CN109826708A - An advanced distributed multi-supply compressed air energy storage system and application method - Google Patents

Abstract

The invention belongs to the technical field of energy storage systems, and particularly relates to an advanced distributed multi-combined supply compressed air energy storage system and an application method thereof, wherein the compressed air energy storage system is a distributed multi-combined supply system and comprises a power supply module, a cooling module and a heating module; the compressed air energy storage system is further provided with a turbine, and the power supply module, the cooling module and the heating module convert the working modes of the modules by adjusting the turbine. According to the load requirements of users in different seasons, the temperature of the turbine inlet in the compressed air energy storage system is adjusted, the system can provide cold, hot and electric loads for the users in different seasons, the load requirements of the users in different seasons are met, various grade energies in the compressed air energy storage system are fully utilized, the cost is reduced, and meanwhile, the energy utilization rate is improved.

Description

A kind of compressed-air energy-storage system and application method of advanced distributed multiple-supplying

Technical field

The invention belongs to energy conserving system technical field, in particular to a kind of compressed-air energy storage of advanced distributed multiple-supplying System and application method.

Background technique

With the development and the improvement of people's living standards of national economy, electric energy supplies critical shortage, and electricity consumption peak-valley difference It is lasting to increase.Peak period, load increase, it is necessary to put into more generating sets, if spare unit is inadequate, need to operate a switch limit Electricity；Trough period, load are reduced suddenly, so that a part of generating set must be shut down.Regulating units frequent start-stop causes the energy big Amount waste, it is very unfavorable to the economy and energy conservation of operation of power networks.Therefore, demand Side Management starts to close by people Note guides user to lack electricity consumption in peak period, trough period Multifunctional electric is filled out to reduce load peak by implementing to manage to electricity consumption side Load valley is mended, to reduce electricity consumption peak-valley difference, so that power generation and electricity consumption is tended to balance, to improve power supply efficiency, reaches saving energy The purpose in source and protection environment.

Electric energy energy storage technology is as one of the key technology for realizing demand Side Management, in network load trough period from electricity Net obtains electric energy electric power storage, discharges electric energy in network load peak period, provides a user electric energy, implements peak clipping to power load and fill out Paddy, be solve power grid peak-valley difference greatly the most directly and effective means.According to form of energy point, electric energy energy storage technology, which is divided into, to draw water Energy storage, flywheel energy storage, compressed-air energy storage, super capacitor energy-storage, superconducting magnetic energy storage, battery energy storage etc..Wherein compressed air Energy storage is largely paid close attention to high power, low cost, long-life, safety and reliability height etc., in the low power consumption phase, from electricity Net takes electric drive compressor compressed air, and the pressure-air of generation is stored in air accumulator, and system is in energy storage state；Electricity consumption is high Peak phase, the pressure-air in air accumulator enter turbine acting, driven generator power generation, electric energy needed for providing user, at system In de-energized state.Pressure-air is generally stored in the cave under underground mine, lava by traditional extensive compressed-air energy storage Equal places, there are certain requirements geographical location.But modern compression air energy storage technology replaces solution cavity using artificial air accumulator, especially Being can be integrated with power grid, using it is more flexible more extensively, improve power grid power supply reliability and safety.

According to the heat utilization situation of compressed air in compressed-air energy-storage system, diathermanous compressed-air energy storage can be divided into System and adiabatic compression air energy storage systems.Wherein, adiabatic compression air energy storage systems are used by the heat of recycling compressed air In heating turbine inlet air, energy utilization rate is improved, extensive research has been obtained.At present for compressed-air energy-storage system Mainly electrically and thermally, but load type needed for user is bigger with seasonal variations for the utilization of energy, is mainly such as that electricity is born in summer Lotus and refrigeration duty, winter are mainly electric load and thermic load, and the energy in compressed-air energy-storage system cannot get in Various Seasonal Adequately application, causes annual energy utilization rate relatively low.

Summary of the invention

The shortcomings that it is an object of the invention to overcome existing compressed air energy-storage system and deficiency, provide a kind of advanced distribution The compressed-air energy-storage system and application method of formula multiple-supplying, it is empty by adjusting compression according to user's Various Seasonal workload demand Turbine inlet temperature in gas energy storage system, system can be supplied to the hot and cold and electric load of user's Various Seasonal, meet user not With season workload demand, the various quality energies in compressed-air energy-storage system are made full use of, reduce cost, while improving energy Source utilization rate.

The purpose of the present invention is realized by the following technical solution:

A kind of compressed-air energy-storage system of advanced distributed multiple-supplying is provided, the compressed-air energy-storage system is distributed more Co-feeding system, including power supply module, cooling supply module, for thermal modules；The compressed-air energy-storage system is additionally provided with turbine, the confession Electric module, cooling supply module pass through the conversion of turbine adjusting modules operating mode for thermal modules.

Preferably, the compressed-air energy-storage system includes several switches, low-pressure compressor, several heat exchangers, high pressure pressure Mechanism of qi, air accumulator, regulating valve, burner, generator, heat storage can, the compressed-air energy-storage system include integrated simultaneously with power grid By the electric drive compressor of power grid.

Preferably, low-pressure compressor, First Heat Exchanger, high-pressure compressor, the second heat exchanger, air accumulator are sequentially connected with to be formed Tank circuit.

Preferably, the heat storage can is all connected with First Heat Exchanger and the second heat exchanger.

Preferably, the compressed-air energy-storage system is additionally provided with regulating valve, the air accumulator, regulating valve, third heat exchanger, Burner, turbine, generator are linked in sequence to form power supply module, and the heat storage can is also connect with third heat exchanger.

Preferably, burner, turbine, which are linked in sequence, to form cooling supply module or for thermal modules, the burner is that fuel quantity can Structure changes.

Preferably, the compressed-air energy-storage system is equipped with the electric compression refrigerating machine filled for cold-patch, and the system is set There is the boiler for supplementing thermal energy.

Preferably, between the connection of the 4th heat exchanger and First Heat Exchanger, third heat exchanger.

The present invention provides a kind of application method of the compressed-air energy-storage system of advanced distributed multiple-supplying according to, Specific step is as follows: including peak times of power consumption, low power consumption phase and for cold period, heat supply period；

(1) when low power consumption, two switches are closed, other two switch is opened, and compressed-air energy-storage system is in the accumulation of energy stage； Air enters the insulated compression of low-pressure compressor, and the compressed air come out from low-pressure compressor enters heat exchanger and is cooled to by level pressure Environment temperature, subsequently into the insulated compression of high-pressure compressor, the pressure-air come out from high-pressure compressor quilt in heat exchanger Level pressure is cooled to environment temperature, and the cryogenic high pressure air come out from heat exchanger enters air accumulator and is stored；

(2) when peak of power consumption, two switches are closed, other two switch is opened, and compressed-air energy-storage system, which is in, releases the energy stage； From air accumulator come out pressure-air by adjust valve regulation air mass flow, subsequently into heat exchanger by the hot-fluid in heat storage can Body heating, the pressure-air after heating enter burner and are further heated, and do work subsequently into turbine expansion, turbine output Function drives electrical power generators, electric load needed for being supplied to user, and the exhaust come out from turbine is used for heat supply or cooling supply；

(3) for cold period, required load is predominantly electric and cold, the fuel quantity for entering burner is reduced, into the compressed air of turbine Be heated to lower temperature, pressure-air do work in turbine driven generator power generation user is provided needed for electric energy, go out from turbine The delivery temperature come is lower than environment temperature, can give user's cooling supply；

(4) heat supply period, required load predominantly electrically and thermally, increase the fuel quantity for entering burner, into the compressed air of turbine Be heated to higher temperature, pressure-air do work in turbine driven generator power generation user is provided needed for electric energy, go out from turbine The delivery temperature come is higher than environment temperature, for thermic load needed for being supplied to user.

Compared with the prior art, the invention has the following advantages and beneficial effects:

The compressed-air energy-storage system and application method of a kind of advanced distributed multiple-supplying are provided, according to user's Various Seasonal load Demand, adjusts turbine inlet temperature in compressed-air energy-storage system, and system can be supplied to the hot and cold and electric of user's Various Seasonal Load meets user's Various Seasonal workload demand, makes full use of the various quality energies in compressed-air energy-storage system, reduce at This, while improving energy utilization rate.The fuel quantity for entering burner by adjusting, to adjust into turbo compressor air Temperature, Various Seasonal meet the needs of user's difference hot and cold and electric load, make full use of various product in compressed-air energy-storage system The energy of position, reduces cost, while improving energy utilization rate.

Detailed description of the invention

Fig. 1 is the systematic schematic diagram of the compressed-air energy-storage system of the advanced distributed multiple-supplying of one kind of the present embodiment.

Specific embodiment

Present invention will now be described in further detail with reference to the embodiments and the accompanying drawings, but embodiments of the present invention are unlimited In this.

Referring to Fig.1, a kind of compressed-air energy-storage system of advanced distributed multiple-supplying of the present embodiment, compressed-air energy storage system System is distributed multi-generation system, including power supply module, cooling supply module, for thermal modules；Compressed-air energy-storage system is additionally provided with Flat 11, power supply module, cooling supply module pass through the conversion of the adjusting modules operating mode of turbine 11 for thermal modules.

Wherein, compressed-air energy-storage system include several switches 1,7,16,17, low-pressure compressor 2, several heat exchangers 3,5, 9,14, high-pressure compressor 4, air accumulator 6, regulating valve 8,18, burner 10, generator 12, heat storage can 15, the compressed air storage Energy system includes integrated with power grid and by the electric drive compressor of power grid.

In addition, low-pressure compressor 2, First Heat Exchanger 3, high-pressure compressor 4, the second heat exchanger 5, air accumulator 6 are sequentially connected with Form tank circuit.

Wherein, heat storage can 15 is connect with First Heat Exchanger 3 and the second heat exchanger 5.

In addition, compressed-air energy-storage system is additionally provided with regulating valve 8, air accumulator 6, regulating valve 8, third heat exchanger 9, heat storage can 15, burner 10, turbine 11, the sequential connection of generator 12 form power supply module, and heat storage can 15 is also connect with third heat exchanger 9.

Wherein, burner 10, the sequential connection of turbine 11 forms cooling supply module or for thermal modules, burner 10 is that fuel quantity can Structure changes, compressed-air energy-storage system are equipped with the electric compression refrigerating machine 13 filled for cold-patch.

In addition, compressed-air energy-storage system is equipped with the electric compression refrigerating machine 13 filled for cold-patch, system is equipped with for mending Fill the boiler 19 of thermal energy.

Wherein, between the connection of the 4th heat exchanger 14 and First Heat Exchanger 3, third heat exchanger 9.

The present embodiment provides a kind of application methods of compressed-air energy-storage system according to advanced distributed multiple-supplying, specifically Steps are as follows: including peak times of power consumption, low power consumption phase and for cold period, heat supply period；

(1) when low power consumption, switch 1 and switch 16 are closed, and switch 7 and switch 17 are opened, and compressed-air energy-storage system, which is in, to be stored It can the stage；Air enters the insulated compression of low-pressure compressor 2, and the compressed air come out from low-pressure compressor 2 enters 3 quilt of heat exchanger Level pressure is cooled to environment temperature, subsequently into the insulated compression of high-pressure compressor 4, the pressure-air come out from high-pressure compressor 4 Environment temperature is cooled to by level pressure in heat exchanger 5, the cryogenic high pressure air come out from heat exchanger 5 enters air accumulator 6 and stored up It deposits；

(2) when peak of power consumption, switch 1 and switch 16 are closed, and switch 7 and switch 17 are opened, and compressed-air energy-storage system is in and releases It can the stage；From air accumulator 6 come out pressure-air by regulating valve 8 adjust air mass flow, subsequently into heat exchanger 9 by heat accumulation Hot fluid heats in tank 15, the pressure-air after heating enters burner 10 and is further heated, swollen subsequently into turbine 11 Swollen acting, the function that turbine 11 exports drive generator 12 to generate electricity, electric load needed for being supplied to user, and come out from turbine 11 Exhaust is used for heat supply or cooling supply；

(3) for cold period, required load is predominantly electric and cold, the fuel quantity for entering burner 10 is reduced, into the compression of turbine 11 Air is heated to lower temperature, pressure-air do work in turbine 11 driven generator power generation user is provided needed for electric energy, from The delivery temperature that turbine 11 comes out is lower than environment temperature, can give user's cooling supply；

(4) heat supply period, required load predominantly electrically and thermally, increase the fuel quantity for entering burner 10, into the compression of turbine 11 Air is heated to higher temperature, pressure-air do work in turbine 11 driven generator power generation user is provided needed for electric energy, from The delivery temperature that turbine 11 comes out is higher than environment temperature, for thermic load needed for being supplied to user.

Wherein, in step (1) low power consumption when, the cold fluid in heat storage can 15 exchanges heat in First Heat Exchanger 3 and second It is heated to form hot fluid in device 5, recycle the heat of compressed air and is stored in heat storage can 15.

Specifically: in the low power consumption phase, taking electric drive compressor from power grid, switch 1 and switch 16 are closed, switch 7 It is opened with switch 17, compressed-air energy-storage system is in the accumulation of energy stage.Air enters the insulated compression of low-pressure compressor 2, from low The compressed air that pressure compressor 2 comes out enters heat exchanger 3 and is cooled to environment temperature by level pressure, subsequently into 4 quilt of high-pressure compressor Adiabatic compression, the pressure-air come out from high-pressure compressor 4 is cooled to environment temperature by level pressure in heat exchanger 5, from heat exchanger 5 In the cryogenic high pressure air that comes out enter air accumulator 6 and be stored.Cold fluid in heat storage can 15 is in heat exchanger 3 and heat exchanger 5 It is heated to form hot fluid, recycle the heat of compressed air and is stored in heat storage can 15.

In peak times of power consumption, switch 1 and switch 16 are opened, and switch 7 and switch 17 are closed, at compressed-air energy-storage system It can the stage in releasing.The pressure-air come out from air accumulator 6 adjusts air mass flow by regulating valve 8, subsequently into quilt in heat exchanger 9 Hot fluid heats (flow of the adjusting hot fluid of regulating valve 18) in heat storage can 15, the pressure-air after heating enters burner 10 It is further heated, subsequently into 11 expansion work of turbine, the function that turbine 11 exports drives generator 12 to generate electricity, is supplied to user Required electric load, the exhaust come out from turbine 11 are used for heat supply or cooling supply.The fluid come out from heat exchanger 9 enters heat exchanger 14 further heat supplies.

Summer, load needed for user was mainly electricity and cold namely for cold period, reduced the fuel quantity for entering burner 10, into The compressed air for entering turbine 11 is heated to lower temperature, and pressure-air driven generator power generation of doing work in turbine 11 provides use Electric energy needed for family, the delivery temperature come out from turbine 11 are lower than environment temperature, can give user's cooling supply.When compressed-air energy storage system When the refrigeration duty that system generates is not able to satisfy user demand, the refrigerating capacity generated by electric compression refrigerating machine 13 is as supplement.When from When the shortage of heat that heat exchanger 14 recycles is to meet summer thermal load demands, fuel enters the burning of boiler 19, meets needed for user Thermic load.

Winter i.e. heat supply period, load needed for user predominantly electrically and thermally, increase the fuel quantity for entering burner 11, into The compressed air for entering turbine 11 is heated to higher temperature, and pressure-air driven generator power generation of doing work in turbine 11 provides use Electric energy needed for family, the delivery temperature come out from turbine 11 is higher than environment temperature, for thermic load needed for being supplied to user.When from Heat exchange 14 recycling heat and from turbine 11 come out exhaust gas heat be insufficient for user demand when, fuel enter boiler 19 combustion It burns, meets user demand.

Obviously, the above embodiment of the present invention be only to clearly illustrate example of the present invention, and not be pair The restriction of embodiments of the present invention.For those of ordinary skill in the art, may be used also on the basis of the above description To make other variations or changes in different ways.There is no necessity and possibility to exhaust all the enbodiments.It is all this Made any modifications, equivalent replacements, and improvements etc., should be included in the claims in the present invention within the spirit and principle of invention Protection scope within.

Claims (10)

1. a kind of compressed-air energy-storage system of advanced distributed multiple-supplying, which is characterized in that the compressed-air energy-storage system For distributed multi-generation system, including power supply module, cooling supply module, for thermal modules；The compressed-air energy-storage system is additionally provided with Turbine (11), the power supply module, cooling supply module convert modules operating mode by adjusting turbine (11) for thermal modules.

2. the compressed-air energy-storage system of advanced distributed multiple-supplying according to claim 1, which is characterized in that the pressure Contracting air energy storage systems include several switches (1,7,16,17), low-pressure compressor (2), several heat exchangers (3,5,9,14), high pressure Compressor (4), air accumulator (6), regulating valve (8,18), burner (10), generator (12), heat storage can (15), the compression are empty Gas energy storage system includes integrated with power grid and by the electric drive compressor of power grid.

3. the compressed-air energy-storage system of advanced distributed multiple-supplying according to claim 2, which is characterized in that low pressure pressure Mechanism of qi (2), First Heat Exchanger (3), high-pressure compressor (4), the second heat exchanger (5), air accumulator (6) are sequentially connected with to form energy storage time Road.

4. the compressed-air energy-storage system of advanced distributed multiple-supplying according to claim 3, which is characterized in that the storage Hot tank (15) is all connected with First Heat Exchanger (3) and the second heat exchanger (5).

5. the compressed-air energy-storage system of advanced distributed multiple-supplying according to claim 4, which is characterized in that the pressure Contracting air energy storage systems are additionally provided with regulating valve (8), the air accumulator (6), regulating valve (8), third heat exchanger (9), burner (10), turbine (11), generator (12), which are linked in sequence, forms power supply module, the heat storage can (15) and third heat exchanger (9) Connection.

6. the compressed-air energy-storage system of advanced distributed multiple-supplying according to claim 5, which is characterized in that burner (10), turbine (11) sequential connection forms cooling supply module or for thermal modules, and the burner (10) is fuel quantity varistructure.

7. the compressed-air energy-storage system of advanced distributed multiple-supplying according to any one of claims 1 to 6, feature exist In the compressed-air energy-storage system is equipped with the electric compression refrigerating machine (13) filled for cold-patch, and the system is equipped with for mending Fill the boiler (19) of thermal energy.

8. the compressed-air energy-storage system of advanced distributed multiple-supplying according to claim 5, which is characterized in that the 4th changes Between hot device (14) connection and First Heat Exchanger (3), third heat exchanger (9).

9. the application side of the compressed-air energy-storage system of advanced distributed multiple-supplying according to any one of claims 1 to 8 Method, which is characterized in that specific step is as follows: including peak times of power consumption, low power consumption phase and for cold period, heat supply period；

(1) it when low power consumption, switchs (1) and switch (16) is closed, switch (7) and switch (17) is opened, compressed-air energy storage system System is in the accumulation of energy stage；Air enters low-pressure compressor (2) insulated compression, the compressed air come out from low-pressure compressor (2) Environment temperature is cooled to by level pressure into heat exchanger (3), subsequently into high-pressure compressor (4) insulated compression, is calmed the anger from high pressure The pressure-air that machine (4) comes out is cooled to environment temperature by level pressure in heat exchanger (5), the low temperature come out from heat exchanger (5) Pressure-air enters air accumulator (6) and is stored；

(2) it when peak of power consumption, switchs (1) and switch (16) is closed, switch (7) and switch (17) is opened, compressed-air energy storage system System, which is in, releases the energy stage；The pressure-air come out from air accumulator (6) adjusts air mass flow by regulating valve (8), subsequently into changing By the hot fluid heats in heat storage can (15) in hot device (9), the pressure-air after heating enters burner (10) and is further added Heat, subsequently into turbine (11) expansion work, the function of turbine (11) output drives generator (12) power generation, is supplied to needed for user Electric load, and from turbine (11) come out exhaust be used for heat supply or cooling supply；

(3) for cold period, required load is predominantly electric and cold, the fuel quantity for entering burner (10) is reduced, into turbine (11) Compressed air is heated to lower temperature, pressure-air electricity needed for acting driven generator power generation offer user in turbine (11) Can, the delivery temperature come out from turbine (11) is lower than environment temperature, can give user's cooling supply；

(4) heat supply period, required load predominantly electrically and thermally, increase the fuel quantity for entering burner (10), into turbine (11) Compressed air is heated to higher temperature, pressure-air electricity needed for acting driven generator power generation offer user in turbine (11) Can, the delivery temperature come out from turbine (11) is higher than environment temperature, for thermic load needed for being supplied to user.

10. the application method of the compressed-air energy-storage system of advanced distributed multiple-supplying according to claim 9, feature It is, in step (1) when low power consumption, the cold fluid in heat storage can (15) is in First Heat Exchanger (3) and the second heat exchanger (5) In be heated to form hot fluid, recycle the heat of compressed air and be stored in heat storage can (15).