CN201448131U - Solar thermal power generation device considering residual heat utilization - Google Patents

Solar thermal power generation device considering residual heat utilization Download PDF

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Publication number
CN201448131U
CN201448131U CN2009200332798U CN200920033279U CN201448131U CN 201448131 U CN201448131 U CN 201448131U CN 2009200332798 U CN2009200332798 U CN 2009200332798U CN 200920033279 U CN200920033279 U CN 200920033279U CN 201448131 U CN201448131 U CN 201448131U
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China
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heat
outlet
steam generator
solar
boiler
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Expired - Lifetime
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CN2009200332798U
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Chinese (zh)
Inventor
程代京
屈杰
王贤钢
顾罡
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Xian Jiaotong University
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Xian Jiaotong University
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Priority to CN2009200332798U priority Critical patent/CN201448131U/en
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/40Solar thermal energy, e.g. solar towers
    • Y02E10/46Conversion of thermal power into mechanical power, e.g. Rankine, Stirling or solar thermal engines

Abstract

A solar thermal power generation device considering residual heat utilization comprises a heat conducting oil circulating loop which uses heat conducting oil as working substance and a water circulating loop which uses water as working substance, wherein the heat conducting oil circulating loop comprises a solar heat collector, a residual heat boiler, a reheater and a steam generator whose pipelines are filled with heat conducting oil and which are connected in turn, wherein the solar heat collector comprises a plurality of groove-shaped paraboloid light gathering heat collectors which are connected in series or in parallel, and the solar heat collector, the residual heat boiler and the steam generator are connected in parallel through a pipeline to form a closed loop. The water circulating loop comprises a turbine provided with a generator, and the turbine is connected with a condensator, a low pressure heater, a deaerator, a high pressure heater and the steam generator through a pipeline in turn. The solar thermal power generation device adopts a double-circulating loop which utilizes heat conducting oil and water as working substances, heat conducting oil absorbs heat in the heat collector and the residual heat boiler, temperature rise is high, heat is transmitted to water in the steam generator, overheated stem enters the condensator to be condensed into water after entering the turbine and doing work, and the turbine drives a generator to generate power.

Description

Consider the solar-powered thermal generating set of UTILIZATION OF VESIDUAL HEAT IN
Technical field
The utility model is a kind of big capacity trough type solar power generation device, belongs to solar electrical energy generation, relates to a kind of solar-powered thermal generating set that utilizes industrial exhaust heat.
Background technique
Solar energy is inexhaustible, might replace conventional fossil energy with it.Solar-powered thermal generating set does not consume fossil energy, and non-pollutant discharge can combine with the industrial exhaust heat utilization, is a kind of energy source electric generating device of ten minutes cleaning.
The mode of solar thermal power generation have three kinds 1. tower: efficient height, but disposable having high input; 2. slot type: cost is low, but tower relatively and dish formula efficient is low; 3. dish formula: but the unit standardized production, but scale is difficult to do greatly.From the world wide development, tower and dish formula still is in research, exploitation, demonstration phase, and slot type has been ripe commercialization technology
The device of solar generating of current China is mainly based on the photovoltaic power generation apparatus of solar energy.The initial investment of solar energy photovoltaic generator is huge, photoelectric transformation efficiency is low, generating costs an arm and a leg, and make its application be restricted, and present solar energy photovoltaic generator all can not utilize industrial exhaust heat.
Solar thermal power generation is the important directions that solar energy utilizes, might cause the revolution of energy aspect, be one of the most economic means that realize high-power generating, alternative conventional energy resource, solar-powered thermal generating set obtains large-scale commercial the application abroad already.Compare with solar energy power generating and to have low, the sweeping characteristics of cost of electricity-generating, significant to the exploitation of renewable energy sources.
Summary of the invention
The purpose of this utility model be to provide a kind of with industrial exhaust heat as the auxiliary thermal source of trough type solar power generation device, utilize the solar-powered thermal generating set of industrial exhaust heat on a large scale.
For achieving the above object, the technical solution adopted in the utility model is: comprise with the conduction oil being the conduction oil circulation loop of working medium and being the water-flow circuit of working medium with water, said conduction oil circulation loop comprises solar thermal collector, exhaust heat boiler, reheater and the steam generator that is filled with conduction oil in the pipeline and links to each other successively, wherein solar thermal collector is made up of through serial or parallel connection a plurality of grooved parabolic concentrator heat collectors, and solar thermal collector, exhaust heat boiler, steam generator are connected in parallel by pipeline and constitute the closed-loop path; Said water-flow circuit is to comprise the steam turbine that has generator, and steam turbine links to each other with vapour condenser, low-pressure heater, oxygen-eliminating device, high-pressure heater, steam generator successively by pipeline.
On the outlet conduit of solar thermal collector of the present utility model valve is set, the pipeline that connects exhaust heat boiler and steam generator also is respectively arranged with exhaust heat boiler conduction oil outlet valve and steam generator heat conductive oil inlet valve, and the pipeline between exhaust heat boiler conduction oil outlet valve and steam generator heat conductive oil inlet valve also is parallel with regulating tank and the heat reservoir that is connected with steam generator 4, advancing of regulating tank and heat reservoir, also being provided with regulating tank on the outlet conduit advances, outlet valve, the heat reservoir terminal valve, reheater also is provided with the heat conductive oil inlet regulating valve simultaneously; The outlet conduit of steam generator that is connected with solar thermal collector and reheater 20 and exhaust heat boiler 1 is respectively arranged with expander, exhaust heat boiler oil pump, exhaust heat boiler heat conductive oil inlet valve and solar thermal collector oil pump, another outlet of said regulating tank is connected on the pipeline between exhaust heat boiler oil pump and the exhaust heat boiler heat conductive oil inlet valve by being communicated with valve; After converging, outlet conduit behind the valve of high temperature heat conductive oil pipeline and regulating tank and heat reservoir is divided into the two-way pipeline, one road pipeline is connected with the steam generator heat conductive oil inlet, another road is connected with the reheater heat conductive oil inlet, reheater conduction oil outlet conduit is introduced steam generator, and the outlet of steam generator conduction oil is communicated with expander; The two ends of exhaust heat boiler conduction oil outlet valve also are parallel with donkey boiler, the conduction oil inlet and the outlet of donkey boiler are respectively arranged with donkey boiler conduction oil inlet valve and the donkey boiler conduction oil outlet valve that is connected with the heat boiler outlet pipeline, and donkey boiler also is connected with the industrial hot gas and the exhaust heat boiler industry hot air intake of outside by industrial hot gas valve; Be penetrated with industrial hot gas line in the exhaust heat boiler and discharge through induced draught fan; Steam turbine comprises steam turbine high-pressure cylinder and turbine low pressure cylinder, and the steam turbine high-pressure cylinder outlet is connected with the reheater steam inlet, the reheater steam (vapor) outlet is connected with the turbine low pressure cylinder import, the turbine low pressure cylinder outlet is connected with vapour condenser by pipeline, the outlet of vapour condenser is connected with the inlet of low-pressure heater by condensate pump, the hydrophobic of low-pressure heater links to each other with vapour condenser by pipeline, another outlet of low-pressure heater is connected with oxygen-eliminating device, the outlet of oxygen-eliminating device links to each other with high-pressure heater by feed water pump, the hydrophobic outlet of high-pressure heater links to each other with oxygen-eliminating device, another outlet is connected with the steam generator water inlet, and the steam generator steam (vapor) outlet is connected with steam turbine high-pressure cylinder HT import; Also be connected with the Water Treatment device on the vapour condenser.
It is the double circulation loop of working medium that the utility model adopts with conduction oil and water: by a plurality of grooved parabolic concentrator heat collectors process strings, the solar thermal collector that rearranges in parallel, gather sunlight, form the heat energy of higher temperature, conduction oil absorbs the heat temperature and raises in heat collector and exhaust heat boiler, the high temperature heat conductive oil part is directly introduced in the steam generator heat transfer is fed water, finally also be introduced into steam generator and water heat exchange behind the exhaust steam of another part high temperature heat conductive oil elder generation introducing reheater heating steam turbine high-pressure cylinder, the conduction oil of process heat exchange is introduced solar thermal collector and exhaust heat boiler formation conduction oil circulation loop respectively by oil pump after entering expander step-down cooling; Saturation water absorbs high temperature heat conductive oil in steam generator heat becomes superheated vapor, superheated vapor is introduced into reheater heat again after being introduced into the steam turbine high-pressure cylinder acting, enter through the high-temperature steam of heat again and to enter vapour condenser after the turbine low pressure cylinder acting and be condensed into cold water, steam turbine drives generator for electricity generation, after cold water enters low-pressure heater and oxygen-eliminating device successively by condensate pump, send into high-pressure heater after the water pressurization that feed water pump comes out oxygen-eliminating device and further absorb heat and become saturation water, this has just constituted the water cycle major loop.High-pressure heater, low-pressure heater do thermal source with drawing gas of steam turbine different parts, hydrophobic step by step the gravity flow, the hydrophobic oxygen-eliminating device that enters of high-pressure heater, the hydrophobic vapour condenser that enters of low-pressure heater.Also increased in the conduction oil loop and reconciled jar and heat reservoir, be used for regulating the circulating load of conduction oil and storing high temperature heat conductive oil, after industrial exhaust heat gas is admitted to residual heat boiler for exchanging heat, be discharged in the atmosphere by induced draught fan; Conduction oil is heated by auxiliary fuel in donkey boiler under special circumstances, and flue gas is introduced into exhaust heat boiler.Industry steam more than needed can be mended in place into steam turbine, and exhaust steam enters vapour condenser and condenses.Under the special operation condition, steam can partly even all be introduced vapour condenser by bypath system and condense.Chemical water treatment system can be at vapour condenser place supplementary feed.
Description of drawings
Fig. 1 is an overall structure schematic representation of the present utility model.
Embodiment
Below in conjunction with accompanying drawing the utility model is described in further detail.
Referring to Fig. 1, the utility model comprises with the conduction oil to be the conduction oil circulation loop of working medium and to be the water-flow circuit of working medium with water, said conduction oil circulation loop comprises solar thermal collector 1, exhaust heat boiler 2 and the steam generator 4 that is filled with conduction oil in the pipeline, wherein solar thermal collector 1 is made up of through serial or parallel connection a plurality of grooved parabolic concentrator heat collectors, and the pipeline of solar thermal collector 1 constitutes the closed-loop path with exhaust heat boiler that is connected in parallel 2 and steam generator 4; The outlet conduit of solar thermal collector 1 is provided with solar energy outlet valve F1, the inlet pipe of exhaust heat boiler 2 and steam generator 4 also is respectively arranged with heat boiler outlet valve F6 and the steam generator inlet valve F4 that is connected with solar energy outlet valve F1, and the pipeline between heat boiler outlet valve F6 and steam generator inlet valve F4 also is parallel with regulating tank 18 and the heat reservoir 3 that is connected with steam generator 4, regulating tank 18 and heat reservoir 3 advance, also being provided with regulating tank on the outlet conduit advances, outlet valve F2, F10, heat reservoir terminal valve F3, F9; The steam generator 4 that is connected with solar thermal collector 1 and the inlet pipeline of exhaust heat boiler 2 are respectively arranged with expander 13, exhaust heat boiler oil pump 14, exhaust heat boiler inlet valve F12 and solar thermal collector oil pump 15; After converging, the valve F10 of high temperature heat conductive oil pipeline and regulating tank 18 and heat reservoir 3 and the outlet conduit behind the F9 be divided into the two-way pipeline, one road pipeline is connected with steam generator 4 heat conductive oil inlets, another road is connected with reheater 20 heat conductive oil inlets, reheater 20 conduction oil outlet conduits are introduced steam generator 4, and the outlet of steam generator 4 conduction oils is communicated with expander 13; Another outlet of said regulating tank 18 is connected on the pipeline between exhaust heat boiler oil pump 14 and the exhaust heat boiler inlet valve F12 by being communicated with valve F11; The two ends of exhaust heat boiler 2 outlet valve F6 also are parallel with donkey boiler 17, the conduction oil outlet and the inlet of donkey boiler 17 are respectively arranged with donkey boiler conduction oil outlet valve F5 and the donkey boiler inlet valve F8 that is connected with exhaust heat boiler 2 outlet conduits, and donkey boiler 17 also is connected with the industrial hot gas and the exhaust heat boiler 2 of outside by industrial hot gas valve F7; Industry hot gas passes through exhaust heat boiler 2 after induced draught fan 16 is discharged.
Said water-flow circuit is to comprise the steam turbine 5 that has generator 6, and steam turbine 5 links to each other with vapour condenser 7, low-pressure heater 9, oxygen-eliminating device 11, high-pressure heater 12, steam generator 4 respectively by pipeline.Steam turbine 5 comprises high-pressure cylinder HT and low pressure (LP) cylinder LT, and steam turbine 5 also be provided with reheater 20 and with low-pressure heater 9, the outlet that oxygen-eliminating device 11 and high-pressure heater 12 are connected, wherein high-pressure cylinder HT outlet is connected with reheater 20 steam inlets, reheater 20 steam (vapor) outlets are connected with low pressure (LP) cylinder LT import, low pressure (LP) cylinder LT outlet is connected with vapour condenser 7 by pipeline, the outlet of vapour condenser 7 is connected by the inlet of condensate pump 8 with low-pressure heater 9, the hydrophobic of low-pressure heater 9 links to each other with vapour condenser 7 by pipeline, another outlet of low-pressure heater 9 is connected with oxygen-eliminating device 11, the outlet of oxygen-eliminating device 11 links to each other with high-pressure heater 12 by feed water pump 10, the hydrophobic outlet of high-pressure heater 12 links to each other with oxygen-eliminating device 11, another outlet is connected with steam generator 4 water inlets, the by-pass line valve F14 that steam generator 4 steam (vapor) outlets and steam turbine 5 high-pressure cylinder HT imports are connected and are respectively arranged with steam turbine inlet valve F13 and are communicated with vapour condenser on the inlet pipe of steam turbine 5 and vapour condenser 7, also be connected with Water Treatment device 19 on the vapour condenser 7, steam turbine 5 also is provided with respectively and low-pressure heater 9, the outlet that oxygen-eliminating device 11 and high-pressure heater 12 are connected, the outlet of vapour condenser 7 is connected by the inlet of condensate pump 8 with low-pressure heater 9, the hydrophobic of low-pressure heater 9 links to each other with vapour condenser 7 through pipeline, another outlet of low-pressure heater 9 is connected with oxygen-eliminating device 11, the outlet of oxygen-eliminating device 11 links to each other with high-pressure heater 12 by feed water pump 10, an outlet of high-pressure heater 12 links to each other with oxygen-eliminating device 11, and another outlet links to each other with water circulating pipe in the steam generator 4.The bypass duct that steam turbine 5 also is provided with by-pass valve F14 and leads to vapour condenser 7, vapour condenser 7 is communicated with Water Treatment device 19.
Mode of execution 1: valve F6 standard-sized sheet, valve F5, F8 closes, conduction oil absorbs heat simultaneously earlier in solar thermal collector 1 and exhaust heat boiler 2, high temperature heat conductive oil is divided into two-way, one road high temperature heat conductive oil is emitted heat and is introduced expander 13 in steam generator 4, another road high temperature heat conductive oil is drawn steam generator 4 earlier after 20 kinds in reheater is emitted heat continues to introduce expander 13 after the heat release, conduction oil is sent into exhaust heat boiler 2 and solar thermal collector 1 respectively after pressing through exhaust heat boiler oil pump 14 and solar thermal collector oil pump 15 after the step-down in expander 13, constitute the conduction oil circulation loop.
Heat reservoir 3 can store and discharge high temperature heat conductive oil, and regulating tank 18 storages and release low temperature conduction oil and storage, release portion high temperature heat conductive oil are to regulate the circulating load of conduction oil.When needed, the high temperature heat conductive oil release with storage in heat reservoir 3 and the regulating tank 18 guarantees that generator set moves continuously.
The superheated vapor of drawing from steam generator 4 is introduced into reheater heat again after entering turbine 5 high-pressure cylinder HT acting, reheated steam enters steam turbine 5 low pressure (LP) cylinder LT acting, exhaust steam enters vapour condenser 7 from steam turbine 5 low pressure (LP) cylinder LT, water of condensation is through low-pressure heater 9, oxygen-eliminating device 10, high-pressure heater 11 becomes saturation water, saturation water becomes superheated vapor in steam generator 4 heat absorptions, superheated vapor enters steam turbine 5 actings, industry steam more than needed can be mended high-pressure cylinder HT or the low pressure (LP) cylinder LT into steam turbine 5 in position, steam turbine drives generator 6 generatings. in emergency circumstances, and vapor portion or all enter vapour condenser 7. by bypath system
Mode of execution 2: what mode of execution 1 was different is, valve F6 full cut-off, and valve F5, F8 standard-sized sheet, conduction oil absorb in the heat in solar thermal collector 1, exhaust heat boiler 2 and donkey boiler 17 simultaneously and absorb heat.
Mode of execution 3
Different with mode of execution 1 is valve F6, F5, F8 full cut-off, only heat absorption in solar thermal collector 1 of conduction oil.
Mode of execution 4
Different with mode of execution 1 is, valve F1, F6, F12 full cut-off, and valve F5, F8 standard-sized sheet, conduction oil absorbs heat simultaneously in exhaust heat boiler 2 and donkey boiler 17.
Mode of execution 5
Different with mode of execution 4 is, valve F1, F5, F8, F12 full cut-off, and valve F6 standard-sized sheet, conduction oil only absorbs heat in exhaust heat boiler 2.

Claims (8)

1. solar-powered thermal generating set of considering UTILIZATION OF VESIDUAL HEAT IN, it is characterized in that: comprise with the conduction oil being the conduction oil circulation loop of working medium and being the water-flow circuit of working medium with water, said conduction oil circulation loop comprises the solar thermal collector (1) that is filled with conduction oil in the pipeline and links to each other successively, exhaust heat boiler (2), reheater (20) and steam generator (4), wherein solar thermal collector (1) is formed solar thermal collector (1) by a plurality of grooved parabolic concentrator heat collectors through serial or parallel connection, exhaust heat boiler (2), steam generator (4) is connected in parallel by pipeline and constitutes the closed-loop path; Said water-flow circuit is to comprise the steam turbine (5) that has generator (6), and steam turbine (5) links to each other with vapour condenser (7), low-pressure heater (9), oxygen-eliminating device (11), high-pressure heater (12), steam generator (4) successively by pipeline.
2. the solar-powered thermal generating set of consideration UTILIZATION OF VESIDUAL HEAT IN according to claim 1, it is characterized in that: valve (F1) is set on the outlet conduit of said solar thermal collector (1), the pipeline that connects exhaust heat boiler (2) and steam generator (4) also is respectively arranged with exhaust heat boiler (2) conduction oil outlet valve (F6) and steam generator heat conductive oil inlet valve (F4), and the pipeline between exhaust heat boiler conduction oil outlet valve (F6) and steam generator heat conductive oil inlet valve (F4) also is parallel with regulating tank (18) and the heat reservoir (3) that is connected with steam generator (4), advancing of regulating tank (18) and heat reservoir (3), also being provided with regulating tank (18) on the outlet conduit advances, outlet valve (F2, F10), heat reservoir (3) terminal valve (F3, F9), reheater (20) also is provided with heat conductive oil inlet regulating valve (F15) simultaneously.
3. the solar-powered thermal generating set of consideration UTILIZATION OF VESIDUAL HEAT IN according to claim 2, it is characterized in that: the outlet conduit of the said steam generator (4) that is connected with solar thermal collector (1) and reheater (20) and exhaust heat boiler (1) is respectively arranged with expander (13), exhaust heat boiler oil pump (14), exhaust heat boiler heat conductive oil inlet valve (F12) and solar thermal collector oil pump (15), another outlet of said regulating tank (18) is connected on the pipeline between exhaust heat boiler oil pump (14) and the exhaust heat boiler heat conductive oil inlet valve (F12) by connection valve (F11).
4. the solar-powered thermal generating set of consideration UTILIZATION OF VESIDUAL HEAT IN according to claim 2, it is characterized in that: the valve (F10) of high temperature heat conductive oil pipeline and regulating tank (18) and heat reservoir (3) and (F9) after outlet conduit be divided into the two-way pipeline after converging, one road pipeline is connected with steam generator (4) heat conductive oil inlet, another road is connected with reheater (20) heat conductive oil inlet, reheater (20) conduction oil outlet conduit is introduced steam generator (4), and the outlet of steam generator (4) conduction oil is communicated with expander (13).
5. the solar-powered thermal generating set of consideration UTILIZATION OF VESIDUAL HEAT IN according to claim 1, it is characterized in that: the two ends of said exhaust heat boiler (2) conduction oil outlet valve (F6) also are parallel with donkey boiler (17), the conduction oil inlet and the outlet of donkey boiler (17) are respectively arranged with donkey boiler (17) conduction oil inlet valve (F8) and donkey boiler (17) the conduction oil outlet valve (F5) that is connected with exhaust heat boiler (2) outlet conduit, and donkey boiler (17) also is connected by the industrial hot gas and the industrial hot air intake of exhaust heat boiler (2) of industrial hot gas valve (F7) with the outside.
6. the solar-powered thermal generating set of consideration UTILIZATION OF VESIDUAL HEAT IN according to claim 1 is characterized in that: be penetrated with industrial hot gas line in the said exhaust heat boiler 2 and discharge through induced draught fan 16.
7. the solar-powered thermal generating set of consideration UTILIZATION OF VESIDUAL HEAT IN according to claim 1, it is characterized in that: said steam turbine (5) comprises steam turbine high-pressure cylinder (HT) and turbine low pressure cylinder (LT), and steam turbine (5) high-pressure cylinder HT outlet is connected with reheater (20) steam inlet, reheater 20 steam (vapor) outlets are connected with steam turbine (5) low pressure (LP) cylinder (LT) import, steam turbine (5) low pressure (LP) cylinder LT outlet is connected with vapour condenser (7) by pipeline, the outlet of vapour condenser (7) is connected by the inlet of condensate pump (8) with low-pressure heater (9), the hydrophobic of low-pressure heater (9) links to each other with vapour condenser (7) by pipeline, another outlet of low-pressure heater (9) is connected with oxygen-eliminating device (11), the outlet of oxygen-eliminating device (11) links to each other with high-pressure heater (12) by feed water pump (10), the hydrophobic outlet of high-pressure heater (12) links to each other with oxygen-eliminating device (11), another outlet is connected with steam generator (4) water inlet, and steam generator 4 steam (vapor) outlets are connected with steam turbine (5) high-pressure cylinder HT import.
8. the solar-powered thermal generating set of consideration UTILIZATION OF VESIDUAL HEAT IN according to claim 1 is characterized in that: also be connected with Water Treatment device (19) on the said vapour condenser (7).
CN2009200332798U 2009-05-22 2009-05-22 Solar thermal power generation device considering residual heat utilization Expired - Lifetime CN201448131U (en)

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102080636A (en) * 2010-12-08 2011-06-01 南京凯盛开能环保能源有限公司 Solar and industrial waste heat cogeneration system
CN102678489A (en) * 2011-03-14 2012-09-19 中国科学院工程热物理研究所 Parabolic trough type solar thermal power generation system
CN103375369A (en) * 2012-04-28 2013-10-30 杭州三花研究院有限公司 Power generation system of solar aided coal-fired power plant
CN105089954A (en) * 2015-08-16 2015-11-25 江翠珍 Solar energy and thermal power composite generator unit

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102080636A (en) * 2010-12-08 2011-06-01 南京凯盛开能环保能源有限公司 Solar and industrial waste heat cogeneration system
CN102080636B (en) * 2010-12-08 2012-10-31 南京凯盛开能环保能源有限公司 Solar and industrial waste heat cogeneration system
CN102678489A (en) * 2011-03-14 2012-09-19 中国科学院工程热物理研究所 Parabolic trough type solar thermal power generation system
CN103375369A (en) * 2012-04-28 2013-10-30 杭州三花研究院有限公司 Power generation system of solar aided coal-fired power plant
CN103375369B (en) * 2012-04-28 2017-02-08 杭州三花研究院有限公司 Power generation system of solar aided coal-fired power plant
CN105089954A (en) * 2015-08-16 2015-11-25 江翠珍 Solar energy and thermal power composite generator unit
CN105089954B (en) * 2015-08-16 2018-10-16 浙江欧托电气有限公司 A kind of solar energy and thermoelectricity compound power-generating unit

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Granted publication date: 20100505

Effective date of abandoning: 20090522