CN204532724U - High temperature integrated thermal generating device in groove type solar - Google Patents
High temperature integrated thermal generating device in groove type solar Download PDFInfo
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- CN204532724U CN204532724U CN201520046219.5U CN201520046219U CN204532724U CN 204532724 U CN204532724 U CN 204532724U CN 201520046219 U CN201520046219 U CN 201520046219U CN 204532724 U CN204532724 U CN 204532724U
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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
- Y02E10/40—Solar thermal energy, e.g. solar towers
- Y02E10/46—Conversion of thermal power into mechanical power, e.g. Rankine, Stirling or solar thermal engines
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Abstract
In the utility model groove type solar, high temperature integrated thermal generating device is by parabola groove light-condensing array, heat-transfer working medium, cross hot vaporizer, pressure pump, pressure controlled valve, integrated heat exchange heat accumulation evaporating pot, heat-storage medium, power working medium, dynamic power unit, vaporizer, condenser, Air-cooled Unit, modulating valve, transfer line, complementary heating system, light-condensing array clustered control and hot power-generating control system composition, this device makes full use of integrated heat exchange heat accumulation evaporating pot and connects Photospot solar thermal cycle and dynamic power and to circulate two circulatory systems, simplify solar energy thermal-power-generating device structure to greatest extent, coordinate solid fuel battery or open type Bretton thermal electric generator and the high-temperature gas generating using the renewable energy sourcess such as biomass energy to discharge and concurrent heating, extend number when generating electricity to greatest extent, found the technical foundation substituting fossil energy.This model utility belongs to solar energy thermal-power-generating technical field.
Description
Technical field
The utility model be 201120333523.X patent is carried out amendment, to supplement and perfect.This technology belongs to solar energy thermal-power-generating field.
Background technique
At present, putting in the key subject of Salar light-gathering solar electrical energy generation (CSP) technical field is exactly constantly reduce solar thermal power plants manufacture cost by innovation, continues to improve generating efficiency, actively creates the economic technology basis substituting fossil energy.Inventor is in patent of invention 201110060078.9; In 201110086362.3 and 201110161536.8,201110343277.0 applications, the novel integrated heat exchange heat accumulation evaporating plant setting up applicable light collection solar generating (CSP) is proposed, and with the thermal electric generator of the renewable energy sources complementations such as wind-powered electricity generation, its objective is to reduce solar thermal power plants quantity, reducing thermal loss, extend number when generating electricity, improve heat accumulation and generating efficiency.But, in the face of the diverse steam Rankine cycle of power cycle working medium, organic Rankine bottoming cycle and brayton cycle thermal electric generator group, the integrated thermal generating device of different mode must be designed according to the particular/special requirement of powerplant module and feature.
Summary of the invention
The utility model connects Photospot solar heat transfer and heat generating two heat circulating systems by integrated heat exchange heat accumulation evaporating pot, expand the many items chooses of heat-transfer working medium, power working medium, dynamic power unit and complementary heating system, traditional trough type solar power generation circulatory system is simplified, for the trough type solar power generation device (CSP) setting up low-cost high-efficiency has done new trial simultaneously.
The utility model is made up of parabola groove light-condensing array, heat-transfer working medium, mistake hot vaporizer, pressure pump, pressure controlled valve, integrated heat exchange heat accumulation evaporating pot, heat-storage medium, power working medium, dynamic power unit, vaporizer, condenser, Air-cooled Unit, modulating valve, transfer line, complementary heating system, light-condensing array clustered control and hot power-generating control system, it is characterized in that: the parabola groove light-condensing array of option and installment line-focusing solar strengthening heat collecting pipe, the import of this light-condensing array outlet connecting integration heat exchange heat accumulation evaporating pot heat exchanger; The pump inlet of integrated heat exchange heat accumulation evaporating pot heat exchanger exit Bonding pressure, the import of pressure pump outlet connecting sockets formula light-condensing array, forms closed solar energy heat-collecting heat-storage circulation; Integrated heat exchange heat accumulation evaporating pot evaporator outlet connects steam Rankine cycle or the import of organic Rankine bottoming cycle power engine; Steam Rankine cycle or the outlet of organic Rankine bottoming cycle power engine connect condenser, the pump inlet of condenser Bonding pressure, pressure pump outlet connecting integration heat exchange heat accumulation evaporating pot evaporator; Or integrated heat exchange heat accumulation evaporating pot evaporator outlet connects the import of brayton cycle power engine, brayton cycle power engine outlet connecting integration heat exchange heat accumulation evaporating pot evaporator, forms closed complete thermodynamic cycle; Complementary heating system is with parabola groove light-condensing array or connect or parallel connection; Carry out generating electricity and energy storage when sunshine is sufficient, time without sunshine, utilize integrated heat exchange heat accumulation evaporating pot heat accumulation to generate electricity; Or start complementary heating system and generated electricity by other renewable energy sources concurrent heatings;
Or the outlet of parabola groove light-condensing array connects the import of overheated evaporator heat transfer end, and overheated evaporator heat transfer brings out a mouthful connecting integration heat exchange heat accumulation evaporating pot heat exchanger import; When selecting water vapour to make heat-transfer working medium, integrated heat exchange heat accumulation evaporating pot heat exchanger exit connects condenser, the pump inlet of condensator outlet Bonding pressure; When selecting the heat-transfer working medium of other type, can not condenser be set, then integrated heat exchange heat accumulation evaporating pot heat exchanging tube outlet Bonding pressure pump inlet; The import of pressure pump outlet connecting sockets formula light-condensing array, forms closed solar energy heat-collecting heat-storage circulation; Crossing hot vaporizer can be arranged in integrated heat exchange heat accumulation evaporating pot or outside tank; Overheated evaporator evaporation end import connecting integration heat exchange heat accumulation evaporating pot evaporator outlet, overheated evaporator outlet connects steam Rankine cycle or the import of organic Rankine bottoming cycle power engine; Steam Rankine cycle or the outlet of organic Rankine bottoming cycle power engine connect condenser, the pump inlet of condenser Bonding pressure, pressure pump outlet connecting integration heat exchange heat accumulation evaporating pot evaporator; Or overheated evaporator outlet connects the import of brayton cycle power engine, brayton cycle power engine outlet connecting integration heat exchange heat accumulation evaporating pot evaporator, forms closed complete thermodynamic cycle; Complementary heating system is with parabola groove light-condensing array or connect or parallel connection; Solid fuel cell such as Solid Oxide Fuel Cell (SOFC) and molten carbonate fuel cell (MCFC) or open type combustion gas Bretton thermal electric generator is adopted to generate electricity concurrent heating, its efficiency is far above direct combustion gas or oil-fired boiler, therefore first-selected as complementary heating system.
Described integrated heat exchange heat accumulation evaporating pot is the tun of splendid attire liquid phase-change heat-storage medium; Or the large-sized solid heat vessel of heat transfer heat exchange evaporation tubes is installed, or deposit the tun of liquid phase-change and solid sensible heat heat-storage medium simultaneously; The rounded tank body of described integrated heat exchange heat accumulation evaporating pot, or rectangular tank body; Described integrated heat exchange heat accumulation evaporating pot arranges heat exchanger inlet and outlet and evaporator inlet-outlet;
The heat transfer pipe of described complementary heating system and import and export are arranged in the tank body of integrated heat exchange heat accumulation evaporating pot, and heat exchange pipeline adopts metal or ceramic material; Heat accumulation material inlet, pressure regulator valve, pressure and temperature sensor are set simultaneously, or equalized temperature stirring apparatus, or serial or parallel connection is imported and exported in the heat transfer pipe of complementary heating system and the heat exchange of integrated heat exchange heat accumulation evaporating pot, or introduce inventor patent 201110343277.0 electric power heating boiler is arranged in integrated heat exchange heat accumulation evaporating pot, integrated heat exchange heat accumulation evaporating pot is become integrate solar heat-exchange, heat accumulation, concurrent heating, the multifunction storage thermal of evaporating.
Heat exchanger in described integrated heat exchange heat accumulation evaporating pot and vaporizer are coil pipe type or tubular heat exchanger or vaporizer, and tubulation or coil heat exchanger, vaporizer adopt longitudinally in column or parallel mixing combined crosswise pattern of rows and columns of embarking on journey to be arranged in tank body; The intensify heat transfer pipe that the metal tube that tubular heat exchanger or vaporizer use is high temperature resistant stainless steel corrugated tube or bellows or inner helix pipe or outer spiral tube; The metal inner pipe of described line-focusing solar strengthening heat collecting pipe is the circumferential wave pipe joint with forced heat exchanging function; Or external spiral or spiral pipe; Or the regular luxuriant bulk wave joint metal inner pipe raising into bud of metal tube surface; Or at metal inner pipe entrance point internal surface place welding flow disturbance sheet, its function is for promoting that fluid becomes Turbulent Flow, and its principle is different from the metal fin installed additional for increasing heat-conducting area.
Described complementary heating system is combustion gas or oil-fired boiler or electric power heating boiler, and serial or parallel connection is in Photospot solar heat circulating system; Or be solid fuel cell as Solid Oxide Fuel Cell (SOFC) and molten carbonate fuel cell (MCFC) or open type combustion gas Bretton thermal electric generator group, its high-temperature tail gas of discharging, by being arranged on the heat exchange pipeline integrated heat exchange heat accumulation evaporating pot heating concurrent heating in integrated heat exchange heat accumulation evaporating pot, generates electricity to ensure that dynamic power unit is lasting.
This model utility mainly contains following innovative point:
1, slot light collection array can environmentally adopt polynary selectable heat-transfer working medium integrated heat exchange heat accumulation evaporating pot to provide operating mode thermal source.
2, linear focusing strengthening heat collecting pipe has augmentation of heat transfer effect, is suitable for various heat-transfer working medium, can increases substantially light-condensing array photo-thermal conversion efficiency.
3, make full use of integrated heat exchange heat accumulation evaporating pot and realize heat exchange, heat accumulation, evaporation, concurrent heating integration operation.
4, fused salt working medium is in the inner loop of heat accumulation evaporating pot, effectively prevents from solidifying danger, or adopts solid heat-storage medium to improve heat accumulation working temperature, thoroughly eliminates fused salt and solidifies and the hidden danger that gasifies.
5, the integrated heat exchange heat accumulation evaporating pot and the complementary heating system that make full use of optimization extend number when generating electricity, and guarantee uninterrupted power generation.Preferred solid fuel cell and combustion gas Bretton generator set, preferred biological fuel gas, makes full use of the high-temperature residual heat that two kinds of power generating equipments are discharged while meeting efficiency power generation simultaneously, improves the utilization ratio to combustion gas resource further.
6, effective simplified apparatus quantity, significantly reduces solar energy thermal-power-generating device manufacture cost.
7, the metal tube that uses of tubulation or coil heat exchanger or vaporizer is for corrugated tube is also known as bellows or internal spiral metal tube or external spiral metal tube, or the intensify heat transfer pipe such as outer fin metal tube, can effectively improve thermal transition efficiency.
8, complementary heating system is established can to ensure thermal electric generator group stable operation in situation without sunshine in, simultaneously for using other renewable energy sourcess to create favorable conditions; The present invention selects solid fuel cell as Solid Oxide Fuel Cell (SOFC) and molten carbonate fuel cell (MCFC) first, or open type combustion gas Bretton thermal electric generator group is to improve combustion gas utilization ratio and generating efficiency as complementary heat supply means, more effectively meet solar energy thermal-power-generating device heat accumulation needs simultaneously.
9, the present invention is equally applicable to tower, Fresnel, disc type solar energy thermal electric generator.
Accompanying drawing explanation
Fig. 1 is the Rankine cycle of the utility model slot type or ORC heat generating schematic diagram
Fig. 2 is the utility model slot type brayton cycle heat generating schematic diagram
Wherein 1, parabola groove light-condensing array, 2, linear focusing strengthening heat collecting pipe, 3, cross hot vaporizer, 4, integrated heat exchange heat accumulation evaporating pot, 5, pressure pump, 6, modulating valve, 7, power electric generator, 8, condenser, 9, heat exchanger, 10, vaporizer, 11, equalized temperature stirrer, 12, working medium tank, 13, complementary heating system, 14, the overcritical Bretton generator set of enclosed, 15, afterburner
Embodiment
Scheme 1
The parabola groove light-condensing array 1 of option and installment line-focusing solar strengthening heat collecting pipe, this light-condensing array 1 exports the import of connecting integration heat exchange heat accumulation evaporating pot 4 heat exchanger; The import of integrated heat exchange heat accumulation evaporating pot 4 heat exchanging tube outlet Bonding pressure pump 5, pressure pump 5 exports and connects the import of parabola groove light-condensing array 1, forms closed solar energy heat-collecting heat-storage circulation; Integrated heat exchange heat accumulation evaporating pot 4 evaporator outlet connects steam Rankine cycle or organic Rankine bottoming cycle power engine 7 import; Steam Rankine cycle or organic Rankine bottoming cycle power engine 7 export and connect condenser 8 or Air-cooled Unit import, condenser 8 or the import of Air-cooled Unit outlet Bonding pressure pump 5, pressure pump 5 exports connecting integration heat exchange heat accumulation evaporating pot 4 evaporator, forms closed complete thermodynamic cycle; Complementary heating system 13 is with parabola groove light-condensing array 1 or connect or parallel connection.Carry out generating electricity and energy storage when sunshine is sufficient simultaneously, time without sunshine, utilize integrated heat exchange heat accumulation evaporating pot 4 heat accumulation to generate electricity; Or start complementary heating system 13 and generated electricity by other renewable energy sources concurrent heatings.
Scheme 2
The parabola groove light-condensing array 1 of option and installment line-focusing solar strengthening heat collecting pipe, the outlet of this light-condensing array 1 connected hot vaporizer 3 and passed hot side inlet, crossed hot vaporizer 3 heat transfer and brought out a mouthful connecting integration heat exchange heat accumulation evaporating pot 4 heat exchanger import; The import of integrated heat exchange heat accumulation evaporating pot 4 heat exchanger exit Bonding pressure pump 5, pressure pump 5 exports and connects the import of parabola groove light-condensing array 1, forms closed solar energy heat-collecting heat-storage circulation; Crossing hot vaporizer 3 is arranged in integrated heat exchange heat accumulation evaporating pot 4 or outside tank; Cross hot vaporizer 3 vaporizing end import connecting integration heat exchange heat accumulation evaporating pot 4 evaporator outlet, cross hot vaporizer 3 and export connection steam Rankine cycle or organic Rankine bottoming cycle power engine 7 import; Steam Rankine cycle or organic Rankine bottoming cycle power engine 7 export and connect condenser 8 or Air-cooled Unit import, condenser 8 or the import of Air-cooled Unit outlet Bonding pressure pump 5, and pressure pump 5 exports connecting integration heat exchange heat accumulation evaporating pot 4 evaporator; Or cross the import of hot vaporizer 3 outlet connection brayton cycle power engine 14, brayton cycle power engine 14 exports connecting integration heat exchange heat accumulation evaporating pot 4 evaporator; Form closed complete thermodynamic cycle; Complementary heating system 13 is with parabola groove light-condensing array 1 or connect or parallel connection.Carry out generating electricity and energy storage when sunshine is sufficient simultaneously, time without sunshine, utilize integrated heat exchange heat accumulation evaporating pot 4 heat accumulation to generate electricity; Or start complementary heating system 13 and generated electricity by other renewable energy sources concurrent heatings.
Claims (2)
1. in groove type solar high temperature integrated thermal generating device by parabola groove light-condensing array, heat-transfer working medium, cross hot vaporizer, pressure pump, control valve, integrated heat exchange heat accumulation evaporating pot, heat-storage medium, power working medium, dynamic power unit, vaporizer, condenser, Air-cooled Unit, modulating valve, transfer line, complementary heating system, light-condensing array clustered control and hot power-generating control system composition, it is characterized in that: the parabola groove light-condensing array of option and installment line-focusing solar strengthening heat collecting pipe, the import of this light-condensing array outlet connecting integration heat exchange heat accumulation evaporating pot heat exchanger, the pump inlet of integrated heat exchange heat accumulation evaporating pot heat exchanger exit Bonding pressure, the import of pressure pump outlet connecting sockets formula light-condensing array, forms closed solar energy heat-collecting heat-storage circulation, integrated heat exchange heat accumulation evaporating pot evaporator outlet connects steam Rankine cycle or the import of organic Rankine bottoming cycle power engine, steam Rankine cycle or the outlet of organic Rankine bottoming cycle power engine connect condenser, the pump inlet of condenser Bonding pressure, pressure pump outlet connecting integration heat exchange heat accumulation evaporating pot evaporator, or integrated heat exchange heat accumulation evaporating pot evaporator outlet connects the import of brayton cycle power engine, brayton cycle power engine outlet connecting integration heat exchange heat accumulation evaporating pot evaporator, forms closed complete thermodynamic cycle, complementary heating system is with parabola groove light-condensing array or connect or parallel connection, carry out generating electricity and energy storage when sunshine is sufficient, time without sunshine, utilize integrated heat exchange heat accumulation evaporating pot heat accumulation to generate electricity, or start complementary heating system and generated electricity by other renewable energy sources concurrent heatings, or the outlet of parabola groove light-condensing array connects the import of overheated evaporator heat transfer end, and overheated evaporator heat transfer brings out a mouthful connecting integration heat exchange heat accumulation evaporating pot heat exchanger import, when selecting water vapour to make heat-transfer working medium, integrated heat exchange heat accumulation evaporating pot heat exchanger exit connects condenser, the pump inlet of condensator outlet Bonding pressure, when selecting the heat-transfer working medium of other type, can not condenser be set, then integrated heat exchange heat accumulation evaporating pot heat exchanging tube outlet Bonding pressure pump inlet, the import of pressure pump outlet connecting sockets formula light-condensing array, forms closed solar energy heat-collecting heat-storage circulation, crossing hot vaporizer is arranged in integrated heat exchange heat accumulation evaporating pot or outside tank, overheated evaporator evaporation end import connecting integration heat exchange heat accumulation evaporating pot evaporator outlet, overheated evaporator outlet connects steam Rankine cycle or the import of organic Rankine bottoming cycle power engine, steam Rankine cycle or the outlet of organic Rankine bottoming cycle power engine connect condenser, the pump inlet of condenser Bonding pressure, pressure pump outlet connecting integration heat exchange heat accumulation evaporating pot evaporator, or overheated evaporator outlet connects the import of brayton cycle power engine, brayton cycle power engine outlet connecting integration heat exchange heat accumulation evaporating pot evaporator, forms closed complete thermodynamic cycle, complementary heating system is with parabola groove light-condensing array or connect or parallel connection, carries out generating electricity and energy storage simultaneously, utilize integrated heat exchange heat accumulation evaporating pot heat accumulation to generate electricity time without sunshine when sunshine is sufficient, or start solid fuel cell such as Solid Oxide Fuel Cell (SOFC) and molten carbonate fuel cell (MCFC) or open type combustion gas Bretton thermal electric generator group and generate electricity and concurrent heating,
1) described integrated heat exchange heat accumulation evaporating pot is the tun of splendid attire liquid phase-change heat-storage medium, or is provided with the large-sized solid heat vessel of heat transfer heat exchange evaporation tubes, or deposits the tun of liquid phase-change and solid sensible heat heat-storage medium simultaneously; The rounded tank body of described integrated heat exchange heat accumulation evaporating pot, or rectangular tank body; Described integrated heat exchange heat accumulation evaporating pot arranges heat exchanger inlet and outlet and evaporator inlet-outlet;
2) heat transfer pipe of described complementary heating system and import and export are arranged in the tank body of integrated heat exchange heat accumulation evaporating pot, and heat exchange pipeline adopts metal or ceramic material; Heat accumulation material inlet, pressure regulator valve, pressure and temperature sensor are set simultaneously, or equalized temperature stirring apparatus, or serial or parallel connection is imported and exported in the heat transfer pipe of complementary heating system and the heat exchange of integrated heat exchange heat accumulation evaporating pot, or electric power heating boiler is arranged in integrated heat exchange heat accumulation evaporating pot, integrated heat exchange heat accumulation evaporating pot is become integrate solar heat-exchange, heat accumulation, concurrent heating, the multifunction storage thermal of evaporating;
3) heat exchanger in described integrated heat exchange heat accumulation evaporating pot and vaporizer are coil pipe type or tubular heat exchanger or vaporizer, and tubulation or coil heat exchanger, vaporizer adopt longitudinally in column or parallel mixing combined crosswise pattern of rows and columns of embarking on journey to be arranged in tank body; The intensify heat transfer pipe that the metal tube that tubular heat exchanger or vaporizer use is high temperature resistant stainless steel corrugated tube or bellows or inner helix pipe or outer spiral tube;
4) metal inner pipe of described line-focusing solar strengthening heat collecting pipe has the circumferential wave pipe joint of forced heat exchanging function or external spiral or spiral pipe or the regular luxuriant bulk wave joint metal inner pipe raising into bud of metal tube surface; Or at metal inner pipe entrance point place internal surface welding flow disturbance sheet;
5) described complementary heating system is combustion gas or oil-fired boiler or electric power heating boiler, and serial or parallel connection is in Photospot solar heat circulating system; Or select solid fuel cell as Solid Oxide Fuel Cell (SOFC) and molten carbonate fuel cell (MCFC) or open type combustion gas Bretton thermal electric generator group, its high-temperature tail gas of discharging heats concurrent heating by the heat exchange pipeline integrated heat exchange heat accumulation evaporating pot be arranged in integrated heat exchange heat accumulation evaporating pot.
2. high temperature integrated thermal generating device in groove type solar according to claim 1, is characterized in that: described parabola groove light-condensing array can select tower or Fresnel or dish-style light-condensing array to substitute.
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105605956A (en) * | 2016-02-26 | 2016-05-25 | 北京工业大学 | High-temperature air and fused salt efficient heat storage system |
CN105715470A (en) * | 2016-03-16 | 2016-06-29 | 碧海舟(北京)节能环保装备有限公司 | Natural gas pressure regulation station and solar comprehensive power generation system |
CN105888995A (en) * | 2015-01-23 | 2016-08-24 | 张建城 | Trough type solar moderate and high temperature integrated heat power generation device |
CN113153675A (en) * | 2020-01-22 | 2021-07-23 | 电力规划总院有限公司 | Power generation system |
-
2015
- 2015-01-23 CN CN201520046219.5U patent/CN204532724U/en not_active Withdrawn - After Issue
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105888995A (en) * | 2015-01-23 | 2016-08-24 | 张建城 | Trough type solar moderate and high temperature integrated heat power generation device |
CN105888995B (en) * | 2015-01-23 | 2019-02-15 | 张建城 | Groove type solar high temperature integrated thermal generating device |
CN105605956A (en) * | 2016-02-26 | 2016-05-25 | 北京工业大学 | High-temperature air and fused salt efficient heat storage system |
CN105715470A (en) * | 2016-03-16 | 2016-06-29 | 碧海舟(北京)节能环保装备有限公司 | Natural gas pressure regulation station and solar comprehensive power generation system |
CN113153675A (en) * | 2020-01-22 | 2021-07-23 | 电力规划总院有限公司 | Power generation system |
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Granted publication date: 20150805 Effective date of abandoning: 20190215 |