CN102738815A - System and method for managing energy-storage equipment system - Google Patents

Abstract

The invention discloses a system and method for managing an energy-storage equipment system. The management system comprises an equipment monitoring module, an abnormity monitoring module, an energy-storage equipment access module, a local control management module and a concentrated control management module. The management method comprises the following steps: displaying a topological graph and the abnormal state of the energy-storage equipment system through the concentrated control management module; monitoring the whole energy-storage equipment system through the equipment monitoring module, and transmitting a monitoring result to the concentrated control management module; monitoring the running state of the energy-storage equipment system through the abnormity monitoring module, and transmitting the running state of the energy-storage equipment system to the concentrated control management module; and controlling the energy-storage equipment system. By using the management system and the management method, the technical problems that each type of distributed energy-storage equipment is required to be accessed into a power grid, and the energy storage equipment is relatively low in stability but power users have relatively high requirements on the power supply quality are solved.

Description

A kind of method of the systems and management that the energy storage device system is managed

Technical field

The method of the systems and management that the present invention relates to the energy storage device system is managed.

Background technology

In electric power system; Energy storage device is meant and utilizes the various electrical energy storage devices that are distributed in client, comprises lithium ion communicating battery, flywheel energy storage, capacitance energy storage etc., converts electric energy to other energy; And convert electric energy where necessary again to, get into electrical network through intelligent management system.

The notion of energy storage device is along with the development of the small-sized apparatus for storing electrical energy that disperses proposes.Development and the power autonomous increase of user along with the new forms of energy industry comprise that energy storage devices such as lithium ion communicating battery, flywheel energy storage, capacitance energy storage have had bigger growth.If a large amount of energy storage devices are directly incorporated power distribution network into, will bring series of new problems to the dispatching of power netwoks operation: energy storage device will be out of service immediately when electrical network breaks down; Energy storage device will intermittently influence peripheral user; Make that the adjustment of power distribution network voltage is complicated; Be easy to generate a large amount of harmonic waves, influence this regional quality of power supply; Bring difficulty to relay protection setting.

In order to address the above problem, through being combined as distribution subsystem to energy storage device and load together, energy storage device is carried out the monitoring of system, can effectively reduce the adverse effect that distributed discharge brings, bring into play its positive role simultaneously.

The energy storage device supervisory control system is advanced real time monitoring to little operation of power networks state; Comprise the voltage of microgrid system frequency, microgrid inlet, big online off line power; And the total discharge of real-time statistics microgrid is exerted oneself, energy storage residual capacity, the total burden with power of microgrid, total load or burden without work, sensitive load is always meritorious, controllable burden is always meritorious, it is total meritorious to excise load fully; Inner each circuit breaker switch state of supervision microgrid, each branch road have real time information such as the warning of reactive power, each equipment, little operation of power networks state, realize the real-time monitoring and the statistics of whole little electrical network.

The energy storage device supervisory control system adopts three layers of hierarchy of control; Promptly key-course, little electrical network centralized control layer, three aspects of power distribution network dispatch layer are carried out little electrical network and are comprehensively controlled on the spot from energy storage device respectively; (net that is incorporated into the power networks/leave/and from the net transition) stable state, transient state operation control under monitoring of the real time execution of distributed energy storage, other energy supplying systems and the little electrical network different conditions of two-way trend thereof, the while also comprises functions such as the two-way trend microgrid energy Balance Control, economical operation optimization of distributed energy storage, other energy supplying systems.

Summary of the invention

For solution needs all kinds of distributed energy storage devices are inserted electrical networks, the technical problem that while energy storage device less stable, power consumer are had relatively high expectations to power supply quality the invention provides a kind of method of the systems and management that the energy storage device system is managed.

The technical scheme that solves the problems of the technologies described above is:

A kind of system that the energy storage device system is managed comprises:

One monitoring of tools module is used to monitor whole energy storage device system;

One anomaly monitoring module is used to monitor the running status of energy storage device system;

One energy storage device AM access module is used for the intelligent allocation of analyzing and processing client side energy storage device system;

One control management module on the spot is used in each site controling management energy storage device system;

One concentrated controling management module is used for managing concentratedly in control centre the operation of whole energy storage device system.

The method that the energy storage device system is managed comprises:

The step that shows energy storage device system topological figure, abnormality through the concentrated controling management module;

Through the whole energy storage device of monitoring of tools module monitors system, and the result that will monitor sends the step in the concentrated controling management module to;

Through anomaly monitoring module monitors energy storage device system running state, and send the running status of energy storage device system in the concentrated controling management module step;

The step that the energy storage device system is controlled.

The invention provides a kind of system and method for efficient, easy-to-use, reliable energy storage device management, improve the reliability of energy storage device, accurately grasp the ruuning situation of each energy access point, energy storage device is carried out fine-grained management; Native system and method can make the energy storage device system more reliable, can improve the economic benefit that energy storage device inserts simultaneously again, reduce line loss; Native system and method help the science electricity consumption of society, energy-saving and emission-reduction again.

Description of drawings

Fig. 1 is the flow chart of management method of the present invention.

Embodiment

In order to make the object of the invention, technical scheme and advantage clearer,, the present invention is further elaborated below in conjunction with accompanying drawing and embodiment.Should be appreciated that specific embodiment described herein only in order to explanation the present invention, and be not used in qualification the present invention.

In embodiments of the present invention; Through the various kinds of equipment in the energy storage device system is carried out unified management; Through with lithium ion communicating battery, flywheel energy storage, capacitance energy storage, and carry out orderly management from net controller, little network load controller, energy storage device controller, cable network, wireless network, main website software systems etc.; Cooperate with each other, realize the system of complete energy storage device control.

This system that energy storage device system is managed comprises a centralized control module, a monitoring of tools module, an anomaly monitoring center, an energy storage device AM access module and one control module on the spot.

This centralized control module comprises the data base set application software of unifying, and utilizes intellectual analysis software, analyzes winding diagram, equipment state of distribution map, topological diagram and each distribution subsystem of whole energy storage device system etc.; And, analyze the energy storage and the discharge trend of each energy storage point according to real time data of collecting and historical data; The data that provides according to other related systems is analyzed the electricity consumption trend of this area and is predicted with electricity consumption, for the scheduling of energy storage device system provides reference scheme.Scheduling scheme sets monitoring module through adjustment and affirmation through sending this to after encrypting.

This monitoring of tools module adopts and gets access to the control command that obtains; Mode with ciphertext; The safe and reliable anomaly monitoring module that is transferred to; And pass through the anomalous event that the anomaly monitoring module obtains whole system, report centralized control module through designated lane, and notify the attendant with modes such as acousto-optics.The anomaly monitoring module is according to preset rule; Various kinds of equipment in the energy storage device system scope is carried out anomaly monitoring, and situation such as, electric voltage exception unusual to the antikinesis of each discharge equipment, energy storage device, overload operation, power factor are carried out real time monitoring; And, monitor command is carried out encryption and decryption according to the current MD5/SHA1 enciphering and deciphering algorithm of field of mobile communication.

This on the spot control module comprise at least in the lump from net controller module, a little power system controller module and a power-supply controller of electric module.Should and after the net controller module receives correct control command, to and open the operation of electricity/outage from net, to start its operation or to stop its operation.This little power system controller module 2 adopts the power scheduling instruction of standard, and equipment such as lithium ion communicating battery, flywheel energy storage, capacitance energy storage are carried out switch control, with in-situ balancing and the whole machine balancing that satisfies little operation of power networks, guarantees the stable of the quality of power supply.This power-supply controller of electric module is according to the rule that is provided with in advance and the instruction of centralized control module; Tou power price policy according to local Utilities Electric Co.; Control energy storage device Pinggu of avoiding the peak hour, to make full use of the preferential policy of tou power price, balanced society uses electric loading; Reduce electric energy loss, make supply of electrical energy keep balance in time.

As shown in Figure 1, the method that the energy storage device system is managed comprises:

The step that shows energy storage device system topological figure, abnormality through the concentrated controling management module.

Through the whole energy storage device of monitoring of tools module monitors system, and the result that will monitor sends the step in the concentrated controling management module to.

Through anomaly monitoring module monitors energy storage device system running state, and send the running status of energy storage device system in the concentrated controling management module step.

The step that the energy storage device system is controlled.

Wherein, the monitoring of tools module is responsible for monitoring the ruuning situation of all energy storage device systems, comprises discharge active power, reactive power, power factor, voltage and current.

The anomaly monitoring module is carried out real time monitoring to the running status of energy storage device; Comprise system frequency, microgrid inlet voltage, online power, off line power; The anomaly monitoring module is monitored each energy storage device system access point in real time, promptly reports to centralized control module in case note abnormalities.

The energy storage device system is continued to twist the step of controlling to be comprised:

Step S101, concentrated controling management module analysis need for electricity;

In this step; According to the rule that is provided with in advance; Obtain the electricity consumption data from the load management system of electric power system, dsm system, marketing automation system etc.; And collect various information such as weather forecast, occasion, festivals or holidays, the electricity consumption trend in the geographic coverage is analyzed and predicted, for the scheduling of energy storage device provides reference frame.

Step S102, the concentrated controling management module generates scheduling scheme;

In this step; This concentrated controling management module is according to the access point position of historical electricity consumption curve, load prediction in the recent period and energy storage device, discharge equipment power, primary energy type etc.; Automatically generate scheduling scheme, and can revise scheduling scheme by administrative staff.

Step S103, the instruction of monitoring of tools module transmitting and scheduling;

This centralized control module is given monitoring of tools module module with the scheduling scheme that generates through wired or wireless Network Transmission, and the transmission of signal gets into the energy storage device dedicated communications network.This centralized control module has been utilized advanced software engineering and database technology, with efficient, concurrent process mass user's concurrent use.This network control module is a multiple users share, can make full use of the transmission bandwidth of network, the investment that minimizing system to greatest extent builds.

Centralized control module is utilized wired or wireless network, is connected to the monitoring of tools module, and control command is sent with the mode of ciphertext, and the monitoring of tools module sends to the anomaly monitoring module with scheduling scheme with the mode of ciphertext; The anomaly monitoring module is imported signal into can equipment AM access module.When sending instruction, all kinds of passages be can adopt, optical fiber, dialing, carrier wave, 2G wireless network, 3G wireless network etc. comprised.On the upper strata of these networks, centralized control module is set up socket and is connected, and adopts the http agreement to transmit, and guarantees the reliability and the ease for maintenance of transmission means.

The management system of energy storage device system is crossed over three macroreticulars on communication channel, promptly wireless network, wired network and power network are closely connected the three, has one's own work to do again simultaneously.When control command spread out of from managing module concentratedly, signal was the mode of local area network (LAN); Behind the access arrangement monitoring module, signal transmits on media such as optical fiber, dialing, carrier wave, wireless network; After getting into energy storage device AM access module, signal transmits on electric power networks.Just because of this; Special processing has been done by system in the reliability of signal transmission, fail safe; Comprise the optimum passage of automatic selection, signal message is encrypted, user's identity is carried out strict authentication, power carrier signal is carried out CRC check etc.; Thereby guarantee the transmission that control signal can be accurate, safe, avoid dropout, misinformation, avoid disabled user's use.

The present invention has certain perspective on system architecture and network organization mode, and the combination of cordless communication network and wireline communication network on the means of communication is with the advance that guarantees system and the validity of investment.System design system of the present invention not only can adopt present widely used GPRS and CDMA, and can use 3G communication, comprises TD-CDMA, CDMA2000, WCDMA etc.

In whole data communication process, adopt the tcp/ip communication agreement, the various intermediate layers of maskable agreement, from this centralized control module 10 to this on the spot the communication of control module 14 can be wide area network the transmission of data.Owing to adopt data W EB method of service based on the J2EE framework; Can avoid directly utilizing the Socket communication of bottom; The relevant international standard that meets HTTP1.1 and DATA Service; The data of transmission can be effectively through the various safety means in the wide area network, and data are through digital signature simultaneously, and itself fail safe and integrality also are guaranteed.

The concurrent transmission solution of data: the concurrent transmission of data is big bottlenecks of general network application system; Because a big system has the basic unit of huge amount to use in practical application, the prerequisite that guarantees the high-transmission success rate is the communication blocking that solves concurrent transmission.The present invention adopts the J2EE+Web service to constitute; Be the data acquisition and the data, services releasing software framework based on J2EE framework basis of enterprise-level; This system can support concurrent transmission of high-intensity data and data, services, supports the mass data inquiry, has high practicality.Wherein include four big core technologies:

1, J2EE linked system: the J2EE linked system provides the standard card cage of the EIS system integration that exists in J2EE application and the enterprise.

2, JMS (Java information service): the Java information service is a standard program interface of supporting communication system for enterprise, and purpose is to provide the common interface of the dissimilar communication systems of leap.After the Java application program utilized the communication system of JMS API and enterprise to be connected, the function that application program just can utilize communication system to provide was created and is sent message, reaches the purpose with other application system asynchronous communication.

3, JDBC API: it is the standard interface integrated with system R.Application program obtains other database function of database connection, data query and execution with this interface.

4, Web Services: allow EIS that some service access points are provided, new application can be obtained data through these points, also can submit data to.

Step S104, control management module is security verified on the spot;

This on the spot control module according to preset rule control command is resolved; And, instruction is deciphered according to the current MD5/SHA1 enciphering and deciphering algorithm of communication field; According to the information of operator's input, verify its legitimacy, whether inspection has the authority of control energy device; If do not possess authority, then return the signal of refusal control to the operator through network, pass through if verify; Then generate the working control instruction, send to each quasi-controller.

Step S105 drives the energy storage device access point;

This energy storage device AM access module 13 can adopt multiple mode to carry out communication, comprises optical fiber, dialing, low-voltage power carrier, small wireless network, WIFI network etc., can fully adapt to various environment, utilizes existing network channel.Control module is promptly carried out decoding operation after the instruction that the indoor control module of acquisition is sent on the spot, converts digital signal to control switch required analog signal.Wherein analog signal is the frequency range of automatically selecting, and interferes with each other between a plurality of modules preventing.

Step S106, control energy storage device system switching;

In this step, should and leave net controller, little power system controller according to control signal, energy storage device is opened electricity/power operation, finally realize the control of energy storage device.For the result of control, be divided into two kinds of situation of success and failure, module produces signal in the back that makes marks, and returns to energy storage device AM access module.Power supply AM access module is according to return results, and the internet channel through original returns to centralized control module, the notifying operation person.

In the present invention, this method can comprise: direct voltage, electric current, power through the operational factor of every energy storage device of communication network monitoring; Temperature in alternating voltage, the electric current, energy storage device, clock, frequency, power factor, current discharge power, day discharge capacity, accumulated discharge amount, day discharge power curve chart.

The management system of energy storage device of the present invention system is utilized the advanced communication technology, computer and network technology, for energy storage device inserts, the access of all kinds of distributed power source point provides a practicable solution.It can make full use of all kinds of communication medias; Make the manager can grasp the information such as storage electric weight of energy storage capacity He each energy storage device of each energy storage device anywhere or anytime; Can carry out system, overall situation control to energy storage device, also can the configuration scheduling scheme, to each power supply point Pinggu of avoiding the peak hour; Reduce energy resource consumption, improve power supply quality.Application of the present invention is mainly the electric load peak valley and differs greatly, and the area that the quality of power supply is had relatively high expectations.

From the above, the present invention is based on communication modes such as optical fiber, power carrier, small wireless, WIFI, 3G and come Data transmission; And, solve concurrent transmission bottleneck problem based on the data, services of J2EE framework, data, services and the data verification of powerful Web Data Service based on J2EE are provided.Adopt the present invention; The operation cost of energy storage device supervisory control system is reduced greatly, and reliability and fail safe are greatly improved, and make system really have practicality; Improve the discharge management automatization level of final energy storage device, promote the orderly development of power supply, distribution, electricity consumption each side.

In sum; The invention solves and existingly in the prior art should all kinds of energy storage devices be inserted electrical networks; Solve the communication modes complicacy again, energy stabilizing property is relatively poor, to power supply quality contradictory problems such as have relatively high expectations, and solves the problem that when number of devices is huge, is prone to cause network congestion simultaneously.To field apparatus; Through before the network sending controling instruction, earlier control command is carried out password authentification and MD5/SHA1 encryption, in whole transmission course, all use encrypted test mode; And make full use of passages such as optical fiber, 3G network, WiFi, local area network (LAN); Thereby make full use of Internet resources, avoid network congestion, fully guarantee the integrality and the fail safe of control command simultaneously.Wherein, main station system adopts the method for J2EE+WebService, uses the Weblogic middleware system, can support the access of 1000～3000 energy devices simultaneously, adapts to the energy storage device management of domestic all regions.

The above is merely preferred embodiment of the present invention, not in order to restriction the present invention, all any modifications of within spirit of the present invention and principle, being done, is equal to and replaces and improvement etc., all should be included within protection scope of the present invention.

Claims (9)

1. the system that the energy storage device system is managed is characterized in that, comprising:

One monitoring of tools module is used to monitor whole energy storage device system;

One anomaly monitoring module is used to monitor the running status of energy storage device system;

One energy storage device AM access module is used for the intelligent allocation of analyzing and processing client side energy storage device system;

One control management module on the spot is used in each site controling management energy storage device system;

One concentrated controling management module is used for managing concentratedly in control centre the operation of whole energy storage device system.

2. the system that the energy storage device system is managed as claimed in claim 1; It is characterized in that: further comprise a circuit breaker and reactive power monitor module; This reactive power monitor module utilizes wired or wireless transmission means that circuit breaker is carried out remote monitoring, and the power circuit reactive power is monitored in real time.

3. the system that the energy storage device system is managed as claimed in claim 1 is characterized in that: this various physical channel of monitoring of tools module adaptive comprises cable LAN, wireless network or the Internet.

4. the system that the energy storage device system is managed as claimed in claim 1 is characterized in that: this multiple physical channel of anomaly monitoring module adaptive comprises carrier communication, indoor small wireless or ZigBee.

5. method that the energy storage device system is managed is characterized in that: comprising:

The step that shows energy storage device system topological figure, abnormality through the concentrated controling management module;

Through the whole energy storage device of monitoring of tools module monitors system, and the result that will monitor sends the step in the concentrated controling management module to;

Through anomaly monitoring module monitors energy storage device system running state, and send the running status of energy storage device system in the concentrated controling management module step;

The step that the energy storage device system is controlled.

6. the method that the energy storage device system is managed as claimed in claim 5 is characterized in that: the energy storage device system is continued to twist the step of controlling comprise:

Step S101, concentrated controling management module analysis need for electricity;

In this step; According to the rule that is provided with in advance; Obtain the electricity consumption data from load management system, dsm system, the marketing automation system of electric power system; And collect weather forecast, occasion, festivals or holidays various information, the electricity consumption trend in the geographic coverage is analyzed and predicted, for the scheduling of energy storage device system provides reference frame;

Step S102, the concentrated controling management module generates scheduling scheme;

In this step, this concentrated controling management module generates scheduling scheme automatically according to access point position, discharge equipment power, the primary energy type of historical electricity consumption curve, load prediction in the recent period and energy storage device system.

7. step S103, the instruction of monitoring of tools module transmitting and scheduling;

In this step, this centralized control module is given the monitoring of tools module with the scheduling scheme that generates through wired or wireless Network Transmission; The monitoring of tools module sends to the anomaly monitoring module with scheduling scheme with the mode of ciphertext; The anomaly monitoring module is imported signal the AM access module of into ability equipment;

Step S104, control management module is security verified on the spot;

This on the spot control module according to preset rule, to resolving from the control command of anomaly monitoring module; And, instruction is deciphered according to the current MD5/SHA1 enciphering and deciphering algorithm of communication field; According to the information of operator's input, verify its legitimacy, whether inspection has the authority of control energy device; If do not possess authority, then return the signal of refusal control to the operator through network, pass through if verify; Then generate the working control instruction, by control management module execution on the spot;

Step S105 drives the energy storage device access point;

Control module is promptly carried out decoding operation after the instruction that the indoor control module of acquisition is sent on the spot, converts digital signal to control switch required analog signal;

Step S106, control energy storage device system switching;

In this step, control module is opened electricity or outage according to control command to the energy storage device system on the spot.

8. the method that the energy storage device system is managed as claimed in claim 5 is characterized in that:

The monitoring of tools module is responsible for monitoring the ruuning situation of all energy storage device systems, comprises discharge active power, reactive power, power factor, voltage and current;

The anomaly monitoring module is carried out real time monitoring to the running status of energy storage device; Comprise system frequency, microgrid inlet voltage, online power, off line power; The anomaly monitoring module is monitored each energy storage device system access point in real time, promptly reports to centralized control module in case note abnormalities.

9. the method that the energy storage device system is managed as claimed in claim 5 is characterized in that: the step that the energy storage device system is controlled adopts the differentiated control pattern, and concrete steps are:

Discharge in the energy storage device system is on-the-spot, and control module on the spot is installed, and monitors discharge equipment in real time;

Control module comprises and leaves net controller, little power system controller, power-supply controller of electric on the spot, in case communication network breaks down, control module still can be carried out complete on-site supervision on the spot;

Energy storage device AM access module connects control module on the spot through communication port, through communication network energy storage device is formed a total system, unifies to keep watch on and control;

The method that the energy storage device system is managed as claimed in claim 5 is characterized in that: this method can comprise: direct voltage, electric current, power through the operational factor of every energy storage device of communication network monitoring; Temperature in alternating voltage, the electric current, energy storage device, clock, frequency, power factor, current discharge power, day discharge capacity, accumulated discharge amount, day discharge power curve chart.