CN109301875A - Comprehensive energy dispatches system - Google Patents

Abstract

The embodiment of the present application provides a kind of comprehensive energy scheduling system, generation of electricity by new energy subsystem, water electrolysis hydrogen production module and fuel cell power generation module are provided with using modular, generation of electricity by new energy subsystem can be by the electrical energy transportation of generation to water electrolysis hydrogen production module, water electrolysis hydrogen production module is handled to prepare hydrogen water resource using the electric energy of offer, and it is delivered to fuel cell power generation module, and hydrogen can be also delivered to outside hydrogen storage equipment when there is demand.Fuel cell power generation module can be produced electricl energy using hydrogen, high-temperature tail gas and high-temperature water, the electric energy of generation can transport to the external power load of connection, and it is also can transport when having a surplus electricity to scheduling power grid, high-temperature tail gas and high-temperature water, which can transport to external heating equipment or external cooling equipment, high-temperature water, can also directly feed external supply equipment.The comprehensive energy dispatch system can depth dissolve clean energy resource, and meet the energy demands such as hydrogen manufacturing, heat supply, remaining electricity online.

Description

Comprehensive energy dispatches system

Technical field

The present invention relates to energy scheduling technical fields, dispatch system in particular to a kind of comprehensive energy.

Background technique

As China is to the further requirement of energy-saving and emission-reduction, new energy substitution, clean energy resource accounting is steady in energy resource structure Step is promoted.While clean energy resource tremendous development, but there is the consumption of clean energy resource in certain clean energy resource areas abundant Problem." abandon water, abandon light " phenomenon largely exists, and becomes the outstanding problem for restricting the development of China's clean energy resource.Such phenomenon is long-term Do not improved, the reason is that wind-powered electricity generation and photovoltaic power generation power output are weaker without certainty, water power modulability, it is electric at present Force system cannot still adapt to the extensive access and consumption of clean energy resource completely, be cause " abandon water, abandon light " major reason it One.As China's energy-consuming upgrades, water power, photovoltaic power generation installation scale by further expansion, the consumption of renewable energy Bigger pressure will be faced.Especially not only made in the phenomenon that area for having abundant water power and photovoltaic power generation resource, " abandon water, abandon light " At the waste of resource, the cost of generation of electricity by new energy is also increased, the serious production for influencing such regional new energy Structure.

In order to dissolve clean energy resource more than needed, in addition to the promotion of national policy, the policies such as the preferential online valence of clean energy resource are given Outside, the angle also sent outside from power supply carries out the consumption problem of clean energy resource.But the construction of Net Frame of Electric Network and section needs are huge Big manpower and material resources, for the area and province that need to solve clean energy resource consumption, lacking one kind at present can depth consumption Local clean energy resource, and the system that can realize comprehensive energy service.

Summary of the invention

In view of this, the purpose of the application is, a kind of comprehensive energy scheduling system is provided to improve the above problem.

The embodiment of the present application provides a kind of comprehensive energy scheduling system, and the comprehensive energy scheduling system includes new energy hair Electronic system, water electrolysis hydrogen production module and fuel cell power generation module；

The generation of electricity by new energy subsystem is for producing electricl energy and by the electrical energy transportation of generation to the water electrolysis hydrogen production mould Block；

The water electrolysis hydrogen production module is handled water resource using the electric energy that the generation of electricity by new energy subsystem provides To prepare hydrogen, the hydrogen of preparation is delivered to the fuel cell power generation module and outside hydrogen storage equipment；

The fuel cell power generation module utilizes the hydrogen received to produce electricl energy, and generates high-temperature tail gas and height Warm water by the electrical energy transportation of generation to the external power load connecting with the fuel cell power generation module and/or dispatches power grid, The high-temperature tail gas of generation and high-temperature water are delivered to external heating equipment or external cooling equipment, and the high-temperature water of generation is conveyed To external supply equipment.

Optionally, the comprehensive energy scheduling system further includes cold and heat supply equipment, heat supply pipeline and cooling supply pipeline；

The cold and heat supply equipment is used to receive the high-temperature tail gas of the fuel cell power generation module conveying, utilizes the height Warm tail gas carries out refrigerating operation or heating operation, and the heat that heating operation obtains is delivered to external confession by the heat supply pipeline Hot equipment, the cold air that refrigerating operation is obtained pass through the cooling supply pipeline to external cooling equipment.

Optionally, the fuel cell power generation module includes container and multiple fuel cell piles, the multiple fuel Battery stack is concentrated using skid-mounted type mode and is installed in the container.

Optionally, the container is multiple, is installed with multiple fuel cell piles in each container.

Optionally, hydrogen gas compressor, water supply pump and tail gas dissipative system are additionally provided in the container；

The hydrogen gas compressor is used to be delivered to the fuel cell after the hydrogen received is carried out compression processing Pile；

The high-temperature water that the water supply pump is used to generate the fuel cell pile passes through supplying hot water pipeline to institute State external supply equipment；

The hydrogeneous discarded tail gas that the tail gas dissipative system is used to generate the fuel cell pile discharges.

Optionally, the comprehensive energy scheduling system further includes DC/AC control module, the DC/AC control module and institute The output end connection of fuel cell power generation module is stated, the direct current for generating to the fuel cell power generation module is converted After be input to the external power load.

Optionally, the comprehensive energy scheduling system further includes control platform and Internet of Things communication module, the Internet of Things Communication module respectively with the control platform and the generation of electricity by new energy subsystem, water electrolysis hydrogen production module, fuel cell power generation Module connection；

The Internet of Things communication module is for acquiring the generation of electricity by new energy subsystem, water electrolysis hydrogen production module, fuel electricity The operation data of pond electricity generation module, and the operation data is sent to the control platform；

The control platform passes through the Internet of Things Netcom for being analyzed and processed to the operation data received Believe that module sends control instruction to the generation of electricity by new energy subsystem, water electrolysis hydrogen production module and fuel cell power generation module.

Optionally, the Internet of Things communication module is bluetooth module, WIFI module, Zigbee module or 4G network module.

Optionally, the fuel cell power generation module is MW class electricity generation module.

Optionally, the generation of electricity by new energy subsystem includes wind-power electricity generation subsystem, hydroelectric generation subsystem and photovoltaic hair At least one of electronic system.

Comprehensive energy provided by the embodiments of the present application dispatches system, is provided with generation of electricity by new energy using modular System, water electrolysis hydrogen production module and fuel cell power generation module, generation of electricity by new energy subsystem can be by the electrical energy transportations of generation to electricity Water hydrogen manufacturing module is solved, water electrolysis hydrogen production module is handled to prepare hydrogen water resource using the electric energy of offer, and is delivered to Fuel cell power generation module, and hydrogen can be also delivered to outside hydrogen storage equipment when there is demand.Fuel cell power generation module can Produced electricl energy using hydrogen, high-temperature tail gas and high-temperature water, the electric energy of generation can transport to the external power load of connection, and Have a surplus electricity when also can transport to scheduling power grid, high-temperature tail gas and high-temperature water can transport to external heating equipment or external cooling supply and set Standby, high-temperature water can also directly feed external supply equipment.The comprehensive energy dispatch system can depth dissolve clean energy resource, and meet The energy demands such as hydrogen manufacturing, heat supply, remaining electricity online.

To enable the above objects, features and advantages of the present invention to be clearer and more comprehensible, preferred embodiment is cited below particularly, and cooperate Appended attached drawing, is described in detail below.

Detailed description of the invention

In order to illustrate the technical solution of the embodiments of the present invention more clearly, below will be to needed in the embodiment attached Figure is briefly described, it should be understood that the following drawings illustrates only certain embodiments of the present invention, therefore is not construed as pair The restriction of range for those of ordinary skill in the art without creative efforts, can also be according to this A little attached drawings obtain other relevant attached drawings.

Fig. 1 is the schematic block diagram that comprehensive energy provided by the embodiments of the present application dispatches system.

Fig. 2 is another schematic block diagram that comprehensive energy provided by the embodiments of the present application dispatches system.

Fig. 3 is the schematic diagram of fuel cell power generation module provided by the embodiments of the present application.

Fig. 4 is another schematic block diagram that comprehensive energy provided by the embodiments of the present application dispatches system.

Icon: 10- generation of electricity by new energy subsystem；100- wind-power electricity generation subsystem；200- hydroelectric generation subsystem；300- light Lie prostrate power generation sub-system；20- water electrolysis hydrogen production module；30- fuel cell power generation module；31- fuel cell pile；32- container； 40- cold and heat supply equipment；51- heat supply pipeline；52- cooling supply pipeline；53- heat supply waterpipe；60-DC/AC control module；70- object Connected network communication module；80- control platform.

Specific embodiment

Below in conjunction with attached drawing in the embodiment of the present invention, technical solution in the embodiment of the present invention carries out clear, complete Ground description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.Usually exist The component of the embodiment of the present invention described and illustrated in attached drawing can be arranged and be designed with a variety of different configurations herein.

Therefore, the detailed description of the embodiment of the present invention provided in the accompanying drawings is not intended to limit below claimed The scope of the present invention, but be merely representative of selected embodiment of the invention.Based on the embodiment of the present invention, those skilled in the art Member's every other embodiment obtained without making creative work, shall fall within the protection scope of the present invention.

It should also be noted that similar label and letter indicate similar terms in following attached drawing, therefore, once a certain Xiang Yi It is defined in a attached drawing, does not then need that it is further defined and explained in subsequent attached drawing.

Referring to Fig. 1, the embodiment of the present application provides a kind of comprehensive energy scheduling system, the comprehensive energy dispatches system packet Include generation of electricity by new energy subsystem 10, water electrolysis hydrogen production module 20 and fuel cell power generation module 30.Generation of electricity by new energy System 10 can be used for producing electricl energy and by the electrical energy transportation of generation to the water electrolysis hydrogen production module 20.

The water electrolysis hydrogen production module 20 carries out water resource using the electric energy that the generation of electricity by new energy subsystem 10 provides The hydrogen being prepared is delivered to the fuel cell power generation module 30 and outside hydrogen storage equipment to prepare hydrogen by processing.

The fuel cell power generation module 30 using the hydrogen received to produce electricl energy, and generate high-temperature tail gas and High-temperature water, by the electrical energy transportation of generation to the external power load and/or scheduling being connect with the fuel cell power generation module 30 The high-temperature tail gas of generation and high-temperature water are delivered to external heating equipment or external cooling equipment by power grid, and by the high temperature of generation Water is delivered to external supply equipment.

Above-mentioned modular design is used in the present embodiment, owner can determine modularization according to field demand System, quickly and efficiently complete design scheme and in-site installation.

In the present embodiment, the generation of electricity by new energy subsystem 10 can include but is not limited to, wind-power electricity generation subsystem 100, at least one of hydroelectric generation subsystem 200 and photovoltaic power generation subsystem 300.The generation of electricity by new energy subsystem 10 can Include individually wind-power electricity generation subsystem 100 or hydroelectric generation subsystem 200 or photovoltaic power generation subsystem 300, is also possible to wrap Any two kinds therein are included, or including above-mentioned three kinds, specifically the present embodiment is with no restrictions.

Wherein, wind-power electricity generation subsystem 100 can be generated electricity using wind resource, and the electrical energy transportation of generation is extremely electrolysed Water hydrogen manufacturing module 20.Hydroelectric generation subsystem 200 can be generated electricity using water resource, and the electrical energy transportation of generation is extremely electrolysed Water hydrogen manufacturing module 20.Similarly, photovoltaic power generation subsystem 300 can be carried out power generation using the sun, and by the electrical energy transportation of generation To water electrolysis hydrogen production module 20.

In the present embodiment, fuel cell power generation module 30 can be using hydrogen caused by water electrolysis hydrogen production module 20 to generate Electric energy, wherein the electric energy of generation can transport to the external power load connecting with fuel cell power generation module 30, such as near The electrical equipment of industrial park, and/or scheduling power grid is delivered to carry out electric energy scheduling.For example, during peak of power consumption on daytime, Electric energy caused by fuel cell power generation module 30 can meet dispatching requirement first and be fed directly to scheduling power grid.Fuel cell hair A part of electric energy that electric module 30 generates can transport the use of the industrial park near connecting with fuel cell power generation module 30 Electric equipment.Meanwhile the high-temperature tail gas and high-temperature water of generation can meet heat supply, cooling supply and the water requirements of user.And electrolysis water system The hydrogen that hydrogen module 20 generates can also meet the needs of industrial park hydrogen, and can also be provided to hydrogenation stations etc. is new energy vapour Vehicle provides demand for fuel.

In the present embodiment, the high-temperature water that fuel cell power generation module 30 generates can directly participate in industrial water or be supplied to User makees domestic water, can also participate in heating system, using as supplying heat source be user's heat supply.

At night during low power consumption, photovoltaic power generation subsystem 300 will stop generating electricity, and water power more than needed obviously increases compared with daytime It is more, at this point, hydrogen prepared by water electrolysis hydrogen production module 20 will be fed into fuel cell power generation module 30 to produce electricl energy, the electricity of generation It can will meet the power demand of industrial park nearby.Also, high-temperature tail gas, the high-temperature water generated can meet the heat supply of user, supply Cold and water requirements.

Please refer to Fig. 2, in the present embodiment, comprehensive energy scheduling system further include cold and heat supply equipment 40, Heat supply pipeline 51 and cooling supply pipeline 52.The cold and heat supply equipment 40 is used to receive what the fuel cell power generation module 30 conveyed High-temperature tail gas carries out refrigerating operation or heating operation using the high-temperature tail gas, and the heat that heating operation is obtained passes through described Heat supply pipeline 51 is delivered to external heating equipment, and the cold air that refrigerating operation obtains is delivered to outside by the cooling supply pipeline 52 Cooling equipment.In the present embodiment, the cold and heat supply equipment 40 includes lithium bromide air-conditioning system.

Referring to Fig. 3, in the present embodiment, the fuel cell power generation module 30 includes container 32 and multiple fuel electricity Pond pile 31, the multiple fuel cell pile 31 are concentrated using skid-mounted type mode and are installed in the container 32.Wherein, institute Stating container 32 can be to be multiple, such as 3 or 4, is installed with multiple fuel cell piles 31, Fig. 3 in each container 32 In schematically illustrate comprising two containers 32, include the fuel cell of 6 fuel cell piles 31 in each container 32 Electricity generation module 30.

Fuel cell pile 31 is concentrated in container 32 using skid-mounted type mode in the present embodiment, is conducive to fuel electricity The rapid deployment of pond electricity generation module 30 reduces basic building materials expenditure, reduces O&M cost.

In the present embodiment, the hydrogen that fuel cell pile 31 is prepared using water electrolysis hydrogen production module 20 as fuel, and The energy released when in conjunction with the oxygen in air to generate chemical reaction, and transform it into electric energy.Traditional battery is general Be the active material of battery is previously placed in inside battery, thus the capacity of battery depend on storage active material amount, therefore And the capacity of traditional battery is usually limited.And the active material of fuel cell pile 31 be reaction while constantly Input, thus, this kind of battery is actually energy conversion device, and with high conversion efficiency, capacity is big, specific energy is high, function The advantages that rate range is wide.

Optionally, hydrogen gas compressor, water supply pump and tail gas dissipative system are additionally provided in the container 32.

The hydrogen gas compressor is used to be delivered to the fuel cell after the hydrogen received is carried out compression processing Pile 31.The water supply pump is used to for the high-temperature water that the fuel cell pile 31 generates being delivered to by heat supply waterpipe 53 The external supply equipment.The tail gas dissipative system is used for the hydrogeneous discarded tail gas that will generate the fuel cell pile 31 It is discharged, the danger for generating explosion is assembled to avoid hydrogen.

In addition, some electrical control equipments and air-conditioning equipment etc. are provided in the container 32, to control to system System.Feeding, water system and the vent gas treatment associated conduit composition pipe in the fuel power station that entire fuel cell power generation module 30 is constituted Corridor system.

In the present embodiment, the fuel cell power generation module 30 is MW class electricity generation module, may be, for example, 10MW or 20MW Deng.

Please refer to Fig. 4, in the present embodiment, the comprehensive energy scheduling system further includes DC/AC control module 60, institute It states DC/AC control module 60 to connect with the output end of the fuel cell power generation module 30, for the fuel cell power generation The direct current that module 30 generates is input to the external power load after being converted.

Optionally, the comprehensive energy scheduling system further includes control platform 80 and Internet of Things communication module 70, the object Connected network communication module 70 respectively with the control platform 80 and the generation of electricity by new energy subsystem 10, water electrolysis hydrogen production module 20, Fuel cell power generation module 30 connects.

The Internet of Things communication module 70 for acquire the generation of electricity by new energy subsystem 10, water electrolysis hydrogen production module 20, The operation data of fuel cell power generation module 30, and the operation data is sent to the control platform 80.

The control platform 80 passes through the Internet of Things for being analyzed and processed to the operation data received Communication module 70 sends to the generation of electricity by new energy subsystem 10, water electrolysis hydrogen production module 20 and fuel cell power generation module 30 and controls System instruction.

By above-mentioned setting, the operation data of whole system is collected using control platform 80, to running situation into Row monitoring, by being analyzed and processed to system operation data to be judged system operation mode and optimize operation.

Optionally, in the present embodiment, the Internet of Things communication module 70 is bluetooth module, WIFI module, Zigbee module Or 4G network module.Wireless communication mode is used in the present embodiment, and control platform 80 is acquired and be uploaded to system parameter, Comprehensive energy service is managed, can according to requirements of the owner and peaking demand of power grid, be adjusted flexibly heat supply, cooling supply, power supply and The requirement of hydrogen supply.Control platform 80 can be assessed according to the operating status of system to reach the production of maximal efficiency, played The purpose of real energy-saving and emission-reduction.

In conclusion comprehensive energy provided by the embodiments of the present application dispatches system, it is provided with newly using modular Energy power generation sub-system 10, water electrolysis hydrogen production module 20 and fuel cell power generation module 30, generation of electricity by new energy subsystem 10 can incite somebody to action The electrical energy transportation of generation to water electrolysis hydrogen production module 20, water electrolysis hydrogen production module 20 using the electric energy of offer to water resource at Reason is delivered to fuel cell power generation module 30, and hydrogen can be also delivered to outside hydrogen when there is demand to prepare hydrogen Equipment.Fuel cell power generation module 30 can be produced electricl energy using hydrogen, high-temperature tail gas and high-temperature water, the electric energy of generation can transport to The external power load of connection, and also can transport when having a surplus electricity to scheduling power grid, high-temperature tail gas and high-temperature water can transport to External heating equipment or external cooling equipment, high-temperature water can also directly feed external supply equipment.The comprehensive energy dispatches system Can depth dissolve clean energy resource, and meet the energy demands such as hydrogen manufacturing, heat supply, remaining electricity online.Also, alternating current peak load shifting can be met Requirement.

Further, hydrogen manufacturing is hydrolyzed using the electric energy for abandoning water, abandoning light in comprehensive energy scheduling system provided by the present application, Stable electric generation and the production that fuel cell power generation module 30 is carried out in addition to meeting, can also meet the needs of periphery owner is to hydrogen, Future can also meet the demand for fuel of hydrogen fuel automobile, favorably promote the development of Hydrogen Energy industry.

In the description of the present invention, it is also necessary to which explanation is unless specifically defined or limited otherwise, term " setting ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or be integrally connected.It can be Mechanical connection, is also possible to be electrically connected.It can be directly connected, two can also be can be indirectly connected through an intermediary Connection inside element.For the ordinary skill in the art, above-mentioned term can be understood in the present invention with concrete condition In concrete meaning.

In the description of the present invention, it should be noted that the orientation or positional relationship of the instructions such as term " on ", "lower" is base In orientation or positional relationship shown in the drawings or the invention product using when the orientation or positional relationship usually put, only It is that for the convenience of describing the present invention and simplifying the description, rather than the device or element of indication or suggestion meaning must have specifically Orientation is constructed and operated in a specific orientation, therefore is not considered as limiting the invention.

The foregoing is only a preferred embodiment of the present invention, is not intended to restrict the invention, for the skill of this field For art personnel, the invention may be variously modified and varied.All within the spirits and principles of the present invention, made any to repair Change, equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.

Claims (10)

1. a kind of comprehensive energy dispatches system, which is characterized in that the comprehensive energy scheduling system includes generation of electricity by new energy subsystem System, water electrolysis hydrogen production module and fuel cell power generation module；

The generation of electricity by new energy subsystem is for producing electricl energy and by the electrical energy transportation of generation to the water electrolysis hydrogen production module；

The electric energy that the water electrolysis hydrogen production module is provided using the generation of electricity by new energy subsystem handles to make water resource Standby hydrogen, is delivered to the fuel cell power generation module and outside hydrogen storage equipment for the hydrogen of preparation；

The fuel cell power generation module utilizes the hydrogen received to produce electricl energy, and generates high-temperature tail gas and high temperature Water will by the electrical energy transportation of generation to the external power load and/or scheduling power grid that connect with the fuel cell power generation module The high-temperature tail gas and high-temperature water of generation are delivered to external heating equipment or external cooling equipment, and the high-temperature water of generation is delivered to External supply equipment.

2. comprehensive energy according to claim 1 dispatches system, which is characterized in that the comprehensive energy scheduling system is also wrapped Include cold and heat supply equipment, heat supply pipeline and cooling supply pipeline；

The cold and heat supply equipment is used to receive the high-temperature tail gas of the fuel cell power generation module conveying, utilizes the high temperature tail Gas carries out refrigerating operation or heating operation, and the heat that heating operation obtains is delivered to external heating by the heat supply pipeline and is set Standby, the cold air that refrigerating operation is obtained passes through the cooling supply pipeline to external cooling equipment.

3. comprehensive energy according to claim 1 dispatches system, which is characterized in that the fuel cell power generation module includes Container and multiple fuel cell piles, the multiple fuel cell pile are concentrated using skid-mounted type mode and are installed in the packaging In case.

4. comprehensive energy according to claim 3 dispatches system, which is characterized in that the container be it is multiple, it is each described Multiple fuel cell piles are installed in container.

5. comprehensive energy according to claim 3 dispatches system, which is characterized in that be additionally provided with hydrogen in the container Compressor, water supply pump and tail gas dissipative system；

The hydrogen gas compressor is used to be delivered to the fuel cell pile after the hydrogen received is carried out compression processing；

The water supply pump is used for the high-temperature water that generates the fuel cell pile by supplying hot water pipeline to described outer Portion's supply equipment；

The hydrogeneous discarded tail gas that the tail gas dissipative system is used to generate the fuel cell pile discharges.

6. comprehensive energy according to claim 1 dispatches system, which is characterized in that the comprehensive energy scheduling system is also wrapped DC/AC control module is included, the DC/AC control module is connect with the output end of the fuel cell power generation module, for institute It states and is input to the external power load after the direct current that fuel cell power generation module generates is converted.

7. comprehensive energy according to claim 1 dispatches system, which is characterized in that the comprehensive energy scheduling system is also wrapped Control platform and Internet of Things communication module are included, the Internet of Things communication module is sent out with the control platform and the new energy respectively Electronic system, water electrolysis hydrogen production module, the connection of fuel cell power generation module；

The Internet of Things communication module is for acquiring the generation of electricity by new energy subsystem, water electrolysis hydrogen production module, fuel cell hair The operation data of electric module, and the operation data is sent to the control platform；

The control platform passes through the Internet of Things Network Communication mould for being analyzed and processed to the operation data received Block sends control instruction to the generation of electricity by new energy subsystem, water electrolysis hydrogen production module and fuel cell power generation module.

8. comprehensive energy according to claim 7 dispatches system, which is characterized in that the Internet of Things communication module is bluetooth Module, WIFI module, Zigbee module or 4G network module.

9. comprehensive energy according to any one of claims 1 to 8 dispatches system, which is characterized in that the fuel cell hair Electric module is MW class electricity generation module.

10. comprehensive energy according to any one of claims 1 to 8 dispatches system, which is characterized in that the new energy hair Electronic system includes at least one of wind-power electricity generation subsystem, hydroelectric generation subsystem and photovoltaic power generation subsystem.