CN106499599A - A kind of non-afterburning compressed air electricity generation system of photo-thermal combined type - Google Patents

Abstract

The present invention relates to compressed-air energy storage field, discloses a kind of non-afterburning compressed air electricity generation system of photo-thermal combined type, including：Solar energy hot cell, gas storage unit and high rate turbine generator unit；Solar energy hot cell includes low-temperature reservoir tank, high temperature oil storage tank, heat-conducting medium, pump, groove type heat collector, heater and oil gas heat exchanger.The non-afterburning compressed air electricity generation system of photo-thermal combined type that the present invention is provided, adopt solar groove type heat collector and heater to provide high temperature heat source for pressure-air, avoid compensation combustion type compressed air energy storage technology is present in prior art high cost, the problem for having carbon emission, relying on natural gas, the pollution to environment is reduced, cost is saved.In addition, while using solar energy heat-storage, can also heat to heat-conducting medium by heater, and then the heating to pressure-air is realized by oil gas heat exchanger, both improve system and released energy efficiency, stable operation of the system under different operating modes can be met again.

Description

A kind of non-afterburning compressed air electricity generation system of photo-thermal combined type

Technical field

The present invention relates to compressed-air energy storage field, the non-afterburning compressed air of more particularly to a kind of photo-thermal combined type generates electricity System.

Background technology

With increasingly sharpening for environmental problem and flourishing for renewable energy power generation, regenerative resource how is tackled such as Fluctuation and uncertainty that wind-powered electricity generation, photo-voltaic power supply are produced, become the outstanding problem of current electric power industry development.Energy storage technology is Solve this very corn of a subject technology.

Existing energy storage mode mainly has：Water-storage and Caes.Water-storage is to realize extensive energy storage Major way, in international energy storage market, shared installed capacity is maximum, but due to its power station build a station to geology, manage bar Part, water source etc. require that harshness, power station are built a station, and therefore compressed-air energy storage starts to be widely studied.Compressed air is stored up The operation principle of energy electricity generation system is similar with water-storage, and when the electricity consumption of power system is at a low ebb, system stored energy is utilized Electricity more than needed in system, driven compressor air compressor in the form of compressed air are stored in energy with compressed air In air storage chamber；When power system power load peaks generated energy deficiency, system releases energy, and air storage chamber is by gas storage space Compressed air is discharged, and drives electrical power generators, completes the electricity transformation of energy of electric energy air potential energy.Compressed-air energy storage To geographical and geological conditions without particular/special requirement, cavern, barren beach, abandoned mine, or even seabeach, seabed can, gas storage can be adopted With the buried underground of pipe line steel, hardly land occupation, it would however also be possible to employ the high pressure storage tank of steel is empty as the storage of gases at high pressure Between；Energy storage is carried out as working medium, air-breathing and exhaust all in ambient air using the air of nature, will not bring pollution and life State problem, is that one kind really is able to realize the eco-friendly energy storage mode of zero-emission.

In prior art, in order to improve the conversion ratio of electric energy, compressed-air energy-storage system also includes interstage cooler, natural Gas combustion-compensating device and heat-storing device, in thermal energy storage process, air is carried out multi-stage compression, the compression that compressed gas are produced by compressor Heat after cascade EDFA is stored in normal temperature compressed air in air storage chamber；During system releases energy, compressed air is entered Natural gas afterburning chamber, the heated rear compressed air for forming HTHP enter steam turbine and drive electrical power generators.Prior art There is a problem of that high cost, heat accumulation effect are poor, carbon emission pollution environment is produced using natural gas afterburning.

Content of the invention

(1) technical problem to be solved

It is an object of the invention to provide a kind of non-afterburning compressed air electricity generation system of photo-thermal combined type, to solve existing afterburning High cost present in formula compressed air energy storage technology, the problem for having carbon emission, relying on natural gas.

(2) technical scheme

In order to solve above-mentioned technical problem, the present invention provides a kind of photo-thermal combined type non-afterburning compressed air electricity generation system, Including：Solar energy hot cell, gas storage unit and high rate turbine generator unit；

The solar energy hot cell include low-temperature reservoir tank, high temperature oil storage tank, heat-conducting medium, pump, groove type heat collector, plus Hot device and oil gas heat exchanger；It is connected between the output end of the low-temperature reservoir tank and the groove type heat collector input described Pump, for the heat-conducting medium is pumped in the groove type heat collector from the low-temperature reservoir tank, the groove type heat collector profit With heat-conducting medium described in solar energy heating；Connect between the input of the output end of the groove type heat collector and the high temperature oil storage tank Connect connection oil gas heat exchanger between the output end of heater, the input of the low-temperature reservoir tank and the high temperature oil storage tank；Institute The liquid passage inlet for stating oil gas heat exchanger connects the output end of the gas storage unit, for heating the high pressure of the gas storage unit output Air, the pressure-air after heating are input into the high rate turbine generator unit and are generated electricity.

Wherein, the gas storage unit includes motor, air compressor and air storage chamber；The air compressor is by described Motor-driven, the output end of the air compressor connect the import of the air storage chamber.

Wherein, the inlet and outlet of the air storage chamber is respectively provided with control valve, for control input and output air storage chamber The flow of gas.

Wherein, the air compressor adopts two-stage compression, every grade of compression outlet to be equipped with cooler, for cooling down compression Gas afterwards.

Wherein, the high rate turbine generator unit includes air expansion turbine, high-speed power generation unit and electronic power conversion Device, the electronic power convertor are used for the conversion that high-frequency alternating current is realized AC-DC-exchange.

Wherein, the high rate turbine generator unit includes control device.

Wherein, the high rate turbine generator unit includes electronic power convertor control device, the electronic power conversion Device control device according to turbine under different operating modes rotating speed adjusting control parameter, for ensureing the electric energy matter exported after frequency conversion Amount.

Wherein, nitrogen protection device is equipped with the low temperature heat conduction oil tank and the high-temperature heat-conductive oil tank.

Wherein, the low temperature heat conduction oil tank and the high-temperature heat-conductive oil tank appearance are surrounded by insulation material.

(3) beneficial effect

The non-afterburning compressed air electricity generation system of photo-thermal combined type that the present invention is provided, by adopting solar groove type heat collector To provide high temperature heat source for pressure-air with heater, it is to avoid in prior art, compensation combustion type compressed air energy storage technology is present High cost, the problem for having carbon emission, relying on natural gas, reduce the pollution to environment, save cost.In addition, by simultaneously Groove type heat collector and heater are set so that while using solar energy heat-storage, also heat-conducting medium can be entered by heater Row heating, and then heating to pressure-air is realized by oil gas heat exchanger, both improve system release can efficiency, can meet again and be Stable operation of the system under different operating modes.

Description of the drawings

Fig. 1 is the non-afterburning compressed air electricity generation system schematic diagram of photo-thermal combined type；

Fig. 2 is solar energy optical-thermal cell schematics；

In figure, 1, motor；2nd, air compressor；3rd, high pressure tank；4th, oil gas heat exchanger；5th, solar energy optical-thermal list Unit；6th, high rate turbine generator unit；7th, the first control valve；8th, the second control valve；9th, the 3rd control valve；10th, the 4th control valve； 51st, low-temperature reservoir tank；52nd, pump；53rd, groove type heat collector；54th, heater；55th, high temperature oil storage tank.

Specific embodiment

With reference to the accompanying drawings and examples, the specific embodiment of the present invention is described in further detail.Following instance For the present invention is described, but it is not limited to the scope of the present invention.

In describing the invention, it should be noted that unless otherwise clearly defined and limited, term " installation ", " phase Even ", " connection " should be interpreted broadly, for example, it may be being fixedly connected, or being detachably connected, or be integrally connected；Can Being to be mechanically connected, or electrically connect；Can be joined directly together, it is also possible to be indirectly connected to by intermediary, Ke Yishi The connection of two element internals.For the ordinary skill in the art, above-mentioned term can be understood at this with concrete condition Concrete meaning in invention.

Fig. 1 is the non-afterburning compressed air electricity generation system schematic diagram of photo-thermal combined type, and Fig. 2 is heat reservoir schematic diagram.This The non-afterburning compressed air electricity generation system of the photo-thermal combined type of bright offer, including solar energy hot cell 5, gas storage unit and at a high speed thoroughly Flat generator unit 6.As depicted in figs. 1 and 2, solar energy hot cell 5 includes low-temperature reservoir tank 51, high temperature oil storage tank 55, heat conduction Medium, pump 52, groove type heat collector 53, heater 54 and oil gas heat exchanger 4.Low-temperature reservoir tank 51 is used for holding the heat conduction of low temperature and is situated between Heat-conducting medium in matter, such as the present embodiment adopts conduction oil.The output end of low-temperature reservoir tank 51 and 53 input of groove type heat collector Between connect pump 52, when needing to carry out energy storage to solar energy hot cell 5, pump 52 is by low temperature conduction oil from low-temperature reservoir tank 51 Pump in groove type heat collector 53, groove type heat collector 53 utilizes the solar energy that collects by low temperature heat-conducting oil heating to high temperature, then leads to Pump 52 is crossed by high temperature heat conductive oil press-in high temperature oil storage tank 55.Oil circuit is flowed to as shown in filled arrows in figure.In groove type heat collector Heater 54 is also associated between the input of 53 output end and high temperature oil storage tank 55, and heater 54 adopts electric heater, when When sunlight irradiation degree is less than design load or rainy weather, heat accumulation process needs to start electric heater, and conduction oil is heated After be stored in high temperature oil storage tank 55.Connect oil gas between the output end of the input of low-temperature reservoir tank 51 and high temperature oil storage tank 55 Heat exchanger 4, oil gas heat exchanger 4 have gas circuit and oil circuit two passes, realize high temperature heat conductive oil and high pressure in oil gas heat exchanger 4 Heat conduction between air.The liquid passage inlet of oil gas heat exchanger 4 connects the output end of gas storage unit, for heating gas storage unit The pressure-air of output, the pressure-air input high rate turbine generator unit 6 after heating are generated electricity, in air flow such as Fig. 1 Shown in hollow arrow.

The non-afterburning compressed air electricity generation system of photo-thermal combined type that the present invention is provided, by adopting solar groove type heat collector To provide high temperature heat source for pressure-air with heater, it is to avoid in prior art, compensation combustion type compressed air energy storage technology is present High cost, the problem for having carbon emission, relying on natural gas, reduce the pollution to environment, save cost.In addition, by simultaneously Groove type heat collector and heater are set so that while using solar energy heat-storage, also heat-conducting medium can be entered by heater Row heating, and then heating to pressure-air is realized by oil gas heat exchanger, both improve system release can efficiency, can meet again and be Stable operation of the system under different operating modes.

Wherein, gas storage unit includes motor 1, air compressor 2 and air storage chamber.Air compressor 2 is driven by motor 1 Dynamic, using abandoning wind-powered electricity generation, abandoning photoelectricity or low ebb electric drive, air is compressed, is exported in the form of pressure-air；Air compresses The output end of machine 2 connects the import of air storage chamber, and air storage chamber can be high pressure tank 3 or other forms, adopt in the present embodiment High pressure tank 3.The outlet of high pressure tank 3 connects the liquid passage inlet of the oil gas heat exchanger 4, and pressure-air is through high-temperature heat-conductive After oil heating, it is changed into HTHP air, from the gas circuit outlet output of oil gas heat exchanger 4, and is input into connected high speed Turbine power generation unit 6, carries out releasing and can generate electricity.

Wherein, the entrance of high pressure tank 3 is provided with for controlling the first control valve 7 for entering tolerance, and exit sets The second control valve 8 for controlled output tolerance is equipped with, by arranging control valve so that high pressure tank internal environment is easier Control.

Wherein, air compressor 2 adopts two-stage compression, every grade of compression outlet to be equipped with cooler, for cooling down after compression Gas.After air is through first order compressor compresses, the cooler that carried by compressor to compression after gas cooling, so After enter back into the second level compression, through cooler cooling after, realize pressure-air with normal temperature enter air storage chamber.By being pressed using two grades Contracting, improves air compression efficiency, saves the energy, make adiabatic compression air energy storage break away from the dependence to high temperature compressor.

Wherein, high rate turbine generator unit 6 includes air expansion turbine, high-speed power generation unit and electronic power convertor, From the HTHP air input air expansion turbine of the output of oil gas heat exchanger 4, release and the operating of high-speed power generation unit can be driven to generate electricity, High-frequency alternating current is rectified into direct current by electronic power convertor, then is transformed to access electricity after 50Hz industrial-frequency alternating currents through inverter Net.The application is engaged using high-speed power generation unit and electronic power convertor, is not only solved in prior art and is mechanically connected Bring and run noise greatly and the problem of poor reliability, and the flexible access electrical network of the electric energy for causing to send, greatly improve generating The friendly of system access electrical network.

Wherein, the high rate turbine generator unit 6 includes control device, in order to realize the stable fortune under different operating modes Turn.

Wherein, the high rate turbine generator unit 6 includes electronic power convertor control device, the electronic power conversion Device control device according to turbine under different operating modes rotating speed adjusting control parameter, for ensureing the electric energy matter exported after frequency conversion Amount, it is ensured that the quality of power supply of output meets grid-connected requirement.In addition, between high rate turbine generator unit 6 and oil gas heat exchanger 4 also The 3rd control valve 9 is provided with, for controlling the flow of the HTHP air for entering turbine.

Wherein, the temperature for entering the compressed air of high-speed engine group after heat exchange is 250 DEG C～300 DEG C.Air storage chamber Pressure is not more than 8.8Mpa.In oil gas heat exchanger 4 and at a high speed in heat storage units downstream, i.e. oil gas heat exchanger 4 and high temperature oil storage tank Between 55, the 4th control valve 10 is additionally provided with, for controlling the flow of the conduction oil for entering oil gas heat exchanger 4.

Wherein, nitrogen protection device is provided with low temperature heat conduction oil tank and the high-temperature heat-conductive oil tank, for preventing conduction oil Oxidized, prolonging service life of heat transfer oil.Low temperature heat conduction oil tank and high-temperature heat-conductive oil tank appearance are surrounded by insulation material, can achieve 24 Temperature change in hour oil tank is less than ± 1 DEG C, it is ensured that in oil tank, environment stablizes.

Presently preferred embodiments of the present invention is the foregoing is only, not in order to limit the present invention, all in essence of the invention Within god and principle, any modification, equivalent substitution and improvements that is made etc. should be included within the scope of the present invention.

Claims (9)

1. the non-afterburning compressed air electricity generation system of a kind of photo-thermal combined type, including：Solar energy hot cell, gas storage unit and high speed Turbine power generation unit, it is characterised in that

The solar energy hot cell includes low-temperature reservoir tank, high temperature oil storage tank, heat-conducting medium, pump, groove type heat collector, heater And oil gas heat exchanger；The pump is connected between the output end of the low-temperature reservoir tank and the groove type heat collector input, is used In the heat-conducting medium is pumped in the groove type heat collector from the low-temperature reservoir tank, the groove type heat collector utilizes the sun Can the heating heat-conducting medium；Connection heating between the input of the output end of the groove type heat collector and the high temperature oil storage tank Connect oil gas heat exchanger between the output end of device, the input of the low-temperature reservoir tank and the high temperature oil storage tank；The oil gas The liquid passage inlet of heat exchanger connects the output end of the gas storage unit, for heating the pressure-air of the gas storage unit output, The pressure-air after heating is input into the high rate turbine generator unit and is generated electricity.

2. the non-afterburning compressed air electricity generation system of photo-thermal combined type as claimed in claim 1, it is characterised in that the gas storage list Unit includes motor, air compressor and air storage chamber；The air compressor is by the motor-driven, the air compression The output end of machine connects the import of the air storage chamber.

3. the non-afterburning compressed air electricity generation system of photo-thermal combined type as claimed in claim 2, it is characterised in that the air storage chamber Inlet and outlet be respectively provided with control valve, for control input and output air storage chamber gas flow.

4. the non-afterburning compressed air electricity generation system of photo-thermal combined type as claimed in claim 3, it is characterised in that the air pressure Contracting machine adopts two-stage compression, every grade of compression outlet to be equipped with cooler, for cooling down the gas after compression.

5. the non-afterburning compressed air electricity generation system of photo-thermal combined type as claimed in claim 1, it is characterised in that the high speed is saturating Flat generator unit includes that air expansion turbine, high-speed power generation unit and electronic power convertor, the electronic power convertor are used In the conversion that high-frequency alternating current is realized AC-DC-exchange.

6. the non-afterburning compressed air electricity generation system of photo-thermal combined type as claimed in claim 5, it is characterised in that the high speed is saturating Flat generator unit includes control device.

7. the non-afterburning compressed air electricity generation system of photo-thermal combined type as claimed in claim 6, it is characterised in that the high speed is saturating Flat generator unit includes electronic power convertor control device, under the electronic power convertor control device is according to different operating modes The rotating speed of turbine adjusting control parameter, for ensureing the quality of power supply exported after frequency conversion.

8. the non-afterburning compressed air electricity generation system of photo-thermal combined type as described in any one of claim 1-7, it is characterised in that institute State in low temperature heat conduction oil tank and the high-temperature heat-conductive oil tank and be equipped with nitrogen protection device.

9. the non-afterburning compressed air electricity generation system of photo-thermal combined type as described in any one of claim 1-7, it is characterised in that institute State low temperature heat conduction oil tank and the high-temperature heat-conductive oil tank appearance is surrounded by insulation material.