CN108870787A - A kind of tower fused salt heat dump compressed air system - Google Patents

Abstract

The invention discloses a kind of tower fused salt heat dump compressed air systems, the compressed air system includes accident compressed air sub-system and compressed air for instrument subsystem, the outlet side of the accident compressed air sub-system is connected with the import fused salt surge tank that fused salt heat dump front end is arranged in, the outlet side of the compressed air for instrument subsystem is connected with the operated pneumatic valve of fused salt heat dump, wherein, the inlet end of compressed air for instrument subsystem is connected with the accident compressed air reservoir in accident compressed air sub-system.The present invention is by being optimized design with compressed air system to heat dump, accident compressed air system is integrated with air compressor, the conveying distance of instrument gas source is shortened while meeting necessary accident compressed air demand, improve the stability of gas source supply, power station air compression system pressure rating requirement is reduced, to save initial outlay cost.

Description

A kind of tower fused salt heat dump compressed air system

Technical field

The present invention relates to the technical fields of solar light-heat power-generation, more particularly, are related to a kind of tower fused salt heat dump Use compressed air system.

Background technique

For tower photo-thermal power station, low-temperature molten salt, which is sent under the action of pump for liquid salts along tedge, to be located at the top of high tower Fused salt heat dump in, in order to guarantee that fused salt heat dump remains to maintain temporary safe operation under burst or accident conditions, lead to The normal practice is that the front end of fused salt heat dump is provided with import fused salt surge tank, after preventing pump for liquid salts from failing for some reason Destroying occurs stopping and overtemperature occurring under the radiation of high hot-fluid in fused salt heat absorption tube panel.It is empty that import fused salt surge tank is connected with compression Gas system and operation with pressure, after pump for liquid salts is stopped transport for some reason, the fused salt in import fused salt surge tank can be in the dynamic of compressed air Power effect is lower to be continued to flow in tube panel, to complete to remove coke to mirror field heliostat within this time.

For being commercialized for tower photo-thermal power station, because fused salt heat dump running resistance considers, the compressed air system is real Pressure rating needed for border is higher, can not share with power station routine instrument air compression system.In addition, when heliostat completion in mirror field is removed It is defocused need to be by fused salt fast evacuation inside fused salt heat dump, therefore, in order to shorten the salt discharge time as far as possible, fused salt heat dump is related Valve may need to use operated pneumatic valve.The instrument that gas source needed for operated pneumatic valve mostlys come from power station ground is compressed with air is System, pressure rating maintains 0.6~0.8MPa, in order to guarantee the stability of gas source, needs individually to set near fused salt heat dump Set vacuum tank.But since fused salt heat dump is located at the top of high tower, required instrument gas source pipe can be very long, and the risk died can increase In addition height considers the friction loss of long pipeline conveying, need the whole pressure etc. for improving power station instrument air compression system Grade, therefore corresponding cost of investment can also increase therewith.

For with the above problem, the unstability of one side system operation is higher, on the other hand can also correspondingly improve electricity The operation cost of investment stood.

Summary of the invention

In order to solve the problems in the existing technology, the object of the present invention is to provide a kind of tower fused salt heat dumps to press Contracting air system improves the stability of system operation and reduction by the optimization design to heat dump compressed air system The operation cost of investment in power station.

It include accident compressed air sub-system and compressed air for instrument subsystem the present invention provides a kind of compressed air system System, the outlet side of the accident compressed air sub-system are connected with the import fused salt surge tank that fused salt heat dump front end is arranged in, The outlet side of the compressed air for instrument subsystem is connected with the operated pneumatic valve of fused salt heat dump, wherein compressed air for instrument The inlet end of system is connected with the accident compressed air reservoir in accident compressed air sub-system.

One embodiment of tower fused salt heat dump compressed air system according to the present invention, the accident compression subsystem Outlet pipe is compressed including air compressor machine, accident compression admission line, accident compressed air reservoir and accident, the air compressor machine passes through Accident compression admission line is connected with accident compressed air reservoir, and the accident compressed air reservoir compresses escape pipe by accident Road is connected with the import fused salt surge tank, wherein the accident compressed air reservoir is arranged in import fused salt surge tank and melts Salt absorbs heat near tube panel.

One embodiment of tower fused salt heat dump compressed air system according to the present invention, the accident compress air inlet pipe Drying machine, filter and compressed air shut-off valve, the accident pressure are disposed with along compressed air flowing direction on road On contracting outlet pipe along compressed air flowing direction be disposed with compressed air check-valves, compressed air shut-off valve and Compressed air pressure-regulating valve.

One embodiment of tower fused salt heat dump compressed air system according to the present invention, the accident compressed air storage The operating pressure of tank is higher than the operating pressure of import fused salt surge tank, is provided with pressure-regulating valve between the two.

One embodiment of tower fused salt heat dump compressed air system according to the present invention, compressed air for instrument System includes compressed air for instrument inlet pipeline, compressed air for instrument storage tank and compressed air for instrument outlet conduit, and the instrument is used Compressed air reservoir is connected with accident compressed air reservoir by compressed air for instrument inlet pipeline and is compressed by instrument empty Gas outlet conduit is connected with the operated pneumatic valve of fused salt heat dump, wherein the compressed air for instrument storage tank is arranged in import fused salt Near surge tank and fused salt heat absorption tube panel.

One embodiment of tower fused salt heat dump compressed air system according to the present invention, the compressed air for instrument into Compressed air check-valves, compressed air shut-off valve, compression are disposed with along compressed air flowing direction on mouth pipeline Air pressure-regulating valve and superfinishing filter.

One embodiment of tower fused salt heat dump compressed air system according to the present invention, the gas of the fused salt heat dump Movable valve includes the exhaust valve at top and the thin salt valve of bottom, and the gas source of the operated pneumatic valve, which is compressed from instrument with air, to be stored up Tank.

One embodiment of tower fused salt heat dump compressed air system according to the present invention, the compressed air for instrument storage The operating pressure of tank is higher than the operating pressure of operated pneumatic valve, is provided with pressure-regulating valve between the two.

Compared with prior art, tower fused salt heat dump compressed air system of the invention is by compressing heat dump Design is optimized in air system, and accident compressed air system is integrated with air compressor, must meeting The conveying distance that instrument gas source is shortened while the accident compressed air demand of palpus improves the stability of gas source supply, drop Low power station air compression system pressure rating requirement, to save initial outlay cost.

Detailed description of the invention

Fig. 1 shows the structural representation of fused salt heat dump compressed air system tower according to an exemplary embodiment of the present Figure.

Description of symbols：

1- air compressor machine, 2- drying machine, 3- filter, 4- compressed air shut-off valve, 5- accident compressed air reservoir, 6- pressure Contracting air check-valves, 7- compressed air pressure-regulating valve, 8- superfinishing filter, 9- compressed air for instrument storage tank, 10- import Fused salt surge tank, 11- pressure maintaining valve, 12- fused salt tedge shut-off valve, 13- fused salt circuit flowmeter, 14- fused salt loop modulation valve, 15- dredges salt valve, 16- bypass shut-off valve, 17- heat dump exhaust valve, 18- fused salt heat absorption tube panel, 19- fused salt tedge, 20- fused salt Shunt valve, 21- fused salt circuit connecting tube, 22- dredge salt branch pipe, 23- exhaust pipe, 24- accident compression outlet pipe, 25- instrument pressure Contracting air inlet duct, 26- compressed air for instrument outlet conduit, 27- accident compress admission line.

Specific embodiment

All features disclosed in this specification or disclosed all methods or in the process the step of, in addition to mutually exclusive Feature and/or step other than, can combine in any way.

Any feature disclosed in this specification unless specifically stated can be equivalent or with similar purpose by other Alternative features are replaced.That is, unless specifically stated, each feature is an example in a series of equivalent or similar characteristics ?.

The present invention combines the service requirement and feature of tower photo-thermal power station fused salt heat dump air compression system, to routine System is optimized and improves, and is suitable for tower photo-thermal power station fused salt endothermic system.

Fig. 1 shows the structural representation of fused salt heat dump compressed air system tower according to an exemplary embodiment of the present Figure.

As shown in Figure 1, the tower fused salt heat dump compressed air system includes accident compressed air sub-system and instrument Use compressed air sub-system.The import fused salt surge tank cooperating of accident compressed air sub-system and fused salt heat dump front end, After pump for liquid salts is stopped transport for some reason, the fused salt in fused salt surge tank can be in the compressed air that accident compressed air sub-system provides Power effect is lower to be continued to flow in heat dump tube panel, to complete to remove coke to mirror field heliostat within this time.Instrument compression Air subsystem then provides driving power for the operated pneumatic valve of fused salt heat dump, realizes that heliostat completion in mirror field is removed defocused fused salt and inhaled The quick fused salt of hot device empties.

An exemplary embodiment of the present invention, the outlet side of accident compressed air sub-system and setting are in fused salt heat dump The import fused salt surge tank 10 of front end is connected, the outlet side of compressed air for instrument subsystem and the operated pneumatic valve phase of fused salt heat dump Even, wherein the inlet end of compressed air for instrument subsystem and 5 phase of accident compressed air reservoir in accident compressed air sub-system Even.

It is adjusted as a result, by the instrument to the fused salt heat dump at the top of high tower with air gas source source, so that instrument is empty Gas gas source is no longer taken from tower bottom compared with the instrument air compression station being remotely locatable, but is directly taken from the thing near fused salt heat dump Therefore the accident compressed air reservoir of compressed air sub-system, not only conveying distance is short, risk of dying is small and gas source stability more has It ensures, and can quickly provide the compressed air for instrument for meeting its pressure rating when operated pneumatic valve movement, while power station is empty Air pressure compression system improves pressure rating without whole because of high parameter requirement of the fused salt heat dump operated pneumatic valve to gas source, is conducive to Save the cost of investment in power station.

Specifically, fused salt heat dump is arranged in high tower napex, and the front end of fused salt heat dump is provided with vertical import fused salt Surge tank 10, main function is storage fused salt to be occurred stopping and dry combustion method with the tube panel that absorbs heat of fused salt after preventing pump for liquid salts from fail for some reason Damage, tank internal volume can accommodate fused salt heat dump with flow rate of molten salt required for rated load operation certain time.

Import fused salt surge tank 10 is connected by fused salt tedge 19 with pump for liquid salts (not shown), is set on fused salt tedge 19 It is equipped with fused salt tedge shut-off valve 12, it is slow to enter import fused salt by pump for liquid salts and the control fused salt of fused salt tedge shut-off valve 12 It rushes in tank 10 and stores for future use.Pressure maintaining valve 11 is additionally provided on import fused salt surge tank 10 and is also connected with fused salt shunt valve 20, Bypass shut-off valve 16 is provided on fused salt shunt valve 20.

Import fused salt surge tank 10 is connected by fused salt circuit connecting tube 21 with fused salt heat absorption tube panel 18, the connection of fused salt circuit It is disposed with fused salt circuit flowmeter 13 and fused salt loop modulation valve 14 along fused salt flow direction on pipe 21, is realized to fused salt The control of flowing and flow.Also, import fused salt surge tank 10 is connected with accident compressed air sub-system, the accident compressed air Power when subsystem is used to maintain the constant-pressure operation of import fused salt surge tank 10 and provides accident conditions.

According to the present invention, accident compressed air sub-system includes air compressor machine 1, accident compression admission line 27, accident compression Air reservoir 5 and accident compress outlet pipe 24, and air compressor machine 1 compresses admission line 27 and accident compressed air reservoir by accident 5 are connected, and accident compressed air reservoir 5 compresses outlet pipe 24 by accident and is connected with import fused salt surge tank 10, wherein accident Compressed air reservoir 5 is arranged near import fused salt surge tank 10 and fused salt heat absorption tube panel 18.Accident is compressed on admission line 27 It is disposed with drying machine 2, filter 3 and compressed air shut-off valve 4 along compressed air flowing direction, accident compresses outlet Compressed air check-valves 6, compressed air shut-off valve 4 and pressure are disposed with along compressed air flowing direction on pipeline 24 Contracting air pressure-regulating valve 7.Air compressor machine 1 preferably selects oilless air compressor.

Since the headspace of high tower is limited, air compressor machine, drying machine and filter in accident compressed air sub-system etc. Equipment is arranged in tower bottom, and accident compressed air reservoir 5 is then arranged near import fused salt surge tank and fused salt heat dump, just To the quick demand of compressed air when accident conditions.Also, the operating pressure of accident compressed air reservoir 5 is higher than import fused salt The operating pressure of surge tank 10, its purpose is to reduce the volume of accident compressed air reservoir 5 in order to tower top arrangement, this two Tank body compresses the connection of outlet pipe 24 and the pressure adjusting group by being arranged on accident compression outlet pipe 24 by accident Part realizes compressed air by the conversion of high pressure to low pressure.

The compressed air that air compressor machine 1 generates as a result, is by accident compression admission line 27 and after drying, filtration treatment It is filled in accident compressed air reservoir 5 and stores, be then stored in compressed air in accident compressed air reservoir 5 and compressed by accident Outlet pipe 24 simultaneously enters in import fused salt surge tank 10 after the conversion of high pressure to low pressure, meets the requirement of its operating pressure.

According to the present invention, compressed air for instrument subsystem includes compressed air for instrument inlet pipeline 25, compressed air for instrument Storage tank 9 and compressed air for instrument outlet conduit 26, compressed air for instrument storage tank 9 pass through compressed air for instrument inlet pipeline 25 and thing Therefore compressed air reservoir 5 is connected and is connected by compressed air for instrument outlet conduit 26 with the operated pneumatic valve of fused salt heat dump, Wherein, compressed air for instrument storage tank 9 is arranged near import fused salt surge tank 10 and fused salt heat absorption tube panel 18.Preferably, fused salt The operated pneumatic valve of heat dump includes exhaust valve 17 and thin salt valve 15, wherein the row at the top of fused salt heat dump is arranged in exhaust valve 17 On tracheae 23, dredges salt valve 15 and be arranged on the thin salt branch pipe 22 of fused salt heat dump bottom.

After fused salt heat dump normally stops transport or stops transport for some reason, need to carry out it fast evacuation processing, therefore fused salt is inhaled The thin salt valve 15 of exhaust valve 17 and bottom at the top of hot device is all made of pneumatic executive mode, it is therefore an objective to when shortening the unlatching of valve Between, reduce the risk that frozen plug occurs for fused salt in evacuation procedure.

In order to guarantee the stability of instrument gas source and quick demand property needed for operated pneumatic valve, exhaust valve 17 and thin salt valve 15 For gas source from the compressed air for instrument storage tank 9 arranged nearby, operating pressure maintains 0.6~0.8MPa.According to the present invention, instrument Individual air compressor machine is not used with compressed air sub-system, but is compressed by compressed air for instrument inlet pipeline 25 and accident Air reservoir 5 is connected.Wherein, compression is disposed with along compressed air flowing direction on compressed air for instrument inlet pipeline 25 Air check-valves 6, compressed air shut-off valve 4, compressed air pressure-regulating valve 7 and superfinishing filter 8, on the one hand pass through The control that starting valve is carried out in compressed air for instrument storage tank 9, another party are stored in after handling the decompression of compressed air The setting of the processing equipments such as face superfinishing filter can also make compressed air meet the high-quality gas source demand of operated pneumatic valve.

For fused salt heat dump, exhaust valve 17 and thin salt valve 15 are in closed state when normal operation, only open It can just be opened when dynamic initial stage, stoppage in transit emptying and burst accident, therefore demand number of the operated pneumatic valve daily to gas source is limited , and it is every time very of short duration, it means that the gas pressure and tolerance inside compressed air for instrument storage tank 9 are in the overwhelming majority All be in time it is highly stable, need not move through accident compressed air reservoir 5 to its continual pressurising, it is normally opened when not used It opens air compressor machine to be inflated storage tank, reduces the accident rate of system and equipment, and saved operating cost.

Initial start stage closes fused salt loop modulation valve 14, is filled by fused salt tedge 19 to import fused salt surge tank 10 Salt, the compressed air that when setting liquid level to be achieved opens in accident compressed air sub-system on accident compressed air outlet pipe 24 are used Shut-off valve 4 carries out pressurising to it, when the operating pressure of tank interior and arrival end fill salt pressure it is identical when reach balance, liquid level It will not change again.The heat absorption tube panel 18 of fused salt heat dump is connected by circuit connecting tube with import fused salt surge tank 10, when into When the level stability of mouthful fused salt surge tank, that is, openable circuit connecting tube on fused salt loop modulation valve 14, fused salt will press at this time Start heat absorption circulation in the lower heat absorption tube panel 18 for entering fused salt heat dump of power effect.

When the load of fused salt heat dump changes, fused salt stream is adjusted by fused salt loop modulation valve 14 and pump for liquid salts Measure the stabilization to guarantee fused salt outlet temperature.Fused salt liquid level and operating pressure in import fused salt surge tank 10 can be returned with fused salt There is momentary fluctuation in the movement of road regulating valve 14 and pump for liquid salts, and when load rises, tank interior liquid level and operating pressure are instantaneous Decline；When load decline, then on the contrary；But as long as fused salt liquid level maintains between the highest liquid level of permission and minimum liquid level, then without It needs the unlatching air compressor machine of discontinuity to be inflated to import fused salt surge tank and top vent, reduces equipment failure rate and save Operating cost.

When pump for liquid salts fails for some reason to provide fused salt to heat absorption tube panel, 10 internal reservoir of import fused salt surge tank melts Salt will extrude under the effect of the power of compressed air, be sent into the heat absorption relaying afterflow of tube panel 18 via circuit connecting tube 21 and move, with Guarantee that mirror field heliostat removes the safety of heat dump during coke.

After the completion of heliostat removes coke, exhaust valve 17 and thin salt valve 15 need to be opened and start the bypass on fused salt shunt valve 20 Shut-off valve 16 carries out fast evacuation to fused salt heat dump, wherein exhaust valve 17 and thin salt valve 15 select pneumatic operated valve, gas source from Compressed air for instrument storage tank 9.

When the restarting of fused salt heat absorber system, air compressor machine 1 should be opened in advance, accident compressed air reservoir 5 and instrument are used Compressed air reservoir 9 carries out suppressing inflation.

In conclusion with accident compressed air system to be arranged in heat dump nearby attached for tower fused salt heat dump of the invention Closely, convenient for the quick demand of compressed air, instrument needed for another fused salt heat dump is directly derived from nearest arrangement with gas source when accident Accident compressed air sub-system, reduce long range gas transmission die risk and ensure gas source stability, without because melt Operated pneumatic valve requires the high parameter of gas source in salt heat dump and entirety improves the pressure rating of power station air compression system, to save The cost of investment in power station.

The invention is not limited to specific embodiments above-mentioned.The present invention, which expands to, any in the present specification to be disclosed New feature or any new combination, and disclose any new method or process the step of or any new combination.

Claims (8)

1. a kind of tower fused salt heat dump compressed air system, which is characterized in that the compressed air system includes accident pressure Contracting air subsystem and compressed air for instrument subsystem, the outlet side of the accident compressed air sub-system and setting are inhaled in fused salt The import fused salt surge tank of hot device front end is connected, and the outlet side of the compressed air for instrument subsystem is pneumatic with fused salt heat dump Valve is connected, wherein the inlet end of compressed air for instrument subsystem and the accident compressed air in accident compressed air sub-system Storage tank is connected.

2. tower fused salt heat dump compressed air system according to claim 1, which is characterized in that the accident compression Subsystem includes air compressor machine, accident compression admission line, accident compressed air reservoir and accident compression outlet pipe, the pneumatics Machine compresses admission line by accident and is connected with accident compressed air reservoir, and the accident compressed air reservoir is compressed by accident Outlet pipe is connected with the import fused salt surge tank, wherein the accident compressed air reservoir is arranged in import fused salt buffering Near tank and fused salt heat absorption tube panel.

3. tower fused salt heat dump compressed air system according to claim 2, which is characterized in that the accident compression It is disposed with drying machine, filter and compressed air shut-off valve along compressed air flowing direction on admission line, it is described Along compressed air flowing direction is disposed with compressed air check-valves, compressed air is closed on accident compression outlet pipe Disconnected valve and compressed air pressure-regulating valve.

4. tower fused salt heat dump compressed air system according to claim 2, which is characterized in that the accident compression The operating pressure of air reservoir is higher than the operating pressure of import fused salt surge tank, is provided with pressure-regulating valve between the two.

5. tower fused salt heat dump compressed air system according to claim 1, which is characterized in that the instrument compression Air subsystem includes compressed air for instrument inlet pipeline, compressed air for instrument storage tank and compressed air for instrument outlet conduit, institute Compressed air for instrument storage tank is stated to be connected by compressed air for instrument inlet pipeline with accident compressed air reservoir and use by instrument Compressed air outlet pipeline is connected with the operated pneumatic valve of fused salt heat dump, wherein the compressed air for instrument storage tank be arranged in into Near mouth fused salt surge tank and fused salt heat absorption tube panel.

6. tower fused salt heat dump compressed air system according to claim 5, which is characterized in that the instrument compression Along compressed air flowing direction is disposed with compressed air check-valves, compressed air turns off on air inlet duct Valve, compressed air pressure-regulating valve and superfinishing filter.

7. tower fused salt heat dump compressed air system according to claim 5, which is characterized in that the fused salt heat absorption The operated pneumatic valve of device includes the exhaust valve at top and the thin salt valve of bottom, and the gas source of the operated pneumatic valve is from instrument air pressure Contracting storage tank.

8. tower fused salt heat dump compressed air system according to claim 5, which is characterized in that the instrument compression The operating pressure of air reservoir is higher than the operating pressure of operated pneumatic valve, is provided with pressure-regulating valve between the two.