KR102525107B1 - Oxide fuel cell distributed generation power control monitoring system - Google Patents

Abstract

The present invention relates to a fuel cell distributed power generation monitoring system, and more particularly, to a fuel cell distributed power generation system, which provides monitoring information on an operation process and automatically sets control information when an inverter or converter is replaced. It relates to a distributed generation power control monitoring system.
The present invention relates to fuel cell distributed power generation using a fuel cell (SOFC; Solid Oxide Fuel Cell) as an energy source, and provides a fuel cell distributed power generation power control monitoring system for supplying voltage generated through a distributed power generation means to a local load. In addition, the present invention in a fuel cell distributed power generation system enables automatic setting of control information (protocol) of inverters and converters to be replaced when replacing inverters and converters or manual setting by user's selection, thereby enabling more accurate It is intended to provide a fuel cell distributed generation power control monitoring system that enables distributed generation power control.

Description

Fuel cell distributed generation power control monitoring system {OXIDE FUEL CELL DISTRIBUTED GENERATION POWER CONTROL MONITORING SYSTEM}

The present invention relates to a fuel cell distributed power generation monitoring system, and more particularly, to a fuel cell distributed power generation system, which provides monitoring information on an operation process and automatically sets control information when an inverter or converter is replaced. It relates to a distributed generation power control monitoring system.

Distributed generation refers to a method of distributing and distributing power generation around demand sites on a small scale, which indicates the use of electricity by promoting power generation around the receiving sites.

In general, the city's power system is a centralized power generation method for stable power supply and demand and management of the power grid, and mainly receives power unilaterally from a large-scale centralized power plant outside the city.

However, recent new cities are transitioning from a centralized power system to a distributed power system centered on new and renewable energy.

Distributed power generation can significantly reduce transmission and distribution infrastructure construction and operation costs because it is installed near the point of demand, and can avoid wide-area power outages because it has limited impact on the power system, and can be self-sufficient in power independently of the external power grid. has the advantage of being

Distributed generation refers to power generation resources connected to the vicinity of demand points or to distribution and quasi-transmission systems, and includes solar power, wind power, water power, and fuel cells.

Such distributed power generation is affected instantaneously by power generation resources, and in the case of solar, wind, and hydroelectric power, the power output may change instantaneously according to the influence of the climate.

In addition, a fuel cell has a mechanism for directly converting chemical energy generated by oxidation of a fuel into electrical energy, and the conversion process may be unstable, so that an instant change in power output may occur.

At this time, a sudden change occurs in the voltage of the distribution line, and if the voltage is out of the proper value, an abnormality may occur in power quality.

Therefore, recently, in order to prepare for this problem, measures to manage power quality by installing an energy storage system (ESS) for power grid stabilization in substations or installing smart inverters in distributed generation are being considered.

The power converter of such a distributed power generation system,

The DC voltage generated through the power generating means is converted into an AC voltage by configuring an inverter and supplied to a local load, and the DC voltage generated through the generating means is charged to the energy storage system (ESS) through a DC-DC converter to store and discharge. It is configured so that it can be supplied to the local load, and the switching operation of the inverter and converter is controlled to supply power to the local load through the inverter. It is configured to include a control means for supplying.

In this way, the voltage generated from the generation means is supplied as local voltage through the inverter, and the voltage generated from the generation means is stored in the energy storage device through the converter, and the voltage charged in the energy storage device is discharged when there is a problem with the generation voltage Maintain supply to local load.

However, as mentioned above, fuel cells generate electricity by converting chemical energy generated by oxidation of fuel into electrical energy. , a monitoring system for this is required.

In addition, fuel cells take several days to start up again after being stopped, and since they are not devices that can be stopped immediately after being started, if an inverter or converter fails in the process of being operated independently (Standalone) by local power generation, , Inverters and converters may have to be replaced, making it difficult to supply power to local loads.

Therefore, in order to solve this problem, in the fuel cell distributed generation system, an inverter/converter is replaced with a new inverter/converter while replacing emergency power with a self-contained uninterruptible power supply (UPS) or the like.

In general, instead of an expensive high-capacity inverter/converter, an emergency temporary (emergency) inverter/converter is provided, and it is temporarily replaced and used, and the inverter/converter is replaced with a new one later.

When replacing an inverter/converter, its operation control information (protocol) must also be reset. Even if the specifications of the inverter/converter are the same or similar, the control information (protocol) is different for each different product (by manufacturer). There is a difficulty in setting an accurate protocol when replacing the .

The present invention relates to fuel cell distributed power generation using a fuel cell (SOFC; Solid Oxide Fuel Cell) as an energy source, and provides a fuel cell distributed power generation power control monitoring system for supplying voltage generated through a distributed power generation means to a local load. It was meant to be.

In addition, in the fuel cell distributed power generation system, the present invention enables automatic setting of the control information (protocol) of the inverter and converter to be replaced when the inverter and converter are replaced, or manual setting by the user's selection, so that more accurate distributed generation power It is intended to provide a fuel cell distributed power generation power control monitoring system that enables control.

The present invention, (a). To provide a monitoring system for the fuel cell distributed power generation system,

(b). Its technical feature is that when replacing an inverter or converter, the control information of the inverter or converter can be set automatically or selected by the user.

Stable management is possible through monitoring of the unstable fuel cell distributed power generation system, and when a problem occurs in the inverter and converter, which are important control devices of the power conversion system, quick action can be taken to quickly solve the problem of power supply to the local load. It is intended for that purpose.

The fuel cell distributed power generation power control monitoring system of the present invention,

The local load power supply system converts the DC voltage supplied from the fuel cell (SOFC) power generation system into AC voltage and supplies power to the local load, and the operation of the local load power supply system from the stored control information list for the inverter and converter. It is configured to include a power management system (PMS) that sets control information and provides monitoring information on the operation of the local load power supply system,

The local load power supply system includes an inverter for converting DC voltage supplied from the fuel cell power generation system into AC voltage and supplying power to a local load, and temporarily charging and discharging the DC voltage supplied from the fuel cell power generation system. A supercapacitor unit for supplying to the inverter, a converter for charging the DC voltage supplied from the fuel cell power generation system to the battery system (BSS) and discharging the charged voltage of the battery system and supplying it to the inverter, and the voltage supplied by the converter A battery system for storing and a power control means for controlling the operation of the inverter and converter according to the control information set by the power management system are connected to the power management system through CAN communication,

The power management system receives voltage and current information of a fuel cell power generation system, a supercapacitor unit, and a battery system, and operation information of the inverter and converter from the local load power supply system, and a monitoring means for generating and managing monitoring information. ,

Automatically set the control information of the inverter or converter of the power control means from the control information list of inverters and converters registered in the information storage means by referring to the inverter/converter information read from the inverter and converter when the inverter or converter is connected. Control information setting means for providing a setting process and a process for setting control information designated by the manager according to the request of the manager (user);

Creation and management of monitoring information of the monitoring means, provision of monitoring information requested by the manager (user), operation mode setting, inverter, converter and fuel cell power generation system, supercapacitor unit, battery system connection setting, inverter and converter control information A power management control means providing a process for setting;

The graphical user interface (GUI) provided through the display means is used to set the operation mode of the local load power supply system, connection setting and monitoring information inquiry, and control information setting of the inverter and converter, which are performed according to the control process of the power management control means. A GUI management means provided;

Information input means for inputting user information;

Display means for displaying information provided through GUI display and power management control means;

A list of control information for inverters and converters registered and managed through the control information management means and a control information storage unit for storing control information set for inverters and converters installed in the local load power supply system, It is characterized in that it is configured to include an information storage means including a monitor information storage unit in which monitoring information is stored.

And the power control means detects the switching control means for controlling the operation of the inverter and converter according to the control information set by the power management system, the output voltage and current of the inverter and converter, and the voltage and current supplied to the inverter, It is characterized in that it is configured to include a power information generating means for providing the detected voltage and current information to the power management system.

And the fuel cell distributed power generation power control monitoring system of the present invention,

In order to update and manage the control information list, it is configured to further include control information management means of inverters and converters,

The control information management means further includes an external data input means or wired/wireless communication means, and updates the control information list of the information storage means by inputting the control information list through the external data input means or provides regular/irregular provision from the energy management system. It is characterized in that the process is provided so that the manager can request and receive it as needed.

And, in the fuel cell distributed power generation power control monitoring system of the present invention, the control information setting means includes an automatic setting mode for setting the inverter and converter control information of the power control means when the inverter and converter are installed and replaced, and a manager's request. Therefore, as a means of providing a process for performing the manual setting mode to be performed,

The automatic setting mode checks the inverter or converter information from the local load power supply system when an inverter or converter replacement connection setting is made, and the inverter or converter of the power control means from the control information list of the inverter or converter registered in the information storage means. The process of setting the control information of the converter, and if the control information is not set through the above process, the installed inverter and converter are operated, and the output voltage and current information of the inverter or converter is obtained from the power information generating means of the power control means It consists of a process of setting the control information of the inverter or converter of the power control means from the control information list of the inverter or converter registered in the information storage means,

In the manual setting mode, when control information setting is selected from the power management control means, a control information list of the information storage means is provided so that the manager can select and designate, and the control information selected by the manager is converted into control information of the inverter or converter of the power control means. It is characterized in that it consists of a process to set.

According to the present invention, monitoring information for a fuel cell distributed power generation system is provided, and in providing monitoring information, the monitoring information can be easily checked and managed using a graphical user interface (GUI). .

In addition, according to the present invention, when an inverter or converter is replaced, control information (protocol) of the inverter or converter can be automatically set so that quick response is possible in an emergency.

1 is a diagram showing a schematic configuration of a fuel cell distributed generation power control monitoring system according to the present invention.
2 is a view showing the configuration of the fuel cell distributed generation power control monitoring system of the present invention.
3 is a block diagram showing a detailed configuration of a power management system in the present invention.
4 is a flowchart showing a process of setting inverter/converter control information in the present invention.
5 to 12 are views showing an example of a GUI interface provided by a GUI interface management means in the system of the present invention;
5 shows a main screen interface.
6 shows a connection setting interface of a fuel cell power generation system, a supercapacitor unit, and a battery system.
7 and 8 show interfaces for equipment check and history inquiry of the fuel cell power generation system, the supercapacitor unit 220, and the battery system 240.
9 shows an example of monitoring information of the system, and shows the usage status of the fuel cell (SOFC) power generation system 100.
10 shows a fuel cell operation history inquiry interface.
11 shows a notification occurrence history inquiry interface.
12 shows a converter/inverter connection setting and control information setting interface.

The configuration and operation of the fuel cell distributed power generation power control monitoring system according to the present invention will be described with reference to embodiments shown in FIGS. 1 to 12 in the accompanying drawings.

The configuration of the fuel cell distributed power generation power control monitoring system of the present invention is,

A local load power supply system 200 for converting DC voltage supplied from a fuel cell (SOFC) power generation system 100 into AC voltage and supplying it to a local load, and an energy management system (EMS) 400 Setting the operation control information of the local load power supply system 200 from the control information list for the inverter 210 and converter 230 provided from and providing monitoring information for the operation of the local load power supply system 200 It is configured to include a power management system (PMS) 300,

The local load power supply system 200 includes an inverter 210 for converting the DC voltage supplied from the fuel cell power generation system 100 into an AC voltage and supplying it to the local load, and the fuel cell power generation system 100. A supercapacitor unit 220 temporarily charges and discharges the supplied DC voltage and supplies it to the inverter 210, and the DC voltage supplied from the fuel cell power generation system 100 is supplied to the battery system (BSS; Battery System) 240 A converter 230 for charging and discharging the charged voltage of the battery system 240 and supplying it to the inverter 210, a battery system 240 for storing the voltage supplied by the converter 230, and the power The power control means 250 for controlling the operation of the inverter 210 and the converter 230 according to the control information set by the management system 300 communicates with the power management system 300 via Controler Area Network (CAN). being connected,

The power management system 300 provides voltage and current information of the fuel cell power generation system 100, the supercapacitor unit 220, and the battery system 230 from the local load power supply system 200 and the inverter 210. , Monitoring means 310 for receiving operation information of the converter 230 and generating and managing monitoring information;

When replacing the inverter 210 and the converter 230, the information of the inverter 210 and the converter 230 is referred to from the local load power supply system 200, and An automatic setting process for setting the control information of the inverter 210 or the converter 230 of the power control means 250 from the control information list of the converter 230 and the control designated by the manager according to the request of the manager (user) Control information setting means 320 for providing a process of setting information;

Management of monitoring information generation and control of the monitoring unit 310, provision of monitoring information requested by an administrator (user), operation mode setting, inverter 210, converter 230 and fuel cell power generation system 100, supercapacitor unit 220, power management control means 330 that provides a process for setting the connection of the battery system 240, setting the control information of the inverter 210 and the converter 230,

Operation mode setting of the local load power supply system 200 performed according to the control process of the power management control means 300, connection setting and monitoring information inquiry, display for setting control information of the inverter 210 and converter 230 GUI management means 340 for providing a graphical user interface (GUI) provided through means 360;

An information input means 350 for inputting user information;

A display means 360 for displaying GUI and information provided through the power management control means 330;

A list of control information about the inverter 210 and converter 230 registered and managed through the control information management means 380 and the inverter 210 and converter 230 installed in the local load power supply system 200 An information storage unit 370 including a control information storage unit 371 for storing set control information and a monitor information storage unit 372 for storing the monitoring information generated by the monitoring unit 310;

Configuration including a control information management means 380 for registering, storing, and managing a list of control information for setting the control information of the inverter 210 and the converter 230 from the energy management system 400 and registering and managing the information storage means 370 do.

In the fuel cell distributed power generation power control monitoring system of the present invention having such a configuration, in supplying the voltage generated from the fuel cell power generation system 100 to a local load through the local load power supply system 200,

(a). Monitoring information management for the operation of the local load power supply system 200, connection setting of each means of the local load power supply system 200 and operation mode setting are possible, enabling monitoring and control of fuel cell distributed power generation,

(b). The control information is automatically set according to the characteristics of the installed inverter 210 and converter 230 according to the installation and replacement of the inverter 210 and converter 230 of the local load power supply system 200. It is the main technical feature that it can be.

The present invention is a power management system 300 for monitoring the local load power supply system 200 and setting control information of the inverter 210 and converter 230, and is composed of a fuel cell distributed power generation system independently operated for each region. .

The local load power supply system 200 is a means for supplying the voltage supplied from the fuel cell power generation system 100 to a local load,

A supercapacitor unit 220, a battery system (BSS) 240, a voltage storage means for temporarily storing voltage and supplying it to a local load;

It is composed of an inverter 210, a power conversion unit of the converter 230, and a power control unit 250. and is made up of connections.

The supercapacitor unit 220 is a voltage storage means for temporarily supplying voltage when a problem occurs due to unstable voltage of the fuel cell power generation system 100 .

The battery system 240 is a voltage storage means for supplying power to a local load when a voltage problem occurs in the fuel cell power generation system 100 .

The inverter 210 is a means for supplying a direct current (DC) voltage supplied from the fuel cell power generation system 100 to an alternating current (AC) local load by performing a switching operation.

The converter 230 is a charging and discharging power conversion means for the battery system 240, and charges the battery system 240 with the voltage supplied from the fuel cell power generation system 100 and discharges the charged voltage to the inverter 210 ) is a means of supplying

The switching operation of the inverter 210 and the converter 230 is controlled by the power control unit 250 according to control information (protocol).

The power control unit 250 controls the operation of the inverter 210 and the converter 230 and extracts power information according to the operation of the inverter 210 and the converter 230 and provides it to the power management system 300. is a means for

Such a power control means 250 includes a switching control means 251 for controlling the operation of the inverter 210 and the converter 230 according to the control information set by the power management system 300, and the inverter 210 , Power information generation means 252 for detecting the output voltage and current of the converter 230 and the voltage and current supplied to the inverter 210 and providing the detected voltage and current information to the power management system 300 It is composed by

The power management system 300 may be configured as a server means installed in the local load power supply system 200 and managed by a site manager, monitoring the local load power supply system 200 and an inverter 210, As a means for setting control information of the converter 230, it is composed of CAN (Controler Area Network) communication to the local load power supply system 200.

The monitoring means 310 is a means for generating and managing monitoring information on the power conversion operation for supplying power to the local load of the local load power supply system 200, and the fuel cell power generation system 100, super Monitoring information for the local load power supply system 200 to be provided to the user by receiving the voltage and current information of the capacitor unit 220 and the battery system 230 and operation information of the inverter 210 and converter 230 It is a tool to create and manage.

Monitoring information is (a). Operation information of the fuel cell power generation system 100, inverter 210, converter 230, battery system 240,

(b). It includes real-time charging and discharging information of the battery system, minimum and maximum temperature information, battery SOC (State Of Charge), and SOH (State Of Health) information.

In addition, the monitoring means 310 determines whether the inverter 210 and the converter 230 are out of order based on the monitoring information of the local load power supply system 200 and determines whether the local load power supply system 200 operates abnormally. It includes a system notification means for generating and providing real-time system operation notification information according to the result.

The control information setting means 320 is an automatic setting mode for setting the control information of the inverter 210 and the converter 230 of the power control means 250 when the inverter 210 and the converter 230 are installed and replaced. , It is a means to provide a process for performing the manual setting mode performed according to the manager's request.

The automatic setting mode checks the information of the inverter 210 or converter 230 from the local load power supply system 200 when the inverter 210 or converter 230 replacement connection setting is made, and the information storage means 370 The process of setting the control information of the inverter 210 or the converter 230 of the power control means 250 from the control information list of the inverter 210 and the converter 230 registered in If the setting is not made, the installed inverter 210 and converter 230 are operated, and the output voltage and current of the inverter 210 or converter 230 from the power information generating means 252 of the power control means 250 Setting the control information of the inverter 210 or converter 230 of the power control means 250 from the control information list of the inverter 210 and converter 230 registered in the information storage means 370 by receiving information It consists of a process

In the manual setting mode, when control information setting is selected from the power management control means 330, the control information list of the information storage means 370 is provided so that the manager can select and designate, and the control information selected by the manager is provided to the power control means 250. It consists of a process of setting the control information of the inverter 210 or converter 230 of ).

4 is a flowchart showing a process of setting inverter/converter control information in the present invention.

The power management control means 330 is a power management control and monitoring control means of the local load power supply system 200,

(a). Monitoring control means of the local load power supply system 200,

(b). Control information setting means of the inverter 210 and the converter 230;

(c). Monitoring information provision means, operation mode setting means and inverter 210, converter 230, fuel cell power generation system 100, and supercapacitor unit 220 for providing monitoring information according to the monitoring query request of the manager (user) , Connection setting means of the battery system 240,

It consists of including.

The GUI management means 340 is a means for providing a graphical user interface (GUI) provided to the administrator through the display means 360,

A main management GUI unit for providing a main management interface for providing overall management menu items and a selection interface of the power management system 300;

Provides an interface for setting the operation mode of the local load power supply system 200 and setting the connection settings of the inverter 210, converter 230, fuel cell power generation system 100, supercapacitor unit 220, and battery system 240 A user setting management GUI unit that

A monitoring information GUI unit providing an interface for inquiry and provision of monitoring information;

Control information setting GUI unit for the operation of the inverter 210 and the converter 230,

It can be composed of each component, and can be configured by adding each component according to the addition of functions and provided information.

The information input means 350 is a means for inputting user information, and includes a key input means, a mouse, and the like, and may include a touch panel included in the display means 360.

The display means 360 is a means for displaying GUI and information provided through the power management control means 330 .

The information storage means 370 includes a control information list for the inverter 210 and converter 230 registered and managed through the control information management means 380 and the inverter 210 installed in the local load power supply system 200. ), a control information storage unit 371 in which control information set for the converter 230 is stored, and a monitor information storage unit 372 in which monitoring information generated by the monitoring means 310 is stored.

The control information list is information on the control information of the inverter 210 and converter 230, and is control information (protocol) of the inverter 210 and converter 230 for each manufacturer and specification (capacity). It includes output voltage and current value information in the installed state of the converter.

The monitoring information is information generated through the monitoring means 310, and includes operation history information of the local load power supply system 200, notification history information, and control information change history information of the inverter 210 and converter 230. include

In order to update and manage the control information list, control information management means 380 of the inverter 210 and converter 230 may be further included.

The control information management means 380 further includes an external data input means such as USB or wired/wireless communication means, and is regularly/irregularly provided from the energy management system 400 or requested by a manager as needed. provide that process.

In addition, the power management control unit 330 may further include an access management unit to verify the authority to use and the user of the power management system 300 .

The access management means includes a manager identification information registration means, access of registered managers and access information of connected managers, and management means for managing operation information, and the manager identification information, access information, and operation information store information. It is stored and managed in the means 370.

The manager identification information registered through the manager identification information registration means includes ID and manager information, the access information includes connected manager identification information and access time information, and operation information includes control performed by the connected manager. It includes information setting, driving information mode setting, connection setting, and monitoring information inquiry information.

The operation of the fuel cell distributed power generation power control monitoring system of the present invention having the above configuration is as follows.

The generated voltage supplied from the fuel cell power generation system 100 operates according to the switching control of the power control means 250 and is converted into a three-phase voltage through the inverter 210 and supplied to a local load, and the DC/DC converter 230 ), the battery system 240 is charged.

When a problem occurs in the generated voltage of the fuel cell power generation system 100, the charged voltage of the supercapacitor unit 220 is discharged and supplied to the inverter 210, and then the converter 230 according to the switching operation of the power control unit 250. ), the charged voltage of the battery system 240 is discharged and supplied to the inverter 210 as a local load power source.

That is, when a problem occurs in the generated voltage of the fuel cell power generation system 100, the voltage of the supercapacitor unit 220 is supplied for several seconds while the voltage is prepared to be discharged from the battery system 240 so that the local load power is not cut off. And then, the discharge voltage of the battery system 240 is supplied to the local load. Normally, the power generated from the fuel cell power generation system 100 is charged and stored in the battery system 240, and then supplied to the emergency state (Emergency). ) to cope with.

In this way, when it is difficult to supply power to the fuel cell power generation system 100, the manager switches to the manual operation mode through the power management system 300 and uses the charging voltage of the supercapacitor unit 220 and the battery system 240 to By supplying voltage to the inverter 210, the power of the local load can be continuously supplied.

The power management system 300 may be composed of a server unit connected to the fuel cell power generation system 100 and the local load power supply system 200 through can communication, and performs monitoring and control by communicating with each of the above units. will perform

The monitoring means 310 receives operation information from the local load power supply system 200 through CAN communication, generates monitoring information, and provides it to a manager.

The monitoring means 310 generates operation information of the fuel cell (SOFC) power generation system 100, the inverter 210, the converter 230, and the battery system 240 according to the control of the power management control means 330.

In addition, real-time charging and discharging information of the battery system 240, minimum and maximum temperature information, and battery SOC (State Of Charge) and SOH (State Of Health) information are included.

In addition, the monitoring means 310 determines whether the inverter 210 and the converter 230 are out of order based on the monitoring information of the local load power supply system 200 and determines whether the local load power supply system 200 operates abnormally. Depending on the result, real-time system operation notification information is created and provided.

In the monitoring unit 310, operation information of the fuel cell power generation system 100, the supercapacitor unit 220, the battery system 240, the inverter unit 210, and the converter 230 and the power information of the power control unit 250 According to the output voltage and current of the inverter 210 and the converter 230 provided from the generator 252, and the voltage and current information supplied to the inverter 210, real-time operation notification information is generated and provided to the manager.

At this time, when a problem occurs in the inverter 210 or the converter 230, the monitoring means 310 generates and provides notification information as described above, and the manager replaces the inverter 210 or the converter 230 will run the system.

As described above, a temporary (emergency) prepared inverter or converter is connected or a new inverter 210 or converter 230 is replaced, and the administrator executes the replacement mode of the inverter 210 or converter 230. When this is done, the control information setting unit 320 primarily reads inverter/converter information from the replaced inverter 210 and converter 230, and obtains information (voltage, current) from the inverter 210 and converter 230. , temperature) is read, the inverter 210 and converter 230 control information (protocol) of the power control means 250 is selected from the list of control information stored in the information storage means 370 with reference to the read information. Set up.

At this time, if information cannot be read from the inverter 210 or converter 230, after setting the basic control information in the control information list to the inverter 210 or converter 230 of the power control means 250, the inverter 210 ), the operation information of the converter 230 and the current and voltage supplied from the power information generating means 252 to the inverter 210, the control information is determined from the control information list of the information storage means 370, and the power control means Set the control information of (250).

Here, the control information of the power control means 250 is maintained if it is the same as the temporarily set control information.

Inverters and converters configured for power conversion in the fuel cell distributed generation system have the same or similar specifications, so that control information having similar characteristics can be temporarily set and accurate control information can be set from operation information.

The control information list includes voltage and current information actually output when the inverter/converter is installed, so the control information setting means 320 refers to this information to set the control information of the power control unit 250.

Meanwhile, the administrator can set the control information of the inverter 210 and the converter 230 in the control information list by performing the user control information setting mode, as shown in FIG. 12 .

When new control information of the inverter 210 and converter 230 is required, the control information list of the information storage means 370 can be updated using an external input means.

In addition, the energy management system 400 can manage control information lists of the inverter 210 and the converter 230 for each independently operated distributed power generation system.

In the energy management system 400, whenever information on inverters and converters is changed or added, a list of control information can be configured and provided to the power management system 300, and control information setting means 320 of the power management system 300 ) stores the control information list provided by the energy management system 400 in the information storage means 370 to update the control information list.

5 to 12 show an example of a GUI interface provided by the GUI management means 340 in the system of the present invention.

5 is a diagram showing the main screen interface, showing the state of the battery system 240 on one side, showing the operation mode of the current distributed power generation system, providing equipment check, history inquiry (monitoring information), connection setting items, As the center, the fuel cell power generation system 100, the supercapacitor unit 220, and the battery system 240 may be selected to indicate selection items for confirming the information.

6 shows connection setting interfaces of the fuel cell power generation system 100 , the supercapacitor unit 220 , and the battery system 240 .

You can set COM and equipment setup for CAN communication connection.

7 and 8 show interfaces for equipment check and history inquiry of the fuel cell power generation system 100, the supercapacitor unit 220, and the battery system 240.

Although a control operation function is not provided for each equipment directly, the check of the current equipment state can be displayed as a graph or numerical value as shown in FIG. 8 and provided to the manager.

From the information provided from each equipment of the fuel cell power generation system 100 and the local load power supply system 200, the voltage and current values are configured to be displayed as real-time charts and numerical values in graphs, and these two data are provided in a daily range ( (Range = voltage (%) + current (%) = 100%)

9 shows an example of monitoring information of the system, and shows the usage status of the fuel cell (SOFC) power generation system 100.

The monitoring means 310 may provide driving history information including monitoring information stored in the information storage means 370, operation mode setting, and control information setting according to the manager's request, and the manager stores the information storage means 370. Stored accumulated information can be inquired and provided by period or event (notification), and the inquired information can be provided (downloaded) as a separate file.

10 is a diagram illustrating a fuel cell operation history inquiry interface, and FIG. 11 is a diagram illustrating a notification generation history inquiry interface.

12 is an inverter/converter connection setting interface, and shows a control information setting interface for a manager to set control information from a control information list.

As described above, the present invention provides monitoring information for a fuel cell distributed power generation system, and provides the monitoring information in various forms through a GUI so that a manager (user) can easily manage the system.

In addition, even if a problem occurs with an inverter/converter, the control information of the replaced inverter/converter can be set automatically, so that emergency actions can be taken quickly.

Claims (10)

A local load power supply system 200 for converting DC voltage supplied from a fuel cell (SOFC) power generation system 100 into AC voltage and supplying power to a local load, an inverter 210, and a converter 230 It is configured to include a power management system (PMS) 300 that sets operation control information of the local load power supply system 200 from the control information list and provides monitoring information on the operation of the local load power supply system 200. ,
The local load power supply system 200 includes an inverter 210 for converting the DC voltage supplied from the fuel cell power generation system 100 into an AC voltage and supplying it to the local load, and the fuel cell power generation system 100. The supercapacitor unit 220 temporarily charges and discharges the supplied DC voltage and supplies it to the inverter 210, and the DC voltage supplied from the fuel cell power generation system 100 is charged and discharged to the battery system (BSS) 240. A converter 230 for discharging the charged voltage of the battery system 240 and supplying it to the inverter 210, a battery system 240 for storing the voltage supplied by the converter 230, and the power management system ( The power control means 250 for controlling the operation of the inverter 210 and the converter 230 according to the control information set by 300) is connected to the power management system 300 through CAN communication,
The power management system 300 provides voltage and current information of the fuel cell power generation system 100, the supercapacitor unit 220, and the battery system 240 from the local load power supply system 200 and the inverter 210. , Monitoring means 310 for receiving operation information of the converter 230 and generating and managing monitoring information;
Inverter 210 and converter 230 registered in the information storage means 370 by referring to the inverter/converter information read from the inverter 210 and converter 230 when the inverter 210 and converter 230 are connected. Automatic setting process for setting the control information of the inverter 210 or converter 230 of the power control means 250 from the control information list of and setting the control information designated by the manager according to the request of the manager (user) Control information setting means 320 for providing a process;
Generation management of monitoring information of the monitoring means 310, provision of monitoring information requested by the manager (user), operation mode setting, inverter 210, converter 230 and fuel cell power generation system 100, supercapacitor unit ( 220), a power management control unit 330 that provides a process for setting the connection of the battery system 240, and setting the control information of the inverter 210 and the converter 230;
Operation mode setting of the local load power supply system 200 performed according to the control process of the power management control means 300, connection setting and monitoring information inquiry, display for setting control information of the inverter 210 and converter 230 GUI management means 340 for providing a graphical user interface (GUI) provided through means 360;
An information input means 350 for inputting user information;
A display means 360 for displaying GUI and information provided through the power management control means 330;
A list of control information about the inverter 210 and converter 230 registered and managed through the control information management means 380 and set for the inverter 210 and converter 230 installed in the local load power supply system 200 It is configured to include an information storage unit 370 including a control information storage unit 371 for storing control information and a monitor information storage unit 372 for storing the monitoring information generated by the monitoring unit 310. Characterized by fuel cell distributed power generation power control monitoring system. The method of claim 1, wherein the power control means 250 comprises a switching control means 251 for controlling the operation of the inverter 210 and the converter 230 according to control information set by the power management system 300; Power information generation means ( 252), a fuel cell distributed power generation power control monitoring system, characterized in that configured to include. The local load power supply system (200) according to claim 1, wherein the information storage means (370) includes a control information list for the inverter (210) and converter (230) registered and managed through the control information management means (380) and the local load power supply system (200). The inverter 210 installed in the ), the control information storage unit 371 storing the control information set for the converter 230, and the monitoring information storage unit storing the monitoring information generated by the monitoring means 310 ( 372),
The control information list is information on the control information of the inverter 210 and converter 230, and is control information (protocol) of the inverter 210 and converter 230 for each manufacturer and specification (capacity). It includes output voltage and current value information in the installed state of the converter,
The monitoring information is information generated through the monitoring means 310, and includes operation history information of the local load power supply system 200, notification history information, and control information change history information of the inverter 210 and converter 230. A fuel cell distributed power generation power control monitoring system comprising: The method of claim 1, wherein the power management system (300) is configured to further include control information management means (380) of an inverter (210) and a converter (230) for updating and managing a control information list,
The control information management means 380 further includes an external data input means or wired/wireless communication means, and updates the control information list of the information storage means 370 by inputting the control information list through the external data input means or energy management system ( 400), a fuel cell distributed power generation power control monitoring system characterized in that it provides the process so that it can be provided regularly/irregularly or requested by the manager as needed. The method of any one of claims 1 to 3, wherein the control information setting means 320,
When the inverter 210 and the converter 230 are replaced and connected, the inverter 210 or converter 230 provided from the power control means 250 refers to the output voltage and current of the converter 230, and the inverter registered in the information storage means 370 ( 210) and the converter 230 from the list of control information of the inverter 210 or the converter 230 of the power control means 250, an automatic setting process for setting the control information of the converter 230 and the manager according to the request of the manager (user) A fuel cell distributed power generation power control monitoring system characterized in that it provides a process for setting control information to be specified. The method of claim 1, wherein the monitoring information generated from the monitoring means (310)
(a). Operation information of the fuel cell power generation system 100, inverter 210, converter 230, battery system 240,
(b). A fuel cell distributed power generation power control monitoring system characterized in that it includes real-time charge and discharge information, minimum and maximum temperature information, battery SOC (State Of Charge), and SOH (State Of Health) information of the battery system 240. The method of claim 1, wherein the monitoring means (310) determines whether the inverter (210) and the converter (230) are out of order based on monitoring information of the local load power supply system (200) and abnormal operation of the local load power supply system (200). A fuel cell distributed power generation power control monitoring system, characterized in that it further comprises a system notification means for determining whether or not and generating and providing real-time system operation notification information according to the determination result. The method of any one of claims 1 to 3, wherein the control information setting means 320 is the inverter 210, the inverter 210 of the power control means 250 when installing or replacing the converter 230, As a means for providing a process for performing an automatic setting mode for setting control information of the converter 230 and a manual setting mode performed at the request of the manager,
The automatic setting mode checks the information of the inverter 210 or converter 230 from the local load power supply system 200 when the inverter 210 or converter 230 replacement connection setting is made, and the information storage means 370 The process of setting the control information of the inverter 210 or the converter 230 of the power control means 250 from the control information list of the inverter 210 and the converter 230 registered in If the setting is not made, the installed inverter 210 and converter 230 are operated, and the output voltage and current information of the inverter 210 or converter 230 from the power information generating means 252 of the power control means 250 A process of setting the control information of the inverter 210 or converter 230 of the power control means 250 from the control information list of the inverter 210 or converter 230 registered in the information storage means 370 by receiving the is made up of
In the manual setting mode, when control information setting is selected from the power management control means 330, the control information list of the information storage means 370 is provided so that the manager can select and designate, and the control information selected by the manager is provided to the power control means 250. A fuel cell distributed power generation power control monitoring system, characterized in that it consists of a process of setting the control information of the inverter 210 or the converter 230 of ). The method of claim 1, wherein the GUI management means (340) is a means for providing a graphical user interface (GUI) provided to the administrator through the display means (360),
A main management GUI unit for providing a main management interface for providing overall management menu items and a selection interface of the power management system 300;
Provides an interface for setting the operation mode of the local load power supply system 200 and setting the connection settings of the inverter 210, converter 230, fuel cell power generation system 100, supercapacitor unit 220, and battery system 240 A user setting management GUI unit that
A monitoring information GUI unit providing an interface for inquiry and provision of monitoring information;
Control information setting GUI unit for the operation of the inverter 210 and the converter 230,
A fuel cell distributed power generation power control monitoring system that can be configured with each component and configured to be configured by adding each component according to the addition of functions and provided information. According to claim 1,
The power management control means 330 is configured to further include an access management means in order to verify the authority and user of the power management system 300,
The access management means includes a manager identification information registration means, access of registered managers and access information of connected managers, and management means for managing operation information, and the manager identification information, access information, and operation information store information. Stored and managed in the means 370,
The manager identification information registered through the manager identification information registration means includes ID and manager information, the access information includes connected manager identification information and access time information, and operation information includes control performed by the connected manager. A fuel cell distributed power generation power control monitoring system comprising information setting, operation information mode setting, connection setting, and monitoring information inquiry information.

Images