CN114629243A - Integrated energy storage power station monitoring platform server, monitoring system and monitoring method - Google Patents

Abstract

The invention relates to a monitoring platform server, a monitoring system and a monitoring method of an integrated energy storage power station, wherein the monitoring platform server of the integrated energy storage power station comprises a management layer, an application program layer and a platform layer; the management layer is used for providing a graphical user interface for a user, the graphical user interface provides a control and a display window for calling a corresponding program of the application program layer, and the graphical user interface comprises a plan curve management module, a monitoring function module and a control function module; the application program layer is used for providing a program interface for the management layer, establishing a corresponding relation with each control of the image user interface and realizing the calling, responding and processing of the corresponding program. The integrated energy storage power station monitoring platform server can realize integrated cooperative control of different types of energy storage systems, realize personalized configuration, has strong compatibility and can be flexibly suitable for energy storage power stations with different structures; the running states of all levels of equipment of the energy storage power station can be finely monitored and managed, and a more flexible running mode is provided for the energy storage power station.

Description

Integrated energy storage power station monitoring platform server, monitoring system and monitoring method

Technical Field

The invention relates to the technical field of intelligent power stations, in particular to a monitoring platform server, a monitoring system and a monitoring method of an integrated energy storage power station.

Background

In recent years, battery energy storage power stations have been increasingly applied to the power industry due to the advantages of high energy storage density, flexible site selection, convenience in installation, stability in operation and the like. In a large-capacity centralized battery energy storage power station, an energy storage system is generally configured independently according to an energy type and a power type, the former is used for realizing peak clipping and valley filling, and the latter is used for realizing functions of power grid frequency modulation, power emergency control and the like.

The intelligent power station is a key carrier for intelligent power grid development, the existing energy storage power station monitoring system lacks of unified management of different energy storage power stations, the running states of all levels of equipment in the station cannot be monitored in real time, and when abnormality occurs, the operation and maintenance efficiency is low, the difficulty is high, and therefore an integrated monitoring platform is urgently needed to be established. And prior art's energy storage power station monitoring platform server generally customizes to the energy storage power station of specific structure, to the energy storage power station of isostructure, especially the energy storage power station of configuration energy type and power type battery energy storage unit simultaneously, can't be general, and compatibility is poor, is unfavorable for mobility to carry out nimble design to the energy storage power station, also does not benefit to simultaneously and carries out intelligent coordination control and meticulous management to different grade type energy storage system.

Disclosure of Invention

The invention mainly aims to overcome the defects of the prior art and provides an integrated energy storage power station monitoring platform server, a monitoring system and a monitoring method, which can realize integrated cooperative control of different types of energy storage systems, support personalized configuration, have strong compatibility, can be flexibly suitable for energy storage power stations with different structures, can finely monitor and manage the running states of all levels of equipment of the energy storage power stations and provide a more flexible running mode for the energy storage power stations.

The invention adopts the following technical scheme:

the integrated energy storage power station monitoring platform server comprises a management layer, an application program layer and a platform layer;

the management layer is used for providing a graphical user interface for a user, and the graphical user interface provides a control and a display window for calling a corresponding program of the application program layer; the management layer comprises a plan curve management module, a monitoring function module and a control function module; the planning curve management module provides a planning curve creating control, a planning curve editing control, a planning curve browsing control and a planning curve exporting control; the monitoring function module provides a function selection control for selecting the content displayed in the display window; the control function module is used for providing a function input control, a function input and output control and a mode switching control;

the application program layer is used for providing program interfaces for the management layer, and comprises a program interface of a planning curve management module, a program interface of a monitoring function module and a program interface of a control function module; establishing a corresponding relation between each control of the image user interface and a corresponding program interface, and realizing the calling, responding and processing of a corresponding program;

and the platform layer is used for providing basic running conditions for the application program layer and comprises an operating system and a database.

Furthermore, the multiple controls of the monitoring function module are arranged in a hierarchical manner, and the display window displays the control areas corresponding to the superior and/or inferior controls on the current page.

Further, the plan curve browsing control of the plan curve management module comprises a plurality of browsing controls in different modes.

Further, the plan curve creating control comprises a guide mode plan curve creating control and a plug-in mode plan curve creating control, a guide mode plan curve creating program interface and a plug-in mode plan curve creating program interface are correspondingly arranged on the application program layer, and the control and the corresponding program interface establish a corresponding calling relationship.

Further, the monitoring function module provides function selection controls including a whole station monitoring control, an energy storage converter power monitoring control and an energy storage battery monitoring control.

Further, the mode switching control comprises a planned curve/manual maintenance mode switching control and a remote/local control mode switching control; the plan curve/manual maintenance mode switching control is used for controlling the energy storage power station to switch between automatic operation according to the plan curve and entering a manual maintenance mode; the remote/local control mode switching control is used for controlling the energy storage power station to switch between the automatic operation mode according to the remote regulation plan curve and the automatic operation mode according to the local plan curve.

The integrated energy storage power station monitoring system comprises an energy storage power station data acquisition unit, a communication unit and the integrated energy storage power station monitoring platform server;

the energy storage power station comprises an energy storage battery unit, a BMS battery management system, an energy storage converter PCS, a coordination controller PMS and an energy management system EMS, wherein the BMS battery management system is connected with the energy storage battery unit, the energy storage converter PCS is connected with the energy storage battery unit and the BMS battery management system, and the BMS battery management system and the energy storage converter PCS are communicated with the energy management system EMS through the coordination controller PMS;

the energy storage power station data acquisition unit comprises an operation data acquisition module, an operation state acquisition module and a communication state acquisition module, and transmits acquired information to the integrated energy storage power station monitoring platform server through the communication unit; the application program layer receives the acquisition information of the energy storage power station data acquisition unit for operation processing, feeds back a corresponding result through the graphical user interface, receives a control instruction of the graphical user interface control function module, and calls a corresponding program to realize a corresponding control function of the energy storage power station.

Furthermore, the energy storage battery unit comprises a lithium ion battery unit and a flow battery unit, wherein the lithium ion battery unit and the flow battery unit are respectively provided with an independent BMS battery management system and an energy storage converter PCS, and are communicated with an energy management system EMS through a same coordination controller PMS; the function selection control provided by the monitoring function module comprises a lithium ion battery unit monitoring control, a flow battery unit monitoring control, and a first energy storage converter power monitoring control and a second energy storage converter power monitoring control which correspond to the lithium ion battery unit and the flow battery unit respectively.

Further, the application program layer is communicated with the dispatching center through the communication unit and receives the instructions of the dispatching center to control the energy storage power station.

An integrated energy storage power station monitoring method based on the integrated energy storage power station monitoring system comprises the following steps:

the application program layer receives a dispatching instruction issued by the dispatching center, automatically operates according to a plan curve, and regulates the energy storage converter PCS to control active and reactive outputs of the energy storage battery units;

the application program layer receives a control instruction from a planning curve management module of the graphical user interface and calls a corresponding program to create, edit, browse or export a planning curve;

the application program layer receives a control instruction from the monitoring function module of the graphical user interface and calls a corresponding program to display corresponding content on the display window;

the application program layer receives a control instruction from a control function module of the graphical user interface and calls a corresponding program to realize a corresponding control function of the energy storage power station;

and creating a plurality of plan curves of different control modes, and switching the plan curves of different control modes corresponding to different running states of the energy storage power station.

As can be seen from the above description of the present invention, compared with the prior art, the present invention has the following advantages:

firstly, the integrated energy storage power station monitoring platform server realizes integrated cooperative control of different types of energy storage systems through an application program layer, provides monitoring and control program interfaces corresponding to the different types of energy storage systems, and provides corresponding controls on a display window, so that personalized configuration can be realized, the compatibility is strong, and the integrated energy storage power station monitoring platform server can be flexibly suitable for energy storage power stations with different structures;

secondly, a plurality of controls of the monitoring function module are arranged in a grading manner, so that the running state of each level of equipment of the energy storage power station can be finely monitored and managed;

and thirdly, the control function module provides function input and output of single equipment of the energy storage power station, a more flexible operation mode can be provided, and fine operation and maintenance of the energy storage system are facilitated.

Fourthly, multiple plan curve creation modes are provided, and plan curves are convenient to manage; meanwhile, a plurality of plan curves of different control modes are created, the plan curves of different control modes are switched corresponding to different running states of the energy storage power station, the problem of single-day recycling of the plan curves can be solved, and a more flexible running mode is provided for the energy storage power station.

Drawings

FIG. 1 is a block diagram of an energy storage power plant in accordance with an embodiment of the present invention;

FIG. 2 is a block diagram of an integrated energy storage power station monitoring system according to an embodiment of the present invention;

FIG. 3 is a functional architecture diagram of a management layer of an embodiment of the present invention;

FIG. 4 is a schematic diagram of a graphical user interface according to an embodiment of the present invention.

Detailed Description

The invention is further described below by means of specific embodiments.

Referring to fig. 1, the energy storage power station includes an energy storage battery unit, a BMS battery management system, an energy storage converter PCS, a coordination controller PMS, and an energy management system EMS, and the BMS battery management system is connected to the energy storage battery unit. And the BMS battery management system is connected with the energy storage battery unit and is used for monitoring the running state of the energy storage battery unit. And the energy storage converter PCS is connected with the energy storage battery unit and the BMS battery management system and is used for controlling the charging and discharging processes of the energy storage battery unit. The BMS battery management system and the energy storage converter PCS are communicated with the energy management system EMS through the coordination controller PMS. And the coordination controller PMS is used for receiving a command of the energy management system EMS and remotely adjusting the energy storage converter PCS and the BMS battery management system. And the energy storage battery unit is used for storing and releasing electric energy. The energy storage battery unit comprises a lithium ion battery unit and a flow battery unit, the lithium ion battery unit and the flow battery unit are respectively provided with an independent BMS battery management system and an energy storage converter PCS, and the energy storage battery unit and the flow battery unit are communicated with an energy management system EMS through a same coordination controller PMS. And the energy management system EMS is used for carrying out coordination control on the integrated energy storage power station.

Referring to fig. 3 and 4, the integrated energy storage power station monitoring platform server of the invention comprises a management layer, an application program layer and a platform layer.

And the management layer is used for providing a graphical user interface for a user, and the graphical user interface provides a control and a display window for calling the corresponding program of the application program layer. The management layer comprises a planning curve management module, a monitoring function module and a control function module. The planning curve management module provides a planning curve creating control, a planning curve editing control, a planning curve browsing control and a planning curve exporting control; the planning curve browsing control of the planning curve management module comprises a plurality of browsing controls in different modes. The monitoring function module provides a function selection control for selecting the content displayed in the display window; the function selection control comprises a whole station monitoring control, an energy storage converter power monitoring control and an energy storage battery monitoring control; the control areas corresponding to the upper control and/or the lower control of the monitoring function module are displayed on the current page through the display window in a hierarchical mode, and in the embodiment, the energy storage battery monitoring control comprises an energy storage battery unit monitoring control, a battery pack monitoring control and a single battery monitoring control which are arranged in a hierarchical mode. The control function module is used for providing a function input control, a function input and output control and a mode switching control; the mode switching control comprises a planned curve/manual maintenance mode switching control and a remote/local control mode switching control; the plan curve/manual maintenance mode switching control is used for controlling the energy storage power station to switch between automatic operation according to the plan curve and entering a manual maintenance mode; the remote/local control mode switching control is used for controlling the energy storage power station to switch between the automatic operation mode according to the remote regulation plan curve and the automatic operation mode according to the local plan curve.

The application program layer is used for providing program interfaces for the management layer, and comprises a program interface of a planning curve management module, a program interface of a monitoring function module and a program interface of a control function module; and establishing a corresponding relation between each control of the image user interface and the corresponding program interface, and realizing the calling, responding and processing of the corresponding program.

And the platform layer is used for providing basic running conditions for the application program layer and comprises an operating system and a database.

The plan curve creating control comprises a guide mode plan curve creating control and a plug-in mode plan curve creating control, a guide mode plan curve creating program interface and a plug-in mode plan curve creating program interface are correspondingly arranged on the application program layer, and the control and the corresponding program interface establish a corresponding calling relationship.

Referring to fig. 2, the integrated energy storage power station monitoring system of the invention comprises an energy storage power station data acquisition unit, a communication unit and the integrated energy storage power station monitoring platform server.

The energy storage power station data acquisition unit comprises an operation data acquisition module, an operation state acquisition module and a communication state acquisition module, and transmits acquired information to the integrated energy storage power station monitoring platform server through the communication unit; and the application program layer receives the acquired information of the energy storage power station data acquisition unit to perform operation processing, feeds back a corresponding result through the graphical user interface, receives a control instruction of the graphical user interface control function module, and calls a corresponding program to realize a corresponding control function of the energy storage power station. The function selection control provided by the monitoring function module comprises a lithium ion battery unit monitoring control, a flow battery unit monitoring control, and a first energy storage converter power monitoring control and a second energy storage converter power monitoring control which correspond to the lithium ion battery unit and the flow battery unit respectively. The application program layer is communicated with the dispatching center through the communication unit and receives the instructions of the dispatching center to control the energy storage power station. The communication unit comprises a cable and a wireless communication module.

The invention relates to an integrated energy storage power station monitoring method based on the integrated energy storage power station monitoring system, which comprises the following steps:

the application program layer receives a dispatching instruction issued by the dispatching center, automatically operates according to a plan curve, and regulates the energy storage converter PCS to control active and reactive outputs of the energy storage battery units;

the application program layer receives a control instruction from a planning curve management module of the graphical user interface and calls a corresponding program to create, edit, browse or export a planning curve;

the application program layer receives a control instruction from a monitoring function module of the graphical user interface and calls a corresponding program to display corresponding content on a display window;

the application program layer receives a control instruction from a control function module of the graphical user interface and calls a corresponding program to realize a corresponding control function of the energy storage power station;

and creating a plurality of plan curves of different control modes, and switching the plan curves of different control modes corresponding to different operation states of the energy storage power station, such as a high-load operation mode plan curve and a low-load operation mode plan curve.

The above description is only an embodiment of the present invention, but the design concept of the present invention is not limited thereto, and any insubstantial modifications made by using the design concept should fall within the scope of infringing the present invention.

Claims (10)

1. The integrated energy storage power station monitoring platform server is characterized by comprising a management layer, an application program layer and a platform layer;

the management layer is used for providing a graphical user interface for a user, and the graphical user interface provides a control and a display window for calling a corresponding program of the application program layer; the management layer comprises a plan curve management module, a monitoring function module and a control function module; the planning curve management module provides a planning curve creating control, a planning curve editing control, a planning curve browsing control and a planning curve exporting control; the monitoring function module provides a function selection control for selecting the content displayed in the display window; the control function module provides a function input control, a function input/output control and a mode switching control;

the application program layer is used for providing program interfaces for the management layer, and comprises a program interface of a planning curve management module, a program interface of a monitoring function module and a program interface of a control function module; establishing a corresponding relation between each control of the image user interface and a corresponding program interface, and realizing the calling, responding and processing of a corresponding program;

and the platform layer is used for providing basic running conditions for the application program layer and comprises an operating system and a database.

2. The integrated energy storage power station monitoring platform server according to claim 1, wherein the plurality of controls of the monitoring function module are arranged in a hierarchical manner, and the display window displays the control areas corresponding to the upper-level and/or lower-level controls on the current page.

3. The integrated energy storage power station monitoring platform server of claim 1, wherein the plan curve view control of the plan curve management module comprises a plurality of different modes of view controls.

4. The integrated energy storage power station monitoring platform server according to claim 1, wherein the plan curve creation control comprises a guide mode plan curve creation control and a plug-in mode plan curve creation control, the application program layer is correspondingly provided with a guide mode plan curve creation program interface and a plug-in mode plan curve creation program interface, and the control and the corresponding program interface establish a corresponding calling relationship.

5. The integrated energy storage power station monitoring platform server of claim 1, wherein the monitoring function module provides function selection controls including a station monitoring control, an energy storage converter power monitoring control, and an energy storage battery monitoring control.

6. The integrated energy storage power station monitoring platform server of claim 1, wherein the mode switching controls include planned curve/manual maintenance mode switching controls and remote/local control mode switching controls; the plan curve/manual maintenance mode switching control is used for controlling the energy storage power station to switch between automatic operation according to the plan curve and entering a manual maintenance mode; the remote/local control mode switching control is used for controlling the energy storage power station to switch between the automatic operation mode according to the remote regulation plan curve and the automatic operation mode according to the local plan curve.

7. The integrated energy storage power station monitoring system is characterized by comprising an energy storage power station data acquisition unit, a communication unit and the integrated energy storage power station monitoring platform server as claimed in any one of claims 1 to 5;

the energy storage power station comprises an energy storage battery unit, a BMS battery management system, an energy storage converter PCS, a coordination controller PMS and an energy management system EMS, wherein the BMS battery management system is connected with the energy storage battery unit, the energy storage converter PCS is connected with the energy storage battery unit and the BMS battery management system, and the BMS battery management system and the energy storage converter PCS are communicated with the energy management system EMS through the coordination controller PMS;

the energy storage power station data acquisition unit comprises an operation data acquisition module, an operation state acquisition module and a communication state acquisition module, and transmits acquired information to the integrated energy storage power station monitoring platform server through the communication unit; the application program layer receives the acquisition information of the energy storage power station data acquisition unit for operation processing, feeds back a corresponding result through the graphical user interface, receives a control instruction of the graphical user interface control function module, and calls a corresponding program to realize a corresponding control function of the energy storage power station.

8. The integrated energy storage power station monitoring system of claim 7, wherein the energy storage battery units comprise lithium ion battery units and flow battery units, the lithium ion battery units and the flow battery units are respectively provided with independent BMS battery management systems and energy storage converters (PCS) and are communicated with an Energy Management System (EMS) through a same coordination controller (PMS); the function selection control provided by the monitoring function module comprises a lithium ion battery unit monitoring control, a flow battery unit monitoring control, and a first energy storage converter power monitoring control and a second energy storage converter power monitoring control which correspond to the lithium ion battery unit and the flow battery unit respectively.

9. The integrated energy storage power station monitoring system of claim 7 wherein the application layer communicates with the dispatch center via a communication unit to receive commands from the dispatch center to control the energy storage power station.

10. An integrated energy storage power station monitoring method based on the integrated energy storage power station monitoring system of any one of claims 7 to 9, characterized by comprising:

the application program layer receives a dispatching instruction issued by the dispatching center, automatically operates according to a plan curve, and regulates the energy storage converter PCS to control active and reactive outputs of the energy storage battery units;

the application program layer receives a control instruction from a planning curve management module of the graphical user interface and calls a corresponding program to create, edit, browse or export a planning curve;

the application program layer receives a control instruction from a monitoring function module of the graphical user interface and calls a corresponding program to display corresponding content on a display window;

the application program layer receives a control instruction from a control function module of the graphical user interface and calls a corresponding program to realize a corresponding control function of the energy storage power station;

and creating a plurality of plan curves of different control modes, and switching the plan curves of different control modes corresponding to different running states of the energy storage power station.

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