission-reduction, the purpose of protection environment.
The dehydrator offgas outlet 12 of dehydrator 1 is airtight with cleaner unit A2 to be connected, tail gas in dehydrator 1 is in dehydrator offgas outlet 12 is discharged into cleaner unit A2, then in cleaner unit A2, the tail gas of dehydrator 1 discharge is carried out dedusting so that dust, impurity in dehydrator 1 tail gas are effectively removed.Cleaner unit A2 is connected with heat exchanger 7 by airduct A4, and airduct A4 is that the band after cleaner unit A2 dedusting has surplus heat the air channel of air, the air that band has surplus heat quick flowing formation wind energy in air channel.Being provided with several wind-driven generators A5 and several air-introduced machines A3 in the air channel of airduct A4, the electricity generation impeller of wind-driven generator A5 is placed in inside airduct A4, and all of wind-driven generator A5 converts control system with accumulator or electricity and electrically connects;The air that band has surplus heat wind energy in air channel drives wind-driven generator A5 generating to produce electric energy, these electric energy are transported in accumulator carry out storing in case using, or these electric energy are transmitted directly to electricity and convert in control system and be connected to other electrical equipments (such as heater 9 etc.) by electricity conversion control system.In airduct A4, air is by being transported in heat exchanger 7 after all wind-driven generator A5, heat exchanger 7 is connected by dehydrator hot wind inlet 11 with dehydrator 1, heat exchanger tube 71 within heat exchanger 7 is connected with heater 9, the air being positioned in heat exchanger 7 forms high temperature and high pressure gas under heat exchanger tube 71 heat effect, and entered into dehydrator 1 by aerator 8 by dehydrator hot wind inlet 11, the heat of baking needed is provided for dehydrator 1.
As it is shown in figure 1, air-introduced machine A3 is disposed in proximity to the position, airduct A4 air channel of cleaner unit A2 so that in cleaner unit A2, air can enter airduct A4 smoothly and pass through in airduct A4.
As it is shown in figure 1, the air channel of airduct A4 is provided with pressurization speedup blower fan A6, this pressurization speedup blower fan A6 can strengthen the speed of air wind flow, it is simple to wind-driven generator more efficiently generates electricity.
As it is shown in figure 1, according to an embodiment of the present utility model, wind-driven generator A5 is uniformly arranged on the upper, middle and lower urticaria in airduct A4 air channel to position.
The preferred heater of the present embodiment 9 is steam heater or hot oil heater, and the preferred heat exchanger of the present embodiment 7 is steam finned heat exchanger or conduction oil finned heat exchanger.
The operation principle of the present embodiment is as follows:
Heater 9 improves, for composite heat transfer process, the heat that baking needed is wanted, and then by dehydrator 1, composite heat transfer is carried out heat exchange, to dry fertilizer and to produce fertilizer dry, that quality is high.The air discharged in dehydrator 1, band has surplus heat is recycled and produces electric energy through wind turbine power generation by this utility model again; and electrical power storage is got off; reach the purpose of efficient recovery dehydrator 1 heat energy; air after wind turbine power generation also circulates through the heated transportation of heat exchanger 7 and again dries fertilizer in dehydrator 1 simultaneously; achieve the air in dehydrator 1, heat is reused, and reaches energy-saving and emission-reduction, the purpose of protection environment.The air that in dehydrator 1, band has surplus heat is distinguished and admirable in dehydrator tail gas 12 is transported to cleaner unit A2, it is transported to after cleaner unit A2 carries out effective dust removal process in airduct A4, air that band has surplus heat is distinguished and admirable forms high pressure wind speed faster in airduct A4, wind quickly flows at airduct A4, driving all wind-driven generator A5 work being arranged in airduct A4, wind-driven generator A5 generates electricity under distinguished and admirable drive and produces electric energy and be transported in accumulator store.Pressurization speedup blower fan A6 in airduct A4 air channel can strengthen the speed of air wind flow, allows wind-driven generator A5 generate electricity at full capacity.The air outlet of airduct A4 connects with heat exchanger 7, after the heater 9 in heat exchanger 7 heats, in heat exchanger 7, air is distinguished and admirable is the formation of high temperature and high pressure gas, then high temperature and high pressure gas is transported in dehydrator 1 through aerator 8 and dehydrator hot wind inlet 11, provides the heat of baking needed for dehydrator 1.Circulate down successively according to above-mentioned operation principle; dehydrator 1 has just obtained High Temperature High Pressure air stream supply endlessly; and tail gas produced by dehydrator 1 forms high temperature and high pressure gas after also passing through subsequent treatment; whole system will not be to outside emission; protect environment, meet energy-saving and emission-reduction requirement.And tail gas produced by dehydrator 1 is through air channel A4, the wind-driven generator A5 being positioned in the A4 of air channel also works and allows wind energy transformation under the quickly flowing that tail gas is distinguished and admirable is electric energy, thus efficiently utilize the energy of exhaust emissions, turn waste into wealth and recycle, saved energy and the energy.
Embodiment two
As shown in Figure 2, the wind power generation system that a kind of composite heat transfer circulation of tail gas utilizes, including dehydrator 1, cleaner unit A2, airduct A4, wind-driven generator A5, heater 9 and heat exchanger 7, dehydrator 1 import department is provided with dehydrator hot wind inlet 11, and dehydrator 1 exit is provided with dehydrator offgas outlet 12.The heat that heater 9 is wanted for composite heat transfer process offer baking needed, then carries out heat exchange by dehydrator 1 to composite heat transfer, to dry fertilizer and to produce fertilizer dry, that quality is high.And traditional dehydrator 1 is after drying fertilizer, it is directly discharged to air often with the air of heat or waste heat, causes air themperature to raise so that global warming, is the most also unfavorable for the efficient utilization of heat energy.The air discharged in dehydrator 1, band has surplus heat is recycled and produces electric energy through wind turbine power generation by this utility model again; and electrical power storage is got off; reach the purpose of efficient recovery dehydrator 1 heat energy; air after wind turbine power generation also circulates through the heated transportation of heat exchanger 7 and again dries fertilizer in dehydrator 1 simultaneously; achieve the tail gas in dehydrator 1, heat is reused, and reaches energy-saving and emission-reduction, the purpose of protection environment.
The dehydrator offgas outlet 12 of dehydrator 1 is airtight with cleaner unit A2 to be connected, tail gas in dehydrator 1 is in dehydrator offgas outlet 12 is discharged into cleaner unit A2, then in cleaner unit A2, the tail gas of dehydrator 1 discharge is carried out dedusting so that dust, impurity in dehydrator 1 tail gas are effectively removed.Cleaner unit A2 is connected with heat exchanger 7 by airduct A4, and airduct A4 is that the band after cleaner unit A2 dedusting has surplus heat the air channel of air, the air that band has surplus heat quick flowing formation wind energy in air channel.Being provided with several wind-driven generators A5 and several air-introduced machines A3 in the air channel of airduct A4, the electricity generation impeller of wind-driven generator A5 is placed in inside airduct A4, and all of wind-driven generator A5 converts control system with accumulator or electricity and electrically connects;The air that band has surplus heat wind energy in air channel drives wind-driven generator A5 generating to produce electric energy, these electric energy are transported in accumulator carry out storing in case using, or these electric energy are transmitted directly to electricity and convert in control system and be connected to other electrical equipments (such as heater 9 etc.) by electricity conversion control system.In airduct A4, air is by being transported in heat exchanger 7 after all wind-driven generator A5, heat exchanger 7 is connected by dehydrator hot wind inlet 11 with dehydrator 1, heat exchanger tube 71 within heat exchanger 7 is connected with heater 9, the air being positioned in heat exchanger 7 forms high temperature and high pressure gas under heat exchanger tube 71 heat effect, and entered into dehydrator 1 by aerator 8 by dehydrator hot wind inlet 11, the heat of baking needed is provided for dehydrator 1.
As it is shown in figure 1, air-introduced machine A3 is disposed in proximity to the position, airduct A4 air channel of cleaner unit A2 so that in cleaner unit A2, air can enter airduct A4 smoothly and pass through in airduct A4.
As it is shown in figure 1, the air channel of airduct A4 is provided with pressurization speedup blower fan A6, this pressurization speedup blower fan A6 can strengthen the speed of air wind flow, it is simple to wind-driven generator more efficiently generates electricity, promotes that wind-driven generator is more concentrated and generate electricity efficiently.
As it is shown in figure 1, according to an embodiment of the present utility model, wind-driven generator A5 is uniformly arranged on the upper, middle and lower urticaria in airduct A4 air channel to position;Wind-driven generator B16 is uniformly arranged on the upper, middle and lower urticaria in airduct B15 air channel to position.
The preferred heater of the present embodiment 9 is steam heater or hot oil heater, and the preferred heat exchanger of the present embodiment 7 is steam finned heat exchanger or conduction oil finned heat exchanger.
As shown in Figure 2, the wind power generation system that the composite heat transfer circulation of tail gas of the present embodiment utilizes also includes cooler 10, cleaner unit B13, airduct B15 and wind-driven generator B16, cooler 10 import department is provided with cooler air intlet 101, cooler 10 exit is provided with cooler air outlet slit 102, the cooler air outlet slit 102 of cooler 10 is airtight with cleaner unit B13 to be connected, and cleaner unit B13 is connected with the cooler air intlet 101 of cooler 10 by airduct B15.Cooler 10 is the relevant device of composite heat transfer fertilizer; this utility model is again to be recycled by the air discharged in cooler 10 and produce electric energy through wind turbine power generation; and conversion in addition; reach the purpose of efficient recovery cooler 10 wind energy; air after wind turbine power generation also circulates and is transported in cooler 10 simultaneously; the air achieved in cooler 10 is reused, and does not produce any tail gas, reaches energy-saving and emission-reduction, the purpose of protection environment.Tail gas in cooler 10, in dehydrator offgas outlet 102 is discharged into cleaner unit B13, then carries out dedusting to the tail gas of cooler 10 discharge so that dust, impurity in cooler 10 tail gas are effectively removed in cleaner unit B13.Cleaner unit B13 is connected with cooler 10 again by airduct B15, has reached to recycle the purpose of cooler 10 emission.
As in figure 2 it is shown, in the air channel of airduct B15 several wind-driven generators B16 and several air-introduced machines B14, the electricity generation impeller of wind-driven generator B16 is placed in inside airduct B15, and all of wind-driven generator B16 electrically connects with accumulator or electricity conversion control system.
As shown in Figure 2, air-introduced machine B14 is near the position, airduct B15 air channel of cleaner unit B13, make air in cleaner unit B13 can enter airduct B15 smoothly and the pipeline at airduct B15 that passes through in airduct B15 has the corner turned to and is provided with air-introduced machine B14 so that in airduct B15, air can successfully pass through.
As in figure 2 it is shown, the air channel of airduct B15 is provided with pressurization speedup blower fan B17, this pressurization speedup blower fan B17 can strengthen the speed of air wind flow, it is simple to wind-driven generator more efficiently generates electricity, promotes that wind-driven generator is more concentrated and generate electricity efficiently.
According to an embodiment of the present utility model, cooler 10 is provided with air inlet 101, it is possible to allow the air circulation cycle of airduct B15 be transported in cooler 10.
According to an embodiment of the present utility model, wind-driven generator B16 is uniformly arranged on the upper, middle and lower urticaria in airduct B15 air channel to position.
The operation principle of the present embodiment is as follows:
The heat that heater 9 is wanted for composite heat transfer process offer baking needed, inputs hot-air in dehydrator 1 continuously, then by dehydrator 1, composite heat transfer is carried out heat exchange, to dry fertilizer and to produce fertilizer dry, that quality is high.The air discharged in dehydrator 1, band has surplus heat is recycled and produces electric energy through wind turbine power generation by this utility model again; and conversion in addition; reach the purpose of efficient recovery dehydrator 1 heat energy and wind energy; air after wind turbine power generation also circulates through the heated transportation of heat exchanger 7 and again dries fertilizer in dehydrator 1 simultaneously; achieve the air in dehydrator 1, heat is reused, and reaches energy-saving and emission-reduction, the purpose of protection environment.The air that in dehydrator 1, band has surplus heat is distinguished and admirable in dehydrator tail gas 12 is transported to cleaner unit A2, it is transported to after cleaner unit A2 carries out effective dust removal process in airduct A4, air that band has surplus heat is distinguished and admirable, and to form powerful high pressure in airduct A4 distinguished and admirable, distinguished and admirable quickly flow at airduct A4, driving all wind-driven generator A5 work being arranged in airduct A4, wind-driven generator A5 generates electricity under distinguished and admirable drive and produces electric energy and be transported in accumulator carry out storing or conversion.Adjacent two straight tube steering positions or the air-introduced machine A3 of connection corner in airduct A4 air channel play and guide air (or wind) to turn to the most current purpose.Pressurization speedup blower fan A6 in airduct A4 air channel can strengthen the speed of air wind flow, allows wind-driven generator A5 generate electricity.The air outlet of airduct A4 connects with heat exchanger 7, after heat exchanger 7 and heater 9 heat, in heat exchanger 7, air is distinguished and admirable is the formation of high temperature and high pressure gas, and then high temperature and high pressure gas is in dehydrator hot wind inlet 11 is transported to dehydrator 1, provides the heat of baking needed for dehydrator 1.
In cooler 10 by distinguished and admirable for air in cooler air outlet slit 102 is transported to cleaner unit B13, it is transported to after cleaner unit B13 carries out effective dust removal process in airduct B15, air is distinguished and admirable, and to form powerful high pressure in airduct B15 distinguished and admirable, distinguished and admirable quickly flow at airduct B15, driving all wind-driven generator B16 work being arranged in airduct B15, wind-driven generator B16 generates electricity under distinguished and admirable drive and produces electric energy and be transported in accumulator carry out storing or conversion.Adjacent two straight tube steering positions or the air-introduced machine B 15 of connection corner in airduct B15 air channel play and guide air (or wind) to turn to the most current purpose.Pressurization speedup blower fan B17 in airduct B15 air channel can strengthen the speed of air wind flow, allows wind-driven generator B16 more concentrate efficient generating.Airduct B15 wind outlet is connected with cooler 10 by cooler air intlet 101, in cooler air intlet 101 is transported to cooler 10, it is achieved thereby that the utilization of wind energy and the recycling of air in cooler 10 emission.
Circulate down successively according to above-mentioned operation principle; dehydrator 1 has just obtained High Temperature High Pressure air stream supply endlessly; and tail gas produced by dehydrator 1 forms high temperature and high pressure gas after also passing through subsequent treatment; whole system will not be to outside emission; protect environment, meet energy-saving and emission-reduction requirement.Cooler 10 has just obtained air stream supply endlessly.Produced by dehydrator 1 and cooler 10, tail gas is through air channel, the wind-driven generator being positioned in air channel also works and allows wind energy transformation under the quickly flowing that tail gas is distinguished and admirable is electric energy, thus efficiently utilize the energy of exhaust emissions, turn waste into wealth and recycle, saved energy and the energy.
The foregoing is only preferred embodiment of the present utility model, not in order to limit this utility model, all any amendment, equivalent and improvement etc. made within spirit of the present utility model and principle, within should be included in protection domain of the present utility model.
Claims (7)
1. the wind power generation system that a composite heat transfer circulation of tail gas utilizes, including dehydrator (1), dehydrator (1) import department is provided with dehydrator hot wind inlet (11), dehydrator (1) exit is provided with dehydrator offgas outlet (12), it is characterized in that: also include cleaner unit A (2), airduct A (4), wind-driven generator A (5), heater (9) and heat exchanger (7), the dehydrator offgas outlet (12) of described dehydrator (1) is airtight with cleaner unit A (2) to be connected, cleaner unit A (2) is connected with heat exchanger (7) by airduct A (4), heat exchanger (7) is connected by dehydrator hot wind inlet (11) with dehydrator (1);Several wind-driven generators A (5) and several air-introduced machines A (3) it is provided with in the air channel of airduct A (4), it is internal that the electricity generation impeller of described wind-driven generator A (5) is placed in airduct A (4), and all of wind-driven generator A (5) converts control system with accumulator or electricity and electrically connects;The heat exchanger tube (71) of described heat exchanger (7) inside is connected with heater (9).
2. the wind power generation system utilized according to the composite heat transfer circulation of tail gas described in claim 1, it is characterized in that: also include cooler (10), cleaner unit B (13), airduct B (15) and wind-driven generator B (16), cooler (10) import department is provided with cooler air intlet (101), cooler (10) exit is provided with cooler air outlet slit (102), the cooler air outlet slit (102) of cooler (10) is airtight with cleaner unit B (13) to be connected, cleaner unit B (13) is connected with the cooler air intlet (101) of cooler (10) by airduct B (15);Several wind-driven generators B (16) and several air-introduced machines B (14) it is provided with in the air channel of airduct B (15), it is internal that the electricity generation impeller of described wind-driven generator B (16) is placed in airduct B (15), and all of wind-driven generator B (16) converts control system with accumulator or electricity and electrically connects.
3. the wind power generation system utilized according to the composite heat transfer circulation of tail gas described in claim 1, it is characterised in that: described air-introduced machine A (3) is disposed in proximity to airduct A (4) position, air channel of cleaner unit A (2).
4. the wind power generation system utilized according to the composite heat transfer circulation of tail gas described in Claims 2 or 3, it is characterised in that: the air channel of described airduct A (4) is provided with pressurization speedup blower fan A (6);The air channel of described airduct B (15) is provided with pressurization speedup blower fan B (17).
5. the wind power generation system utilized according to the composite heat transfer circulation of tail gas described in claim 1, it is characterised in that: described dehydrator hot wind inlet (11) is provided with aerator (8).
6. the wind power generation system utilized according to the composite heat transfer circulation of tail gas described in claim 1, it is characterised in that: described wind-driven generator A (5) is uniformly arranged on the upper, middle and lower urticaria in airduct A (4) air channel to position.
7. the wind power generation system utilized according to the composite heat transfer circulation of tail gas described in claim 1, it is characterized in that: described heater (9) is steam heater or hot oil heater, described heat exchanger (7) is steam finned heat exchanger or conduction oil finned heat exchanger.
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN107725278A (en) * | 2017-10-26 | 2018-02-23 | 刘治 | A kind of wind power plant |
CN114087128A (en) * | 2021-12-23 | 2022-02-25 | 哈尔滨环宇通电站设备有限公司 | Energy storage equipment based on natural wind conversion is high-pressure gas |
CN114152033A (en) * | 2021-12-07 | 2022-03-08 | 国能生物发电集团有限公司 | Biomass drying equipment |
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2016
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107725278A (en) * | 2017-10-26 | 2018-02-23 | 刘治 | A kind of wind power plant |
CN114152033A (en) * | 2021-12-07 | 2022-03-08 | 国能生物发电集团有限公司 | Biomass drying equipment |
CN114087128A (en) * | 2021-12-23 | 2022-02-25 | 哈尔滨环宇通电站设备有限公司 | Energy storage equipment based on natural wind conversion is high-pressure gas |
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