JP2018170950A - Power generating system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain a power generation system that can perform management without waste.SOLUTION: A power generation system including a management server that manages multiple distributed power generation facilities includes notification means c2 that notifies the management server 102 of an error when maintenance is required for the distributed power generation facility, operation stop means c1 that stops the operation of the distributed power generation facility when the maintenance is performed, notification invalidating means c3 that invalidates the notification from the notification means c2 in an operation stop state in which the operation stop means c1 is operating and the distributed power generation facility is stopped, and notification enabling means c4 that cancels the invalidation of the notification by the notification invalidating means c3 and enables the notification by the notification means c2 when a notification invalidation cancellation condition (for example, trial operation start condition) set beforehand is satisfied upon completion of the maintenance.SELECTED DRAWING: Figure 4

Description

The present invention includes a power generation device that generates power upon receipt of fuel supply, and a distributed power generation facility configured to be able to supply power generated by the power generation device to power consumers;
A management server that manages the plurality of distributed power generation facilities,
An informing means for notifying the management server of an error when maintenance is required for the distributed power generation facility, and an operation stop for stopping the operation of the distributed power generation facility when performing maintenance of the distributed power generation facility And a power generation system including the means.

  As a prior art related to such a power generation system, a technique disclosed in Patent Document 1 can be cited. The maintenance system described in this document corresponds to the “power generation system” in the present invention, and the distributed power generation system corresponds to the “distributed power generation facility” in the present invention.

  Patent Document 1 proposes a maintenance system (a business model) for improving the maintenance system of the distributed power generation system, and FIG. 1 of the specification shows the overall configuration of the maintenance system. Yes. Further, FIG. 5 shows the configuration of a management device (corresponding to the “management server” of the present invention) provided in the management company. FIG. 9 shows a contractor terminal (“trader server” of the present invention) provided in the maintenance company. Equivalent).

In this maintenance system, each distributed power generation system 12 is connected to the management device 20 via the Internet 16, and the management device 20 sequentially acquires the operating status of each distributed power generation system 12 and monitors its state. When maintenance is required, the control parameter or sequence program of the distributed power generation system 12 is directly changed or the maintenance company 24 is requested to perform maintenance of the distributed power generation system 12 according to the degree of maintenance.
Therefore, in this maintenance system, it is said that an appropriate maintenance route is selected, and the work speed and efficiency can be improved.

  Now, proceeding with the description based on FIG. 1 of this specification, the maintenance system disclosed in Patent Document 1 includes a power consumer 10 in which a distributed power generation facility 101 is installed, a management company 20 including a management server 102, and It is established between the three parties with the maintenance company 40 having the trader server 104, but today, in addition to these three parties, the so-called call center 30 is provided, and the power consumer 10 and the three parties (the management company 20, the call center). 30 and the maintenance company 40), the system is operated smoothly.

  In this type of distributed power generation facility 101, when one device constituting the facility 101 breaks down, a maintenance worker 104b needs to visit the site from the maintenance company 40 and perform maintenance of the device. When such a failure occurs, the equipment 101 automatically stops. This state corresponds to the “error” referred to in the present invention, and the notification means (c2 in FIG. 4) provided in the distributed power generation facility 101 works to inform the management server 102a that the facility 101 is in an error state. Inform. This error notification is transferred from the management server 102 to the center server 103a and the trader server 104a. When maintenance on site is required by failure analysis on the management company 20 side, the maintenance worker 104b visits the site and performs maintenance.

  As described above, as a case where an error is notified from the distributed power generation facility 101 to the management server 102a, there may be a case where a regular maintenance period arrives at the equipment constituting the facility 101. In a situation where regular maintenance is required, the operation of the distributed power generation facility 101 is continued, but the maintenance worker 104b visits the site at a predetermined date and time, and when the maintenance is performed, the facility 101 is stopped, Maintenance is performed.

  Hereinafter, in order to facilitate understanding of the present invention, a case where a failure has occurred in the facility will be described as an example.

Processing Sequence Associated with Failure 1 When a failure occurs in a distributed power generation facility, the operation of the facility is stopped, and an error is notified from the distributed power generation facility to the management server. This error notification is transferred to the center server and the trader server.

2 Countermeasures on the side that received the error notification a In the management company, the person in charge of the distributed generation facility that notified the error takes out the operation history of the facility from the management server and performs failure analysis.
b In the failure analysis, if a maintenance worker visits and determines that it is necessary to perform maintenance, the management company requests maintenance from the maintenance company.
c The call center communicates with the power consumer, informs the maintenance worker that it is necessary to visit and perform maintenance, and the maintenance worker contacts the power consumer. Inform them that you want to make adjustments.
d Thereafter, the date and time of maintenance is determined by communication between the power consumer and the maintenance worker, and the maintenance worker visits the site and performs the maintenance work. Normally, when performing maintenance, the distributed power generation facility is automatically stopped or stopped before the start of maintenance work.

There are the following errors as the errors described above, which are notified when a maintenance worker visits the site and performs maintenance.
B) A distributed power generation facility consists of a pair of units. When maintenance is performed with the power of one of the units turned off, communication between units will not be performed, resulting in a communication error. .
(B) Remove the harness for power supply / communication etc. due to maintenance, but if you forget to connect it when the maintenance is completed, an auxiliary equipment operation error, sensor error, and board error will occur for the equipment to which the harness belongs.
C) If you forget to open the fuel plug (city gas plug) of the power generator installed in the distributed power generation facility, a low fuel pressure (gas pressure) error or an ignition error will occur.
(Ii) If you forget to open the faucet required for the power generator installed in the distributed power generation facility, a water shutoff error will occur.

  These errors are specific examples of errors in the distributed power generation facilities shown in FIGS. 2 and 3, and the present invention does not limit the errors to these examples. That is, in the present invention, in the distributed power generation facility, the notification means notifies the management server as an error, and accompanying this notification, a maintenance worker needs to visit the site, stop the distributed power generation facility, and perform maintenance. Any event with an error is an error in the present invention. These errors are determined in advance by the manager, the maintenance person, and the facility in relation to the operation of the power generation system.

JP 2002-324666 A

  Conventionally, when a predetermined error occurs in the distributed power generation facility, the notification means always notifies the management server of the error. This error notification is automatically performed even when a maintenance worker is performing maintenance on site. The same applies to the transfer from the management server to the call center and the maintenance company.

When such an operation is adopted, the following various problems occur.
a The call center or maintenance company to which the error has been transferred needs to collate with the dispatch history of the maintenance worker in order to check whether the distributed power generation facility that has notified the error is currently undergoing maintenance.

    b In order to avoid confusion at the call center and maintenance company, local maintenance workers should be informed that when the distributed power generation equipment is in a state where the predetermined error requirements are satisfied during maintenance, the notification means will work and the equipment will fail. It is necessary to cancel the event that is regarded as an error before informing the user.

  In view of the above situation, the main problem of the present invention is that an error is unnecessarily notified or transferred even when a distributed power generation facility needs to notify a preset error. There is no wasteful power system.

To achieve the above purpose,
A distributed power generation facility configured to receive a supply of fuel and generate power, and configured to be able to supply power generated by the power generation device to a power consumer;
A management server that manages the plurality of distributed power generation facilities,
An informing means for notifying the management server of an error when maintenance is required for the distributed power generation facility, and an operation stop for stopping the operation of the distributed power generation facility when performing maintenance of the distributed power generation facility A power generation system comprising means,
The first characteristic configuration of the present invention is:
In the operation stop state where the operation stop means is working and the distributed power generation facility is stopped, the information disabling means for disabling the notification from the notification means,
Notification enabling means for canceling the invalidation of the notification by the notification invalidating means and validating the notification by the notification means when a preset notification invalidation cancellation condition is satisfied with the completion of the maintenance With
When restarting the operation from the operation stop state, the test operation is performed.
The notification invalidation cancellation condition includes that the trial operation can be started or that the trial operation has been started as a condition.

The power generation system according to the present invention includes a distributed power generation facility and a management server, and further includes notification means, operation stop means, notification invalidation means, notification validation means, and various notification invalidation cancellation conditions. It is configured with various conditions.
Therefore, the functional configuration provided with these four means will be first described as [common configuration], and each [notification invalidation cancellation condition] will be described below.

According to the [common configuration], in order to perform maintenance on the facility, when the operation stop unit works and the facility is in the operation stop state, the notification invalidating unit overrides the error notification of the notification unit. To disable error notifications.
Therefore, the error notification is not considered to be effective even though the equipment is stopped at the site and the maintenance is performed. As a result, the problem described above in the item of problems to be solved by the present invention does not occur.

  On the other hand, the invalidation by the notification invalidating unit is canceled when a preset notification invalidation cancellation condition is satisfied by the notification validation unit, and error notification by the notification unit is validated. Therefore, for example, after the timing when the maintenance is completed and the facility resumes power generation, an error is notified by the notification means, and normal operation can be ensured.

In the above first characteristic configuration,
When restarting the operation from the operation stop state, the test operation is performed.
The notification invalidation cancellation condition includes a condition that the trial operation can be started or that the trial operation has been started.

According to this configuration, in a distributed power generation facility equipped with a power generation device, when maintenance is performed, normal operation is started through a trial operation process, and such trial operation can be started (startable). , Including both actually started) can often be regarded as the completion of maintenance by a maintenance worker.
Therefore, according to this configuration, the trial operation can be started, and the fact that the trial operation has actually started can be regarded as the completion of the maintenance, and the normal operation state can be returned.

In addition to the [common configuration], the second characteristic configuration of the present invention includes:
The notification invalidation cancellation condition includes a condition that the stable operation state in which the main device constituting the facility operates stably is included.

This type of distributed power generation facility is configured to include a large number of functional devices, and the main devices start up sequentially when the facility enters operation.
Therefore, when the main equipment constituting the equipment, for example, the distributed power generation equipment is equipment having a reformer and a fuel cell, the fact that these main equipments enter the stable operation state means that the maintenance work is good. Often means that the facility is about to enter power generation and no longer needs assistance from maintenance personnel.
Therefore, according to this configuration, it is possible to return to the normal operation state by regarding that the main device has entered the stable operation state as the completion of the maintenance.

In addition to the [common configuration], the third characteristic configuration of the present invention includes:
The notification invalidation cancellation condition includes that the fuel cell as the power generation device has started power generation as a condition.

  In this configuration, it can be regarded as completion of the maintenance that the facility that stopped the power generation when the maintenance is performed can return to the normal operation state.

Today, for example, PEFC that operates at a relatively low temperature and SOFC that operates at a relatively high temperature are well known as fuel cells. In PEFC, it takes about 1 hour, but in SOFC, it takes 3 hours.
Further, if it is necessary for the maintenance worker to remain on site until the completion of the maintenance, the latter fuel cell example takes a considerably long time, resulting in wasted time for the maintenance worker.
Therefore, for example, depending on the type of the fuel cell installed, an appropriate operation mode can be ensured by setting the timing of the completion of maintenance as the start of power generation or confirming the ignition of the reformer.

A fourth characteristic configuration of the present invention is a power generation system including any one of the first to third characteristic configurations,
The notification invalidation cancellation condition includes a condition that the individual maintenance of the device or the device regarding the device or the device requiring the maintenance is completed as a condition.

  This configuration mainly corresponds to a case where maintenance for individual devices or apparatuses is required. And according to this structure, when the maintenance of the apparatus or apparatus which is actually a problem is completed, it can be regarded as the completion of the maintenance which concerns on an installation, and can return to a normal driving | running state.

In the present invention, various conditions can be set as notification invalidation cancellation conditions corresponding to the configuration of the equipment, the type of error, and the like.
The power generation system according to the present invention can achieve an appropriate and wasteful operation of the system under a notification invalidation release condition that is considered appropriate by a management company, a maintenance company, or the like.

From the circumstances described in paragraph [0028] above,
It is preferable that the notification invalidation cancellation condition is varied depending on the type of the fuel cell as the power generation device. This is the fifth characteristic configuration of the present invention.

Furthermore, the sixth characteristic configuration of the present invention is
As the notification invalidation cancellation condition, a specific notification invalidation cancellation condition can be selectively set from a plurality of notification invalidation cancellation conditions.

  With this configuration, it is possible to select and set the completion of the maintenance as an appropriate condition, and to appropriately and efficiently operate the equipment under the notification release condition that the management company, the maintenance company, etc. consider appropriate.

The seventh characteristic configuration of the present invention is
The notification invalidation cancellation condition includes a condition that varies depending on an operation period, a cumulative power generation amount, an installation period, or a period after release of the power generator.

With this configuration, appropriate operation based on the operation period of the power generation device, the accumulated power generation amount, the installation period, or the period after release can be achieved.
For example, regarding the installation period, when the operation period of the power generation device has passed a year, the power generation equipment can perform sufficiently stable operation (including the start of operation), so that the maintenance completion is relatively short. If the installation period is long but the operation period is short, there are some conditions such as short operation period. Start etc.). The same applies to the period after release. Although the operation period includes a period during which no power generation is actually performed, the maintenance of equipment greatly depends on the actual accumulated power generation amount, and therefore, the accumulated power generation amount may be used as a reference.

The eighth feature of the present invention is
The operation stop means automatically stops the operation of the equipment in conjunction with the error notification to the management server by the notification means.

  In the present invention, the error notified by the notification means is mainly due to an error caused by a failure of the device, and a normally operating device has reached its maintenance time, and the worker needs to go to the site to perform the work. In the case of the former error, the operation stop means automatically stops the operation of the equipment along with the error notification, so that problems such as damage to the equipment can be solved and reliability is maintained. be able to.

The ninth feature of the present invention is
In the operation stop by the operation stop means, the facility is stopped through the operation stop transition operation.

  In a distributed power generation facility and a power generation system equipped with these power generation facilities, when stopping the operation, it is necessary to sequentially stop the equipment, the facility, and the system in a predetermined procedure. In the operation, the equipment constituting the power generation facility, the power generation facility itself, and further the power generation system can be stopped satisfactorily through the operation for shifting to the operation stop.

The tenth feature of the present invention is
The management server includes transfer means for transferring the error notified by the notification means to an external organization server,
The notification invalidation means is a transfer stop means for stopping transfer by the transfer means;
The notification validation means is transfer resumption means for resuming transfer by the transfer means.

This configuration corresponds to the configuration in which the management server is provided with transfer means.
By using the notification invalidating means as the transfer stopping means and the notification validating means as the transfer resuming means, it is possible to prevent the information from being transferred from the management server to the external organization server (for example, a call center server or a trader server).

Diagram showing schematic configuration of power generation system Diagram showing schematic configuration of distributed power generation equipment Diagram showing schematic configuration of hot water storage unit The figure which shows the detail of the equipment control part and management server which comprise a distributed power generation equipment Explanatory diagram showing the correspondence between the operation of distributed power generation facilities and main components, transfer prohibition and transfer restart The figure which shows the form of the past log of the distributed generation facility memorize | stored in a management server The figure which shows the relationship between the transfer stop period Tn and the transfer resumption period Tp

Hereinafter, the power generation system 100 according to the present invention will be described with reference to the drawings.
As shown in FIG. 1, the power generation system 100 includes a large number of distributed power generation facilities 101, a management server 102 that centrally manages the large number of distributed power generation facilities 101, a center server 103, and a supplier server 104. It is constructed by connecting the persons 101, 102, 103, and 104 so as to be able to communicate information via the Internet I.

The distributed power generation equipment 101 is installed at the location of the electric power consumer 10 (for example, at each home or business site, so far explained), and as shown in FIG. The power generation operation is performed by receiving the supply of water w such as CH ₄ ) and tap water.
In this embodiment, a fuel cell U1a is provided as a power generator, and the fuel cell U1a receives supply of hydrogen H ₂ and water w obtained by reforming the fuel f and sucks an oxidant such as air a. To generate power p. The generated power p is supplied to the power load 11 of the power consumer 10. The surplus of the generated power p can be sold through a commercial power system (not shown), and when the power p is insufficient, it is also possible to purchase power from the commercial power system.

  Returning to FIG. 1, a power consumer terminal 101 a is provided at the location of each power consumer 10, and the operating conditions of the distributed power generation facility 101 desired by the power consumer 10 are specified using this terminal 101 a. Furthermore, it is possible to communicate with each terminal (such as the administrator terminal 102a, the center terminal 103a, and the trader terminal 104a shown in FIG. 1) connected via the Internet I.

  The management server 102 is directly managed by the management company 20, and information related to its operation is accumulated from all the distributed power generation facilities 101 to be managed. Operations such as reference, input / output, and correction of information stored in the management server 102 can be performed via the administrator terminal 102a.

An example of the management form of each distributed power generation facility 101 in the management server 102 is shown in FIG.
The figure shows an example of (a) and (b), but only the description state of the work accompanying the maintenance is different.
As can be seen from these figures, in this example, the distributed power generation facility 101 includes model information d1, serial number information d2, installation location information (address) d3, power consumer information (name) d4, customer Management is performed using number information d5, device status information d6, and the like.
In the form shown in (a), the device status information d6 indicates what “correspondence status” the device is in a predetermined device status.
On the other hand, the form shown in (b) shows in what state the device is in response to a predetermined error occurrence.

  Although described as the device status information d6 here, the entire apparatus and the entire facility are also subject to management as status information in accordance with the summary.

The device state information d6 shown in FIG. 6B is information data for storing an event occurring in the distributed power generation facility 101 to be managed together with a time stamp, and is a so-called past log.
This figure shows “error occurrence”, “trial operation start”, “reforming burner ignition”, “power generation start”, “power generation in progress”, and the like.
“Error occurrence” indicates that an error has been notified from the distributed power generation facility 101 to the management server 102.
With regard to the device status information d6, the device status 1 and the device status 2 are described as “error occurrence” as the starting point for an error that requires maintenance and the assumption that the maintenance has been substantially completed. This is because good events (“trial start”, “reforming burner ignition”, “power generation start”) are shown in correspondence.

  In the figure, the equipment 101 shown in the second row from the bottom indicates that no response has been taken after “error occurrence”, or that it has been handled but is under maintenance, and is shown in the bottom row. The facility 101 indicates a state where “normal power generation operation” is continued without generating an error (“power generation”).

  The rightmost column in FIGS. 6A and 6B is a column indicating whether or not to transfer an error according to the present invention. This transfer process will be described later in association with the case shown in FIG.

  Returning to FIG. 1, the management server 102 is connected to the center server 103 and the trader server 104 via the Internet I, and can be accessed from the terminals 103a and 104a provided therein. Therefore, the person in charge of the call center 30 and the person in charge of the maintenance company 40 can accurately grasp the current state and the past equipment state related to the distributed power generation equipment 101 in charge.

  In the present invention, when an error such as a failure that causes an operational failure occurs in the distributed power generation facility 101, the error is notified to the management server 102. In principle, this notification is provided in the management server 102. The transfer means c0 is used to transfer the information from the management server 102 to the center server 103 and the trader server 104. As a result, also in the call center 30 and the maintenance company 40, the management company 20 can grasp the error that has occurred in the specific distributed power generation facility 101 and at the same time grasp the occurrence of the error.

  The main business of the call center 30 is service business such as response to inquiries from the power consumer 10, explanation of work procedures required when an error occurs to the power consumer 10, and intermediation with the maintenance company 40. .

  The maintenance company 40 is a supplier who receives maintenance contracts for the individual distributed power generation facilities 101 from the management company 20, and includes a supplier server 104. When the maintenance work of the distributed power generation facility 101 in which the error has occurred is entrusted, the maintenance company 40 determines the maintenance worker 104b, and the maintenance worker 104b contacts the power consumer 10 to determine the maintenance date and time. However, the work proceeds in a form of visiting and performing maintenance on that day.

  In the above operation mode, on-site maintenance of the distributed generation facility 101 starts. Hereinafter, the configuration of the distributed generation facility 101 and its control units U1c, U2c, and C will be described with reference to FIGS. This will be described with reference to FIG.

FIG. 2 schematically shows a configuration example of the distributed power generation facility 101.
As shown in the figure, in this example, the distributed power generation facility 101 is a so-called cogeneration facility (a combined heat and power supply facility), and includes a fuel cell U1a, and power p generated by the fuel cell U1a. Can be supplied to the load 11 of the electric power consumer 10, and the heat generated by the power generation is recovered in the form of hot water, so that the hot water can be used for a predetermined heat such as hot water supply, heating, bathing, etc. Can be used.
When the distributed power generation facility 101 is installed in a home, the generated power covers the power consumption in the home and the generated hot water is used for hot water supply, heating, bathing, and the like.

In this example, the distributed power generation facility 101 is configured to include a power generation unit U1 and a hot water storage unit U2, and the power generation unit U1 includes a fuel cell U1a and generates electric power p by receiving supply of fuel f and water w. To do. The heat generated in the fuel cell U1a is recovered as hot water.
The hot water storage unit U2 includes a hot water storage tank U2a as a main device, and collects the exhaust heat from the power generation unit U1 as hot water, and uses the hot water stored in the hot water storage tank U2a for hot water supply or the like. To serve.

  Each unit U1, U2 includes a control unit (power generation unit control unit U1c, hot water storage unit control unit U2c) that is unique to each unit, and is externally provided as necessary according to information from these control units U1c, U2c. (Specifically, a facility control unit C is provided for notifying predetermined information to the management server 102 described above). Whether the communication between the units U1 and U2 is established is also managed by the facility control unit C. The predetermined information includes device status information d6 stored in the management server 102 in a log form. The device status information d6 includes an error that is notified when a failure occurs in the facility 101 (a type of error that causes a failure in the operation of the facility 101) and a device status when processing for this error is completed.

Power generation unit U1
Main devices constituting the power generation unit U1 are a fuel cell U1a, a reformer U1b, a heat recovery device U1d, and a power converter U1e.

In this example, the reformer U1b receives supply of city gas as the fuel f and water w, and generates hydrogen (H ₂ ) by steam reforming from methane (CH ₄ ), which is the main component of the city gas. . Since the reforming reaction occurs in a predetermined high temperature range, the reformer U1b is provided with a reforming burner b1 that raises the temperature of the reforming part b2 by burning the fuel f. The reformer U1b is equipped with an ignition sensor s1 for confirming the ignition of the reformer burner b1, and also with a temperature sensor s2 for confirming the temperature rising upper body of the reformer b2. .

  The fuel cell U1a receives supply of hydrogen from the reformer U1b and receives air a as an oxidant to generate electric power p by a known cell reaction. Water is generated with power generation, and the generated water is configured to be reusable through a predetermined water treatment circuit (not shown). This circuit is provided with a pump for water circulation.

  The power conversion device U1e converts the power p generated by the fuel cell U1a into an alternating current and outputs it.

  The heat recovery device U1d receives the exhaust heat generated by the fuel cell U1a by the water w sent from the hot water storage unit U2, and recovers it as hot water. Accordingly, as shown in FIG. 3, the heat recovery device U1d includes a heat supply side heat exchange section L1a provided in the power generation unit side recovery circuit L1 for recovering heat from the fuel cell U1a, and the heat supply side heat. A hot water storage unit side recovery circuit L2 provided between the heat receiving side heat exchanging portion L2a configured to be able to exchange heat with the exchanging portion L1a and the hot water storage tank U2a is provided. The circulation paths L1 and L2 are also provided with a flow rate sensor s4 and a temperature sensor s5 for detecting the circulation amount, and a circulation pump P, respectively. FIG. 3 shows only those provided in the hot water storage unit side recovery circuit L2.

  As shown in the figure, the hot water storage unit side recovery circuit L2 draws a relatively low temperature water w from the lower part of the hot water storage tank U2a, receives heat at the heat receiving side heat exchange part L2a, and then has a relatively high temperature at the upper part of the hot water storage tank U2a. A circulation circuit for returning water w (hot water).

The hot water storage unit U2 is configured with the hot water storage tank U2a as a core, and the heat recovered from the heat recovery device U1d can be stored in the hot water storage tank U2a in the form of hot water.
On the other hand, as schematically shown in FIG. 2, the hot water can be discharged from the upper portion of the hot water storage tank U2a, and can be used for heat utilization such as hot water supply, heating, and reheating.

  FIG. 3 is a circuit diagram showing a specific configuration example of the hot water storage unit U2, in which hot water is discharged from the hot water storage tank U2a and used for hot water supply, and heat exchange is provided in a hot water circulation circuit. It is configured to be able to use heat at a predetermined heat utilization destination (chase and heating) using the container U2d.

For these operation purposes, the hot water storage unit U2 is also provided with a circulation pump P, valves V1, V2, V3, and V4, and temperature sensors s5 and s7 for detecting the water temperature (hot water temperature) of a predetermined portion. A flow rate sensor s6 and the like for detecting the amount of water flowing through the circuit are provided. Therefore, these devices and devices serve as auxiliary machines in the present invention and are subject to maintenance.
The above is the outline of the configuration on the hardware side of the distributed power generation facility 101.

Hereinafter, a configuration related to the feature of the present invention will be described with reference to FIGS.
FIG. 4 shows the functional configuration of the facility control unit C and the management server 102 that centrally control the distributed power generation facility 101, and the “means” described therein has a predetermined function related to the present invention. For the purpose of fulfilling, it is a predetermined functional means section constructed by a computer, software stored in the computer and related equipment.

  On the other hand, FIG. 5 shows an event that occurs in the distributed power generation facility 101 from the time when the horizontal axis is time and the power generation is stopped due to the occurrence of a failure (error notification is performed according to this event) to the restart of power generation. Is shown over time, and the relationship between the transfer suspension period Tn and the transfer restart period Tp is shown for each of the representative cases with different notification invalidation cancellation conditions in the present invention under the event time chart. is there.

The event time chart separately describes an event related to “whole facility” and an event related to “reformer”.
Events related to “whole equipment” included maintenance mode, inter-unit communication check, initial operation self-check, trial operation start, reforming water injection, cathode air injection, power generation start, and rated output. Here, although the reforming water injection is related to the reforming device U1b, it is described on the “whole facility” side because it is paired with the cathode air input for the purpose of starting power generation.
Events related to the “reforming apparatus” include opening of a fuel valve for fuel injection to the reforming burner b1, ignition, temperature raising heater operation, temperature rise confirmation, and the like.

As shown in FIG. 4, the facility control unit C provided in each of the distributed power generation facilities 101 includes an operation stop unit c1 and a notification unit c2 as functional units, and the management server 102 includes a notification invalidation unit. c3 and notification enabling means c4 are provided.
The operation of each functional unit c1, c2, c3, and c4 when a failure occurs in the facility 101 will be described. The operation stop unit c1 stops the operation of the facility 101 when a failure (a type of error) occurs. . In the present invention, the operation stop of the equipment 101 is a stop through an operation stop transition operation (see FIG. 7). This operation stop transition operation is an operation that is essential when the facility 101 is completely stopped. In the present invention, this operation period is included in the operation stop state. Here, in the operation of shifting to stop operation, it means a state in which the power supply facility stops the supply of electric power to the outside and the temperature of the device is lowered.

As the operation stop in the main device related to power generation, the reforming device U1b and the fuel cell U1a are stopped, and the supply of the power p from the fuel cell U1a to the power consumption side is stopped. Accordingly, in the reformer U1b, the reception of the fuel f and the water w is stopped, and the temperature of the reforming unit b2 is lowered to room temperature. On the other hand, the same applies to the fuel cell U1a, and the acceptance of hydrogen from the reformer U1b and the acceptance of air a are stopped and the temperature is lowered to room temperature. As a result, the exhaust heat recovery using the heat recovery device U1d is also stopped.
An operation stop at a functional part related to heat utilization is a stop of the exhaust heat recovery function.

  The notification unit c2 notifies the management server 102 of this event as an error when a failure is detected. When the management server 102 receives the notification of this error, in the situation where the notification invalidation means c3 described below does not work, the transfer means c0 works, the error is transferred, and the distributed generation facility 101 that has notified the error The management company 20, the call center 30, and the maintenance company 40 commonly recognize that there is a failure state.

  The notification invalidating means c3 invalidates the notification from the notification means c2 in the operation stop state in which the operation stopping means c1 is activated and the distributed power generation facility 101 is stopped. That is, once the equipment 101 enters the operation stop state, even if an error is notified by the notification means c2, the management server 30 regards the error notification as invalid and transfers it to the center server 103a and the management server 104a. There is no. That is, the notification invalidating unit c3 functions as a transfer stop unit that stops transfer by the transfer unit.

In FIG. 5, this period is described as a transfer suspension period Tn. On the other hand, the period during which the error notification is valid is set as the transfer restart period Tp. Although not shown in the figure, the transfer is naturally performed before the transfer stop period Tn.
Further, FIG. 7 shows the relationship between the transfer suspension period Tn and the transfer restart period Tp. The meanings of the periods Tn and Tp are as described above. However, as shown in FIG. 7A, when an error is notified along with a failure, the transfer prohibited period Tn is notified along with the error. And after a predetermined notification invalidation cancellation condition is satisfied, the transfer resumption period Tp is entered. On the other hand, as shown in FIG. 7B, for example, when an error is notified that a maintenance period has arrived for a specific auxiliary machine, the distributed power generation facility 101 continues to operate regardless of the error notification and performs maintenance. When the worker visits the distributed power generation facility 101 and stops the facility 101, the transfer stop period Tn is entered, and after a predetermined notification invalidation cancellation condition is satisfied, the transfer resume period Tp is entered.

The notification validation unit c4 cancels the invalidation of the notification by the notification invalidation unit c3 and enables the notification by the notification unit c2 when a preset notification invalidation cancellation condition is satisfied upon completion of the maintenance. And
That is, by providing the notification validation unit c4, the notification invalidation by the notification invalidation unit c3 is resolved, and the transfer is resumed to the center server 103a and the management server 104a. That is, the notification validation unit c4 functions as a transfer restart unit that restarts transfer by the transfer unit.

  The power generation system 100 according to the present invention is configured to be able to set various notification invalidation cancellation conditions related to equipment (apparatus / equipment) as the cancellation condition.

The power generation system 100 according to the present invention is configured to be able to selectively set a specific notification invalidation cancellation condition from a plurality of notification invalidation cancellation conditions as the notification invalidation cancellation condition.
That is, it is possible to cancel notification invalidation at the timing of occurrence of various events described above.
Therefore, as shown in FIG. 4, a database DB storing various notification invalidation cancellation conditions is provided in a form attached to the management server 102, and each distributed power generation is performed according to the management intention of the management company 20 or the maintenance company 40. The system is configured such that an operation in which a notification invalidation cancellation condition suitable for the facility 101 is selected and set can be performed.

Hereinafter, the notification invalidation cancellation condition will be described with reference to FIG.
In this figure, as described above, time is plotted on the horizontal axis, and the events that occur in the distributed power generation facility 101 from the failure (error notification) to the restart of power generation are shown over time. is there.

  Cases 1 to 3 are exemplarily shown as notification invalidation cancellation conditions for events related to the entire distributed power generation facility.

  Similarly, regarding the events related to the reformer U1b, cases 4 and 5 are shown as examples of the notification invalidation cancellation condition.

  Case 6 is a notification invalidation cancellation condition that the distributed power generation facility 101 has restarted power generation.

Case 7 requires replacement of the auxiliary machine.
In FIG. 5, as shown later, when an auxiliary machine breaks down and is stopped, it is reported as an error that the maintenance period of the auxiliary machine has arrived, and then the maintenance worker 104b actually visits the site and performs maintenance. The case where an auxiliary machine is replaced was described.

Hereinafter, it demonstrates in order.
Notification invalidation cancellation condition related to the entire distributed power generation facility As shown in the time chart at the top of FIG. 5, the distributed power generation facility 101 in the power generation state is installed by the operation stop means c1 due to the occurrence of a failure. 101 is stopped (power generation is stopped), and the notification unit c2 is activated to notify the management server 102 of the error.

  The stoppage of the equipment 101 involves the investigation of the cause of the failure at the management company 20 and the communication between the call center 30, the power consumer 10 and the maintenance company 40 as described above. 104b goes to the site where the distributed power generation equipment 101 is installed.

  As shown in the second stage time chart, the maintenance work at the site proceeds in the order of maintenance mode, initial operation self-check, inter-unit communication check, test run, and power generation.

  Here, the maintenance mode is a mode in which the auxiliary machine can be operated independently, and this mode is ended after replacement, restart, confirmation, and error reset of the auxiliary machine (see Case 1 and Case 7).

The initial operation self-check is a check that is performed before starting the equipment 101 when starting the test operation, and is a check that is performed to automatically confirm power-on / conduction state and single-time driving of various auxiliary machines.
The inter-unit communication check is a check for confirming whether communication is normally performed between the power generation unit U1 and the hot water storage unit U2.

  Thereafter, trial operation is started and power generation / hot water storage is actually performed. On the fuel cell unit U1 side, reforming by the reformer U1b, supply of fuel after reforming to the fuel cell U1a, power generation, output of power Proceed in order.

  The operation of the reformer U1b is, as shown in the time chart in the middle of FIG. 5, receives fuel f and water w into the device U1b, ignites and burns the reformer burner b1, and generates steam. The temperature of the reforming part b2 is increased to a temperature necessary for reforming.

Hereinafter, each of the transfer stop periods Tn indicated by shading in FIG. 5 will be described.
Except for case 7 which will be described later, the timing at which the notification invalidating means c3 is activated and the error transfer to the outside is stopped is the same in all cases as the timing after the failure occurs and the error is notified to the management server 102. Yes.

Notification invalidation cancellation condition Case 1
This release condition is based on the condition that the maintenance mode for independently operating the independently operable device (auxiliary machine described so far) provided in the facility 101 is released.

Notification invalidation cancellation condition Case 2
The release condition is that the initial operation self-check is completed.
The completion of the initial operation self-check is an example that the trial run can be started.

Notification invalidation cancellation condition Case 3
This release condition is based on the condition that the trial operation has started.

Notification invalidation cancellation condition Case 4
The release condition is that the ignition of the reforming burner b1 provided in the reformer U1b is confirmed.

Notification invalidation cancellation condition Case 5
The release condition is that the reformer U1b has been heated to a predetermined temperature.
The temperature rise confirmation of the reformer U1b is an example in which the main device has entered a stable operation state.

Notification invalidation cancellation condition Case 6
This release condition is based on the condition that the fuel cell U1a as the power generation device has started power generation.

Notification invalidation cancellation condition Case 7 (7-1, 7-2)
This release condition is based on the condition that the replacement of a replacement-required device (auxiliary machine or the like) that is provided in the equipment 101 and needs to be replaced is completed, and a reset operation associated with the replacement is performed.

    In this case, when the auxiliary machine fails and is stopped (7-1), the transfer stop period Tn is from the occurrence of the failure (error notification) until the auxiliary machine replacement is completed and the error is reset. This case 7-1 is the situation described above with reference to FIG.

  On the other hand, it is reported as an error that the maintenance period of the auxiliary equipment has arrived. In this case (7-2), the maintenance worker 104b actually visits the site and starts the replacement of the auxiliary equipment. The period until the error is reset related to the auxiliary machine is the transfer stop period Tn. This is the situation described above with reference to FIG.

In the equipment state of the equipment 101 shown in FIG. 6 (a), the “maintenance in progress” described in the uppermost section indicates that a maintenance worker needs to perform maintenance on-site when an automatic stop due to a failure is performed. The invalidation cancellation condition is not satisfied and no transfer is performed. Similarly, when the maintenance period has arrived and the maintenance worker is performing maintenance such as exchanging auxiliary equipment on site, the maintenance worker performs the maintenance work after stopping the equipment. It will not be transferred. Since all the states shown below are normal operating states, transfer is performed.
On the other hand, regarding the equipment state shown in FIG. 6B, the equipment state (operating state) is switched from the equipment state 1 (error occurrence) to the equipment state 2 (trial start, reformer burner ignition, power generation start). However, for example, when the power generation start shown in Case 6 is set as a notification invalidation cancellation condition, transfer is not performed in the first and second stages, and transfer is performed in the third section. Is called.
In the state of the fourth stage shown in FIG. 6B, an error has occurred, but since the maintenance has not yet been completed, transfer is not performed.
In the state described in the bottom row, since power generation is normally continued, transfer is performed.

[Another embodiment]
(1) In the above embodiment, the case where an error is caused by a failure has been mainly described, but the error is not limited to a failure. An event that becomes a failure in normal operation and requires maintenance after stopping the equipment 101 is included, and as described above, the maintenance worker 104b includes erroneous maintenance processing, incomplete work, and the like.

(2) Further, as shown in the previous case 7, there is an error notification for notifying that the period of the regular maintenance has arrived, although the equipment 101 is the equipment 101 in a normal state. The case where the worker 104b needs to visit the site and stop the equipment 101 to perform maintenance is also included in the error. During such regular maintenance, the maintenance worker 104b who arrives at the site stops the equipment 101, so the equipment operated in this equipment stop operation becomes the operation stop means c1.

(3) In the above embodiment, an example in which the call center 30 is provided in the power generation system 100 has been described, but it is not necessarily provided.

(4) In the above embodiment, the example in which the facility 101 is configured by a plurality of units U1 and U2 has been described. However, even if the distributed power generation facility 101 has a single unit configuration There is no problem.

(5) In the above embodiment, based on Cases 1 to 7 shown in FIG. 5, the start of the external notification prohibition period Tn is set as a timing after notifying the management server 102 of an error accompanied by the occurrence of a failure. However, after the error notification, the timing at which the distributed power generation facility 101 enters a standby state through a cooling process or the like may be set as the timing at which a maintenance worker inputs maintenance work at the site.

(6) The notification prohibition release condition is not limited to the examples described so far, and may be based on the condition that the individual maintenance of the device or device is completed for the device or device that requires maintenance. And it is good also as conditions that the trial run can be started or that the said trial run was started. Furthermore, it may be included as a condition that the main apparatus constituting the equipment 101 has entered a stable operation state in which it stably operates.

The notification invalidation cancellation condition can be varied depending on the type of fuel cell.
For example, in the case of PEFC, the start of power generation can be set as a notification invalidation cancellation condition (case 6), and in the case of SOFC, ignition of the reforming burner b1 can be set as a notification invalidation condition (case 4). As a result, the maintenance worker confirms the PEFC on site until power generation, but the SOFC does not check the maintenance worker on site until ignition because SOFC saves unnecessary time. In this way, notification invalidation can be canceled at an appropriate timing.

In addition, the notification invalidation cancellation condition can be varied depending on the operation period, the accumulated power generation amount, the installation period, or the period after release of the power generation device U1a.
For example, since the operation performance in the market is poor for one year after the release, after maintenance, it is confirmed until the start of power generation, and after one year, it may be confirmed locally until the reforming burner ignition based on the performance in the market It is also possible to switch operations as described above. This can reduce the on-site restraint time of maintenance workers. Here, the accumulated power generation amount can be used instead of the operation results.
One such notification invalidation cancellation condition is designated for a specific distributed power generation facility 101, but a specific notification invalidation is determined from the plurality of notification invalidation cancellation conditions (cases 1 to 7) introduced so far. Select a cancellation condition (any one notification invalidation cancellation condition), and select and set conditions such as model, operation period, accumulated power generation amount, installation location, etc. at the management company 20 and the maintenance company 40 as appropriate. Become.
When setting in this way, different notification invalidation cancellation conditions may be set depending on the type of error, that is, an error with automatic stop due to a failure or an error based on the arrival of a maintenance period. .

DESCRIPTION OF SYMBOLS 10 Electric power consumer 20 Management company 100 Power generation system 101 Distributed generation facility 102 Management server U1a Fuel cell (power generation device)
c0 transfer means c1 operation stop means c2 notification means c3 notification invalidation means (transfer prohibition means)
c4 Notification validating means (transfer restarting means)
f Fuel

Claims (10)

A distributed power generation facility configured to receive a supply of fuel and generate power, and configured to be able to supply power generated by the power generation device to a power consumer;
A management server that manages the plurality of distributed power generation facilities,
An informing means for notifying the management server of an error when maintenance is required for the distributed power generation facility, and an operation stop for stopping the operation of the distributed power generation facility when performing maintenance of the distributed power generation facility A power generation system comprising means,
In the operation stop state in which the operation of the operation stop means and the distributed power generation facility has been stopped, and provided with a notification invalidation means for invalidating the notification from the notification means,
Notification enabling means for canceling the invalidation of the notification by the notification invalidating means and validating the notification by the notification means when a preset notification invalidation cancellation condition is satisfied with the completion of the maintenance With
When restarting the operation from the operation stop state, the test operation is performed.
The power generation system including, as a condition, the fact that the test operation can be started or the test operation is started in the notification invalidation cancellation condition. A distributed power generation facility configured to receive a supply of fuel and generate power, and configured to be able to supply power generated by the power generation device to a power consumer;
A management server that manages the plurality of distributed power generation facilities,
An informing means for notifying the management server of an error when maintenance is required for the distributed power generation facility, and an operation stop for stopping the operation of the distributed power generation facility when performing maintenance of the distributed power generation facility A power generation system comprising means,
In the operation stop state in which the operation of the operation stop means and the distributed power generation facility has been stopped, and provided with a notification invalidation means for invalidating the notification from the notification means,
Notification enabling means for canceling the invalidation of the notification by the notification invalidating means and validating the notification by the notification means when a preset notification invalidation cancellation condition is satisfied with the completion of the maintenance With
The power generation system including, as a condition, that the notification invalidation cancellation condition has entered a stable operation state in which main devices constituting the facility operate stably. A distributed power generation facility configured to receive a supply of fuel and generate power, and configured to be able to supply power generated by the power generation device to a power consumer;
A management server that manages the plurality of distributed power generation facilities,
An informing means for notifying the management server of an error when maintenance is required for the distributed power generation facility, and an operation stop for stopping the operation of the distributed power generation facility when performing maintenance of the distributed power generation facility A power generation system comprising means,
In the operation stop state in which the operation of the operation stop means and the distributed power generation facility has been stopped, and provided with a notification invalidation means for invalidating the notification from the notification means,
Notification enabling means for canceling the invalidation of the notification by the notification invalidating means and validating the notification by the notification means when a preset notification invalidation cancellation condition is satisfied with the completion of the maintenance With
A power generation system including, as a condition, a condition that the fuel cell as the power generation apparatus has started power generation in the notification invalidation cancellation condition.   The power generation system according to any one of claims 1 to 3, wherein the notification invalidation cancellation condition includes, as a condition, that individual maintenance of the device or device is completed with respect to the device or device that requires the maintenance.   The power generation system according to any one of claims 1 to 4, wherein the notification invalidation cancellation condition varies depending on a type of a fuel cell as the power generation device.   The power generation system according to any one of claims 1 to 5, wherein a specific notification invalidation cancellation condition can be selectively set from a plurality of notification invalidation cancellation conditions as the notification invalidation cancellation condition.   The power generation system according to any one of claims 1 to 6, wherein the notification invalidation cancellation condition includes a condition that varies depending on any one of an operation time, a cumulative power generation amount, an installation period, and a period after release of the power generation device. .   The power generation system according to any one of claims 1 to 7, wherein the operation stopping unit automatically stops the operation of the facility in conjunction with an error notification to the management server by the notification unit.   The power generation system according to any one of claims 1 to 8, wherein when the operation is stopped by the operation stop means, the equipment is stopped through a stop operation. The management server includes transfer means for transferring the error notified by the notification means to an external organization server,
The notification invalidation means is a transfer stop means for stopping transfer by the transfer means;
The power generation system according to any one of claims 1 to 9, wherein the notification validation means is transfer resumption means for resuming transfer by the transfer means.

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