JP5159441B2 - Coal ash carry-out plan support device, method and program - Google Patents

Description

  The present invention relates to a coal ash carry-out plan support apparatus, method, and program for assisting in devising a plan for dewatering coal ash and carrying out dehydrated coal ash to a destination.

  In thermal power generation, coal is burned, but after burning, coal ash is generated in units of several tons per day. The coal ash includes dry ash called fly ash and wet ash called clinker ash, and is recycled according to each property.

In particular, wet ash is managed as follows and shipped to a destination.
In order to manage wet ash, thermal power plants have a dehydration station where wet ash is placed in units of several tons, and dehydration where wet ash dehydrated in the dewatering stations is placed in units of several tons. There is a coal ash storage.
When the dehydration of the wet ash is completed in the dehydration field, the accumulated water is drained with a pump. The dehydrated wet ash is moved to the dehydrated coal ash storage unit by a predetermined amount by Yumbo. The wet ash thus moved to the dewatered coal ash storage is transported to the destination by a ship, truck, etc. based on a pre-planned plan, and then ground improvement material, road roadbed material, soil improvement material, fertilizer, Used as a secondary product, sewage / sewage treatment material, etc.

  The following Patent Document 1 proposes a distribution system for industrial by-products including the coal ash described above. According to this distribution system, an industrial by-product receiving company registers the types and properties of industrial by-products to be received in the acceptance project database, and the industrial by-product processing requester requests the types of industrial by-products to be processed, When you enter the properties, you can find a receiving company that meets the needs of the client.

However, the technique shown in Patent Document 1 below is a technique for finding a receiving contractor that meets the needs of the processing client, and plans to carry it out to the receiving contractor while confirming the storage state of coal ash generated in thermal power generation. It's not a technology that makes it easy to do.
JP 2002-342450 A

In general, in a thermal power plant, the generated coal ash (wet ash) is placed in a dehydration plant and dehydrated, and the dewatered coal ash is transferred to the dehydrated coal ash storage plant according to a predetermined plan. There is a management contractor based on this.
And the coal ash managed by the management company in this way is a pre-contracted processing company (hereinafter referred to as “the processing ash”) based on the export plan prepared by a plurality of planners that differ depending on the use or destination of recycling or disposal. , Called the destination.
Note that the coal ash to be discarded is coal ash having a high chlorine concentration. Whether to be recycled or to be discarded is determined in advance by the electric power company measuring the chlorine concentration by sampling.

However, as described above, the managed coal ash carry-out schedule is prepared by a plurality of planners that differ depending on the recycling or disposal application and the carry-out destination. Further, the plurality of different planners cannot successively know the management status of coal ash in the manager.
Therefore, it is difficult for the plurality of different planners to plan a coal ash carry-out schedule in cooperation. Furthermore, when the coal ash managed by the management company is carried out to the destination, the person responsible for carrying out must check the management status of the management company sequentially. In addition, when the electric power company samples coal ash, the management status of the manager must be confirmed sequentially.
Therefore, the coal ash has not been smoothly carried out to the destination.

  The present invention is proposed in consideration of the above circumstances, and a coal ash carry-out plan support apparatus, method, and program capable of supporting easy planning of a coal ash carry-out plan for smoothly carrying coal ash to a carry-out destination The purpose is to provide.

  The inventors of the present invention have found a mechanism capable of easily confirming the storage state of coal ash and planning a smooth carry-out schedule, and have completed the present invention.

(1) A coal ash carry-out plan support device for assisting in devising a plan for dewatering coal ash and carrying out dehydrated coal ash to a destination.
A dehydration required coal ash storage amount input display means for inputting and displaying the storage amount of the coal ash in a dewatering station for dewatering coal ash;
Dehydrated coal ash storage amount input and display means for inputting and displaying the amount of dehydrated coal ash stored in the dehydrated coal ash storage for storing the dehydrated coal ash;
A movement amount input display means for inputting and displaying a movement amount for moving the coal ash stored in the dehydration plant to the dewatered coal ash storage plant;
A carry-out amount input / display means for inputting and displaying the carry-out amount for carrying out the dehydrated coal ash in the dehydrated coal ash storage site together with the name of the carry-out destination;
The dehydrated coal ash storage amount stored in the dehydrated coal ash storage site is input to the dehydrated coal ash storage amount input by the dehydrated coal ash storage amount input display unit by the movement amount input display unit. From the dehydrated coal ash storage amount calculated and displayed by the post-movement dehydrated coal ash storage amount calculation display means to calculate and display by adding the movement amount, By subtracting the carry-out amount input by the input display means, the residual dehydrated coal ash storage amount after being carried out to the carry-out destination is calculated, and the residual dehydrated coal ash storage amount calculation / display means for displaying,
A coal ash carry-out plan support device characterized by comprising:

  According to the invention of (1), the amount of coal ash stored in the dewatering field, the amount of dehydrated coal ash stored in the dewatered coal ash field, the amount of coal ash transferred from the dewatering field to the dehydrated coal ash field, and the destination Each input of the amount of dehydrated coal ash to be carried out is received and displayed. Therefore, since the storage state of the coal ash in the dehydration field and the dewatered coal ash storage field, the destination and the amount of the coal ash can be easily confirmed, it is possible to easily plan the export from the dewatered coal ash storage area to the destination.

  Moreover, since the storage state of coal ash can be grasped, an electric power company or the like can easily make a coal ash sampling plan. Furthermore, after dewatered coal ash is moved from the dewatering station, the amount of dehydrated coal ash stored after storage and stored in the dewatered coal ash storage field, and the amount of residual dehydrated coal ash stored after transporting to the destination are calculated and displayed. Therefore, the amount of dehydrated coal ash stored in the dehydrated coal ash storage station after moving from the dehydration station, and the amount of coal ash stored in the dehydrated coal ash storage station after being transported to the destination can be grasped in real time. It is possible to plan the carry-out schedule more easily.

  (2) The coal ash carry-out plan support device according to (1), further comprising a dehydration field use state display means for displaying the use state of the dewatering field.

  According to the invention of (2), the use state of the dehydration field can be confirmed at a glance.

(3) Each of the dehydrated coal ash storage amount input display means, the dehydrated coal ash storage amount input display means, the transfer amount input display means, and the carry-out amount input display means is in the beginning of the month, the middle of the month, and the end of the month. It is configured to accept and display input for each period unit,
The post-movement dehydrated coal ash storage amount calculation display means and the residual dewatered coal ash storage amount calculation display means perform calculation based on the values input in the respective period units, and display them. The coal ash export plan support device according to 1) or (2).

  According to the invention of (3), it is possible to confirm the storage state of coal ash and make a plan to carry out in units of early, mid-month, and late-month.

  (4) Based on the delivery destination and the amount of the dehydrated coal ash delivered to the delivery destination, which is input for each period of the beginning of the month, the middle of the month, and the end of the month. The coal ash carry-out plan according to (3) or (4), further comprising a period carry-out amount calculation display means for calculating and displaying the carry-out amount for each of the carry-out destinations in the middle and the end of the month Support device.

  According to the invention of (4), the carry-out amount of dehydrated coal ash can be grasped in units of early month, mid month, and late month.

  (5) The period carry-out amount calculation display means is configured to carry out the amount carried out through the moon based on the carry-out amount of the dehydrated coal ash input in each period unit at the beginning of the month, the middle of the month, and the end of the month. The coal ash carry-out plan support device according to (4), characterized in that the ash is calculated and displayed.

  According to the invention of (5), the carry-out amount of dehydrated coal ash through the moon can be grasped.

  (6) Any one of (1) to (5), wherein the dehydrated coal ash storage amount input display means and the dehydrated coal ash storage amount input display means are configured to display the input storage amount as a grid. The coal ash carry-out plan support device described in 1.

  According to the invention of (6), the storage amount can be easily confirmed visually.

(7) A method for assisting the computer in devising a coal ash and formulating a plan for carrying out the dewatered coal ash to a destination,
Accepting and displaying the input of the coal ash storage amount in the dewatering station for dewatering coal ash, and displaying the dehydration required coal ash storage amount input display step,
A dehydrated coal ash storage amount input display step for accepting and displaying an input of a dehydrated coal ash storage amount in a dehydrated coal ash storage site for storing dehydrated coal ash, and
A movement amount input display step for receiving and displaying an input of a movement amount for moving the coal ash stored in the dehydration plant to the dewatered coal ash storage plant;
An unloading amount input step for receiving and displaying an input of an unloading amount for unloading the dehydrated coal ash from the dehydrating coal ash storage site to an unloading destination; and
The dehydrated coal ash storage amount stored in the dehydrated coal ash storage site is calculated by adding the input transfer amount to the input dehydrated coal ash storage amount, and displayed. Storage amount calculation display step;
By subtracting the input carry-out amount from the calculated dehydrated coal ash storage amount, a residual dehydrated coal ash storage amount calculation display for calculating and displaying the residual dehydrated coal ash storage amount after carrying out to the destination Steps,
A method comprising:

  (8) A program that causes a computer to execute the method according to (7).

According to the present invention, since the storage state of coal ash in the dehydration field and the dewatered coal ash storage field, and the input of the destination and the amount of export are received and displayed, the storage state of the coal ash in the dewatering field and the dewatered coal ash storage field Can be easily confirmed, and a plan to carry out from the dehydrated coal ash storage site to the destination can be made easily. Adjustments can be made.
In addition, since the storage state of coal ash can be grasped, a sampling plan for coal ash can be easily made. In addition, the amount of dehydrated coal ash stored in the dewatered coal ash storage station after moving from the dewatering station and the amount of coal ash stored in the dehydrated coal ash storage station after being transported to the destination can be ascertained in real time. Can be easily planned.

  Embodiments of the present invention will be described below in detail with reference to the drawings. In addition, this invention is not limited by this embodiment.

[Outline of coal ash export plan support system]
FIG. 1 is a diagram showing an outline of a coal ash carry-out plan support apparatus according to the present embodiment.
The coal ash carry-out plan support device 1 includes a dehydrated coal ash storage amount input display means 10, a dehydrated coal ash storage amount input display means 11, a movement amount input display means 12, a carry amount input display means 13, and a post-movement dehydrated coal ash storage. The amount calculation display means 14, the remaining dehydrated coal ash storage amount calculation display means 15, the dewatering field use state input display means 16, and the period carry-out amount calculation display means 17 are provided.

The dehydrated coal ash storage amount input display means 10 receives an input of the dehydrated coal ash storage amount in the dehydration field where the coal ash is dehydrated, and displays the input coal ash storage amount. In this embodiment, the dehydration required coal ash storage amount input display means 10 accepts the input of the coal ash storage amount in units of early month, mid month, and late month, and displays them as described later.
Here, the dewatered coal ash is a coal ash containing water that is generated immediately after being burned in a power plant and needs to be dewatered.

The dehydrated coal ash storage amount input display means 11 accepts the input of the dehydrated coal ash storage amount in the dehydrated coal ash storage site for storing the dehydrated coal ash, and displays the input (dehydrated) coal ash storage amount. . In the present embodiment, the dehydrated coal ash storage amount input display means 11 receives the input of the dehydrated coal ash storage amount in the units of early month, mid month, late month, and month, and displays them as described later.
Here, dehydrated coal ash refers to coal ash in a state where dehydrated coal ash is dehydrated and does not contain moisture.

  The movement amount input display means 12 receives an input of a movement amount for moving the coal ash stored in the dewatering field to the dewatered coal ash storage field, and displays the input movement amount. In the present embodiment, the movement amount input display means 12 accepts movement amount input in units of early month, mid month, and late month and displays them as will be described later.

  The unloading amount input display means 13 accepts the input of the unloading coal ash from the dewatered coal ash storage site to the unloading destination together with the input of the unloading destination name, and the input unloading amount and the name of the unloading destination. Is displayed. In the present embodiment, the carry-out amount input display means 13 accepts an input of the carry-out amount in units of early month, mid month, and late month, and displays them as described later.

After movement, the dehydrated coal ash storage amount display unit 14 displays the dehydrated coal ash storage amount stored in the dehydrated coal ash storage site as the dehydrated coal ash storage amount input by the dehydrated coal ash storage amount input display unit 11. The movement amount input by the movement amount input display means 12 is calculated by adding and displayed.
In the present embodiment, the post-movement dehydrated coal ash storage amount calculation display means 14 is dehydrated coal ash storage amount input by the dehydrated coal ash storage amount input display means 11 for each unit of early month, mid-month, and late month. Further, the movement amount input by the movement amount input display means 12 is added, and the obtained value is displayed as will be described later.
Here, the post-transfer dehydrated coal ash storage amount refers to the storage amount after dewatered coal ash dehydrated in the dewatering field is stacked on the dehydrated coal ash originally present in the dehydrated coal ash storage field.

  The remaining dewatered coal ash storage amount calculation display means 15 subtracts the carry-out amount input by the carry-out amount input display means 13 from the post-movement dehydrated coal ash storage amount calculation display means 14 calculated by the post-movement dehydration coal ash storage amount calculation display means 14. By doing so, the remaining dehydrated coal ash storage amount after carrying out to the destination is calculated and displayed.

In the present embodiment, the residual dehydrated coal ash storage amount calculation display means 15 is the post-movement dehydrated coal ash storage amount calculation display means 14 calculated for each unit in the beginning of the month, the middle of the month, and the end of the month. The carry-out amount input by the carry-out amount input display means 13 is subtracted from the ash storage amount, and the obtained value is displayed as will be described later.
Here, the amount of residual dehydrated coal ash stored means the amount of dewatered coal ash stored in the dehydrated coal ash storage station where dewatered coal ash dehydrated in the dewatering station is stacked and left after being delivered to the destination. Say.

  The dehydration field use state input display means 16 receives an input of the dehydration field use state and displays the input use state. Here, the usage state of the dehydration field means “in use”, “unused”, and “switching”. The meanings of “in use”, “unused”, and “switching” will be described later.

The period carry-out amount calculation display means 17 is based on the carry-out destination and the amount of dehydrated coal ash carried out to the carry-out destination entered at the beginning of the month, the middle of the month, and the end of the month. The amount of carry-out for each carry-out destination at the end of the month is calculated and displayed as described later.
Further, based on the carry-out amount in early, mid-month, and late-month units obtained by calculating in this way, the carry-out amount through the moon is calculated and displayed as described later. It should be noted that the carry-out amount through the moon is obtained by adding the carry-out amounts obtained in the beginning of the month, the middle of the month and the end of the month.

[Hardware configuration diagram of coal ash export plan support device]
FIG. 2 is a diagram illustrating a hardware configuration of the coal ash carry-out plan support apparatus 1 according to the present embodiment.

  The coal ash carry-out plan support apparatus 1 includes a CPU (Central Processing Unit) 310, a bus line 200, a main memory 320, a BIOS (Basic Input Output System) 330, a display device 340, an I / O controller 350, a keyboard that constitute a control unit. And an input device 360 such as a mouse, a hard disk 370, an optical disk drive 380, and a semiconductor memory 390. The hard disk 370, the optical disk drive 380, and the semiconductor memory 390 are collectively referred to as a storage device 410.

  The CPU 310 is a part that controls the coal ash carry-out plan support device 1 in an integrated manner, and by reading and executing various programs stored in the hard disk 370 as appropriate, it cooperates with the hardware described above, and relates to the present invention. Various functions are realized.

  The BIOS 330 records a boot program executed by the CPU 310 when the coal ash carry-out plan support device 1 is started, a program that the coal ash carry-out plan support device 1 depends on hardware, and the like.

  The display device 340 includes a display device such as a cathode ray tube liquid crystal device (CRT) or a liquid crystal display device (LCD).

  A storage device 410 such as a hard disk 370, an optical disk drive 380, and a semiconductor memory 390 can be connected to the I / O controller 350.

  The input device 360 is provided in order to input at least the dehydrated coal ash storage amount, the dehydrated coal ash storage amount, the transfer amount, the carry-out amount, and the dehydration field usage state.

  The hard disk 370 stores various programs for causing the hardware to function as the coal ash carry-out plan support apparatus 1, programs for executing the functions of the invention, and tables and records to be described later. The coal ash carry-out plan support apparatus 1 can also use a hard disk (not shown) separately provided as an external storage device.

  As the optical disk drive 380, for example, a DVD-ROM drive, a CD-ROM drive, a DVD-RAM drive, or a CD-RAM drive can be used. In this case, the optical disk 400 corresponding to each drive is used. A program or data can be read from the optical disk 400 by the optical disk drive 380 and provided to the main memory 320 or the hard disk 370 via the I / O controller 350.

  Note that the computer in the present invention refers to an information processing device including the storage device 410, the CPU 310, and the like, and the coal ash carry-out plan support device 1 includes an information processing device including the storage device 410, the CPU 310, This information processing apparatus is included in the concept of the computer of the present invention.

In this coal ash carry-out plan support apparatus 1, dehydrated coal ash storage amount input display means 10, dehydrated coal ash storage amount input display means 11, movement amount input display means 12, carry amount input display means 13, post-movement dehydrated coal ash The CPU 310 and the display device 340 mainly correspond to the storage amount calculation / display unit 14, the residual dewatered coal ash storage amount calculation / display unit 15, the dewatering field usage state input / display unit 16, and the period carry-out amount calculation / display unit 17.
In the coal ash carry-out plan support device 1, the input numerical value (for example, coal ash storage amount) and the calculated numerical value (for example, dehydrated coal ash storage amount) are stored in the storage device 410.

  The coal ash carry-out plan support device 1 according to the present embodiment includes a dehydrated coal ash storage amount input display means 10, a dehydrated coal ash storage amount input display means 11, a movement amount input display means 12, a carry amount input display means 13, a movement The post-dehydrated coal ash storage amount calculation display means 14, the residual dewatered coal ash storage amount calculation display means 15, the dewatering field usage state input display means 16, and the period carry-out amount calculation display means 17 cooperate to provide the planner. On the other hand, it will support the planning of coal ash removal schedule by providing the format of “Drainage Station Status Table” described in detail below.

[Summary of drainage table]
3-6 is a figure which shows the outline | summary of the drainage field situation table | surface. The term “water drainage station” used in this example means “dehydration field” in the present invention, and “ash storage field” means “dehydrated coal ash storage field” in the present invention. Further, in the present embodiment, it is assumed that there are four “water drainage stations” and three thermal power plants “ash yard”.

Furthermore, the correspondence relationship between the “drainage” and “ash storage” is as follows.
○ NO1 drainage yard: Corresponds to “No.1 ash yard” and “No.2 ash yard”, and NO1 drainage yard has dehydrated coal ash in both “No.1 ash yard” and “No.2 ash yard”. It is movable.
○ NO2 drainage yard: Corresponds to "No.2 ash yard" and "No.3 ash yard". From the NO2 drainage yard, dehydrated coal ash is added to both "No.2 ash yard" and "No.3 ash yard". It is movable.
○ NO3 drainage yard: Corresponds to “No.3 ash yard” and “No.4 ash yard”. From the NO3 drainage yard, dehydrated coal ash is added to both “No.3 ash yard” and “No.4 ash yard”. It is movable.

[Summary of drainage table at the beginning of the month]
FIG. 3 is a diagram showing an outline of the water drainage site table in the beginning of the month. In the figure, the water drainage situation table in the beginning of the month is “drainage situation table 200”.

The drainage table 200 is a “current storage” for inputting the dehydrated coal ash storage amount placed in each of the NO1 drainage station to the NO3 drainage station corresponding to each of the NO1 drainage station to the NO3 drainage station. The “ash amount” columns 211 to 213 are displayed. Specifically, the numerical value of the amount of dehydrated coal ash stored at the beginning of the month is input and displayed.
Thus, since the numerical value of the dehydrated coal ash storage amount is input and displayed, the planner can easily check the dehydrated coal ash storage amount visually while checking the dehydrated coal ash storage amount visually. You can plan.

  In the drainage site status table 200, when the dehydrated coal ash storage amount is input to each of the “current ash storage amount” columns 211 to 213, the input dehydrated coal ash storage amount can be visually confirmed. Therefore, the CPU 310 displays the input storage amount on each of the storage amount display cells 231 to 233 corresponding to each of the “current ash storage amount” columns 211 to 213. Here, the CPU 310 corresponds to a storage amount of 200 tons per one cell, and each 200 tons storage amount is discolored and displayed by one cell.

In the present embodiment, “1000” (unit “tons”) is entered in the column corresponding to “NO3 drainage” in the “current ash storage amount” columns 211 to 213, The “storage amount display cell” 233 is displayed in a discolored manner by 5%.
In this way, the planner can visually check how much dehydrated coal ash is stored in the drainage yard, so it is easy to plan the movement of the dewatered coal ash from the drainage yard to the ash storage. be able to.

  The “ash storage” columns 201 to 204 are configured to input a dehydrated coal ash storage amount in the ash storage. In the present embodiment, the “ash storage” columns 201 to 204 are configured by a plurality of cells (1st square to 14th square), and the planner starts from the first square according to the storage amount. "○" is entered in the box. Here, a storage amount of 200 tons corresponds to one square. In addition, the name of the input destination (becomes the destination) is displayed in the cell.

  In this way, depending on the amount of storage, if “○” is input in order from the first square, the grid where “○” is input will change color, so how much is dewatered coal ash storage (ash storage)? Since the planner can visually confirm whether or not the amount of dehydrated coal ash is stored, it is possible to easily plan the export from the dehydrated coal ash storage site to the destination.

The “in-use drainage” display fields 221 to 223 correspond to NO1 drainage to NO3 drainage, respectively, and the usage status of the NO3 drainage from the NO1 drainage is displayed. Thereby, the planner can easily confirm the usage status of the dewatering station (drainage station).
Hereinafter, the meanings of “during loading”, “not used”, and “◯” shown in the figure will be described.

“Uploading”: Display indicating that dehydrated coal ash is being stacked from the NO1 drainage to the ash storage corresponding to each of the NO3 drainage from the NO1 drainage.
“Not used”: An indication that neither the NO1 drainage station nor the NO3 drainage station is used. Drainage stations that are marked “not used” are often used only during emergencies such as the rainy season, depending on the thermal power plant.
“O”: Display indicating that the device is in use. In detail, the display which shows that it is in the state which is dewatering in the state which is piled up during the accumulation of dehydration coal ash required.

  The “ship destination” columns 241 to 243 correspond to the NO1 drainage yard to the NO3 drainage basin, respectively, and the numbers from the first ash storage yard to the fourth ash storage yard, that is, numbers “1” to “4” are displayed. By inputting, from which drainage (NO1 drainage to NO3 drainage) to which ash storage (No.1 ash storage to No.4 ash storage) will be piled up coal ash? ) Is displayed. In the present embodiment, it is shown that the coal ash at the NO3 drainage yard is scheduled to be moved with respect to the third ash yard and the fourth ash yard.

  The “scheduled amount of loading” columns 251 to 253 correspond to the NO1 drainage site to the NO3 drainage site, respectively, and the products are loaded from the respective drainage sites to the ash storage places input in the “loading destination” columns 241 to 243. The amount (movement amount) of coal ash to be raised (moved) is input and displayed. In the present embodiment, it is input that 500 tons of dehydrated coal ash is scheduled to be moved from the NO3 drainage site to each of the No. 3 ash yard and the No. 4 ash yard.

  The “current amount” column 261 to 264 is linked to each of the “ash storage” columns 201 to 204, and the CPU 310 stores the dehydrated coal ash storage amount input to each of the “ash storage” columns 201 to 204. Displays the value of. In the present embodiment, values (300 tons, 500 tons, 1200 tons, 1200 tons) input to the “ash shed” columns 201 to 204 corresponding to the first ash yard to the fourth ash yard are linked. It is displayed.

  The “after loading from drainage” columns 271 to 274 display the dehydrated coal ash storage amount after transfer (the current ash storage amount of dehydrated coal ash). In the present embodiment, dehydrated coal ash is obtained by adding the values input to the “scheduled amount to be stored” columns 251 to 253 to the values input to the “current ash storage amount” columns 261 to 264, respectively. The current amount of stored ash is calculated and displayed.

  “Delivered amount to disposal site” columns 281 to 284 accept and display an input of an unloading amount that is scheduled to be unloaded to the unloading destination for dehydrated coal ash in the dehydrated coal ash storage site.

  The “After unloading to disposal site” fields 291 to 294 are entered in the “After unloading to disposal site” fields 281 to 284 from the values entered in the “After loading from drainage field” fields 271 to 274, respectively. The value calculated by subtracting the value is displayed.

  In other words, if the amount of coal ash entered in the “After export to disposal site” fields 281 to 284 is removed from the current dewatered coal ash storage site, the storage amount that should remain in the ash storage site is Calculated and displayed. In the “export destination” columns 301 to 304, the name of the export destination is input and displayed.

[Outline of mid-month unit drainage table]
FIG. 4 is a diagram showing an outline of a mid-month unit drainage field situation table. In the figure, the water drainage situation table in the middle of the month is the “water drainage situation table 201”.

  The input display mode in the mid-month unit drainage site situation table is the same as the input display mode in the early month unit drainage site table shown in FIG. 3 except for the points described below. To do.

  In the “mid-month unit drainage situation table 201” according to the present embodiment, the “current ash storage amount” columns 211 to 213 described above include “current ash storage unit” in the “monthly unit drainage situation table 200”. The values calculated by subtracting the values input in the “scheduled amount to be loaded” columns 251 to 253 from the values displayed in the “volume” columns 211 to 213 are displayed. That is, the net storage amount at the beginning of the middle of the month is calculated and displayed.

  In addition, a “remaining amount of each ash storage place after early delivery” column is displayed at a predetermined location (the upper right location in the present embodiment) of the drainage site table 201. The status table 202 is linked to the “after removal to disposal site” columns 291 to 294, and the values displayed in the “after removal to disposal site” columns 291 to 294 are displayed.

[Summary of drainage table in late month]
FIG. 5 is a diagram showing an outline of a water drainage site table in late month units. In the figure, the water drainage site table in the end of the month is “water drainage site table 202”.

  Except for the points described below, the input display mode in the end-month unit drainage situation table is the beginning-of-month unit drainage situation table 200 shown in FIG. 3 and the mid-month unit drainage state shown in FIG. Since it is the same as the input display mode in the field situation table 201, the description is omitted.

  In the “late-month unit drainage situation table 202” according to this embodiment, the “current ash storage amount” columns 211 to 213 described above include “current ash storage unit” in the “mid-month unit drainage situation table 200”. The values calculated by subtracting the values input in the “scheduled amount to be stored” columns 251 to 253 from the values input in the “amount” columns 211 to 213 are displayed. That is, the net storage amount at the beginning of the end of the month is calculated and displayed.

  In addition, a “remaining amount of each ash storage place after mid-payment” column is displayed in a predetermined location (in the present embodiment, an upper right location) of the drainage site status table 202, and this column is a mid-month unit drainage site. The status table 202 is linked to the “after removal to disposal site” columns 291 to 294, and the values displayed in the “after removal to disposal site” columns 291 to 294 are displayed.

[Summary of monthly drainage table]
FIG. 6 is a diagram showing an overview of a monthly drainage site table. In the figure, the monthly water drainage situation table is “drainage situation table 203”.

  Except for the points described below, the input display mode in the monthly water drainage situation table is the water drainage situation table 200 in the beginning of the month shown in FIG. 3 and the water drainage area in the middle of the month shown in FIG. Since it is the same as the input display mode in the situation table 201 and the drainage site situation table 202 in the end of month shown in FIG.

  The “current ash storage amount end-of-month” columns 501 to 503 are linked to the “current ash storage amount” columns 211 to 213 in the late month drainage site table 202 and are input to the “current ash storage amount” columns 211 to 213. Displayed.

  The “unloading amount” columns 281 to 284 include, for each of the unloading destinations displayed in the “unloading destination” columns 301 to 304, an early-month drainage situation table 200, a mid-month drainage situation table 201, and a late-month drainage situation table. The values entered in the “exported amount to disposal site” fields 281 to 284 of 202 are displayed.

  The values displayed in the “Destination” columns 301 to 304 are the “Destination” columns 301 to 304 of the early month drainage site table 200, mid-month drainage site table 201, and late month drainage site table 202, respectively. The export destination entered in is linked and displayed.

  The “monthly carry-out amount” columns 411 to 414 display the carry-out amount throughout the month for each carry-out destination displayed in the “export destination” columns 401 to 404.

  The unloading amount throughout the month is obtained by adding the “unloading amount to the disposal site” in the early drainage site table 200, the midway drainage site table 201, and the late drainage site table 202 for each destination. It is done.

  In addition, the disposal method is input to the “disposal method” columns 421 to 424 for each destination. In the present embodiment, landfill, wet ash clay, and land creation are input as disposal methods.

  The ship name used for unloading is input in the “ship name” fields 431 and 432, and the scheduled unloading date to the unloading destination is input as shown in the figure.

[Process overview of coal ash export plan support equipment]
FIGS. 7-9 is a flowchart which shows the process outline | summary of the coal ash carrying-out plan assistance apparatus 1 which concerns on this embodiment.

[Procedure for creating the water drainage table in early month]
FIG. 7 is a flowchart showing a creation processing procedure of the early-month drainage site table 200 of the coal ash carry-out plan support apparatus 1 according to the present embodiment.

  S1, S2: Dehydrated coal ash storage amount input display means 11 receives and displays the input of the dehydrated coal ash storage amount. In the present embodiment, the input of the dehydrated coal ash storage amount to the “ash storage” columns 201 to 204 is received and displayed.

  As described above, since the input of the dehydrated coal ash storage amount in the “ash storage” columns 201 to 204 is received and displayed, the planner can easily check the dehydrated coal ash storage amount in the ash storage, You can make a plan to carry out ash.

S3, S4: The dehydrated coal ash storage amount input display means 11 receives and displays the input of the transport destination of the dehydrated coal ash. In the present embodiment, input to the “ash storage” columns 201 to 204 is received and displayed. The steps for receiving and displaying the input of the destination are also in steps S12 and S13, which will be described later. Therefore, for the sake of convenience, the input of the destination (1) and the display of the destination (1) are set.
Thus, since the input of the conveyance destination to the "ash storage" column 201-204 is received and displayed, the conveyance destination of the dewatered coal ash in each of the ash storage can be confirmed easily.

  S5, S6: The dehydration field use state input display means 16 receives and displays the input of the dehydration field use state. In this embodiment, the display of the used drainage fields 221 to 223 is switched.

S7, S8: The dehydrated coal ash storage amount input / display means 10 receives and displays the input of the dehydrated coal ash storage amount required. In this embodiment, input to the “drainage” fields 231 to 233 is received and displayed.
In this way, since the input to the “drainage field” columns 231 to 233 is received and displayed, the dewatered coal ash storage amount in the dewatering field can be easily confirmed.

S9, S10: The movement amount input display means 12 receives and displays the input of the movement amount of the dehydrated coal ash from the dewatering field (drainage field) to the dehydrated coal ash storage field (ash storage area). In the present embodiment, inputs to the “ship destination” columns 241 to 243 and “scheduled amount to be loaded” 251 to 253 are received and displayed.
In this way, the movement amount input display means 12 accepts and displays the inputs to the “ship destination” columns 241 to 243 and “scheduled amount to be loaded” 251 to 253, so that the planner can perform dehydration at the beginning of the month. The movement schedule of coal ash can be easily confirmed.

  S11: The post-movement dehydrated coal ash storage amount calculation display means 14 adds the values input in the “currently stored ash amount” 261 to 264 to the values input in the “scheduled amount to be stored” columns 251 to 253, respectively. The value obtained by doing is displayed. Therefore, the amount of dehydrated coal ash stored by adding the amount moved from the dehydration field can be determined.

S12, S13: The unloading amount input display means 13 accepts and displays the input to the “unloading amount to disposal site” columns 281 to 284.
At that time, the input of the destination is received and displayed in the “out destination” fields 301 to 304 (S14, S15). This process is different from the above-described steps S3 and S4 in the column for receiving and displaying the input, and therefore, for the sake of convenience, it is set as the receiving destination input reception (2) and the unloading destination display (2).

  S16: The residual dehydrated coal ash storage amount calculation display means 15 calculates and displays values to be displayed in the “after removal to disposal site” columns 291 to 294. In other words, the value displayed in the “Amount to be carried out to disposal site” fields 281 to 284 is subtracted from the value displayed in the “After stacking from drainage field” fields 271 to 274, and the obtained value is displayed.

[Procedure for creating a mid-month drainage table and a late-month drainage table]
FIG. 8 is a flowchart showing a creation processing procedure of the mid-month drainage site situation table 201 and the late-month drainage site situation table 202 of the coal ash carry-out plan support apparatus 1 according to the present embodiment. In the figure, the processes in steps S1 to S16 are the same as those in the flowchart shown in FIG.

  S17: Between step S11 and step S12 shown in FIG. 7, the CPU 310 is input to the “current ash storage amount” columns 211 to 213 in the early-month drainage situation table 200 and the mid-month drainage situation table 201. The value obtained by subtracting the value input in the “scheduled amount to be loaded” columns 251 to 253 from the value is displayed. Therefore, the planner can check the amount of dewatered coal ash stored in the dewatering station (drainage station) at the beginning of the middle of the month and the beginning of the end of the month.

[Procedure for creating a monthly drainage table]
FIG. 9 is a flowchart showing a creation processing procedure of the monthly drainage site table 203 of the coal ash carry-out plan support apparatus 1 according to the present embodiment. In the figure, steps S1 and S2 are the same as those in the flowcharts shown in FIGS.

S18: The coal ash carry-out plan support device 1 displays the display of the “in-use drainage field input” fields 221 to 223 of the late-month drainage field table 202 in the “in-use drainage field input” fields 221 to 223.
S19: The coal ash carry-out plan support apparatus 1 displays the display of the “ash storage place” fields 201 to 204 in the “ash storage place” fields 201 to 204 in the end of the month.
S20: The coal ash carry-out plan support device 1 obtains the amount stored in the drainage station (dehydration station) at the end of the month based on the grid display in the “drainage field” columns 231 to 233, and the “scheduled ash amount schedule at the end of month” column 501. Display to ~ 503.

  S21: The period carry-out amount calculation display means 17 calculates and displays the carry-out amount at the beginning of the month, the middle of the month, and the end of the month for each destination. In the present embodiment, the values displayed in the “discharge amount to disposal site” fields 281 to 284 of the drainage site status tables 200 to 202 for each of the beginning of the month, the middle of the month, and the end of the month, Based on the value displayed in 304, the carry-out amount at the beginning of the month, the middle of the month, and the end of the month is calculated and displayed for each carry-out destination.

  S22: The period unloading amount calculation display means 17 calculates the unloading amount for each unloading destination through the month based on the unloading amount for each unloading destination in the beginning of the month, the middle of the month, and the end of the month calculated in step S21. ,indicate. In this embodiment, based on the export destination displayed in the “export destination” columns 301 to 304 and the export amount displayed in the “export amount” columns 281 to 284, for each export destination throughout the month. Calculate and display the carry-out amount.

  S23: The coal ash carry-out plan support apparatus 1 receives and displays the input of the dewatered coal ash carry-out means and the carry-out date. In this embodiment, the carry-out means and the carry-out date are adjacent to the column for inputting and displaying, and the carry-out destination is also input and displayed.

As described above, the coal ash export plan support device 1 according to the present embodiment supports the creation of the drainage site table 200 to 202 for each unit at the beginning of the month, the middle of the month, and the end of the month. , Because it supports the creation of the monthly water drainage situation table 203 based on the items entered in the water drainage situation table 200 to 202 of each unit in the end of the month, It is possible to easily plan the coal ash export schedule at the end of the month and on a monthly basis, and the planner can easily make fine adjustments to the coal ash export destination and amount in cooperation with the power company. It can be carried out.
In addition, the drainage table created in this way is delivered to an electric power company or the like. Therefore, an electric power company or the like can confirm the storage state and transportation schedule of coal ash at the beginning of the month, the middle of the month, the end of the month, and the month, and can easily make a coal ash sampling plan.

It is a figure which shows the outline | summary of the coal ash carrying-out plan assistance apparatus which concerns on this embodiment. It is a figure which shows the hardware constitutions of the coal ash carrying-out plan assistance apparatus 1 which concerns on this embodiment. It is a figure which shows the outline | summary of the drainage field situation table of the beginning of the month. It is a figure which shows the outline | summary of the drainage field situation table of the unit of the middle of the month. It is a figure which shows the outline | summary of the water drainage site situation table of the end of the month. It is a figure which shows the outline | summary of the monthly drainage field table. It is a flowchart which shows the preparation process procedure of the early month drainage place situation table of the coal ash export plan assistance apparatus which concerns on this embodiment. It is a flowchart which shows the preparation process procedure of the mid-month drainage field situation table and the late-month drainage field situation table of the coal ash carrying-out plan support apparatus which concerns on this embodiment. It is a flowchart which shows the preparation process procedure of the monthly drainage place situation table of the coal ash export plan assistance apparatus which concerns on this embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Coal ash carry-out plan support apparatus 10 Dehydration required coal ash storage amount input display means 11 Dehydrated coal ash storage amount input display means 12 Movement amount input display means 13 Unloading amount input display means 14 Post movement dehydration coal ash storage amount calculation display means 15 Remaining dehydrated coal ash storage amount calculation display means 16 Dewatering field private state input display means 17 Period discharge amount calculation display means

Claims (6)

Equipped with three dewatering stations and four dewatered coal ash storage stations, move the dehydrated coal ash dehydrated at the first dehydration station to the first dehydration coal ash storage station or the second dewatered coal ash storage station, The dehydrated coal ash dewatered at the plant is moved to the second dehydrated coal ash storage station or the third dehydrated coal ash storage station, and the dehydrated coal ash dehydrated at the third dehydration station is transferred to the third dehydrated coal ash storage station or the fourth dehydrated coal ash storage station. A coal ash carry-out plan support device that assists in devising a plan to dehydrate coal ash and carry out dehydrated coal ash to a destination at a thermal power plant that is moved to and managed by an ash storage ,
A display device;
The dehydration required coal ash storage amount receiving means for receiving input of the storage amount of the coal ash in each of the dewatering stations ,
And dewatering coal ash storage amount accepting means for accepting the input of the storage amount of the dehydrating coal ash in each of the dewatering coal ash storage field,
A moving amount receiving means for receiving an input of a moving amount of the dehydrated coal ash to be moved from each of the dewatering stations to the corresponding dehydrated coal ash storage station;
And unloading amount accepting means for accepting an input of the carry-out amount of the dehydrating coal ash out against out away from each of the dewatering coal ash storage field with the input of the name of the carry-out destination,
Wherein the storage volume of dehydrated coal ash storage amount accepting means the dewatering coal ash is stored in each of the dewatering coal ash storage field accepted, by adding the movement amount which the moving amount receiving unit has received, the a movement after dewatering coal ash storage amount calculation detemir stage for calculating a storage amount of each of the dewatering coal ash storage field after movement of dewatering coal ash,
From the storage amount of the dehydrating coal ash the mobile dewatered coal ash storage amount calculation detemir stage was calculated by subtracting the discharge amount of the discharge amount accepting means has accepted the dewatering coal after unloading to the unloading destination and residual dehydrated coal ash storage amount calculation detemir stage for calculating a storage amount of each of the ash storage field,
Display control means for displaying various information received or calculated by each means on the display device;
With
The display control means is the storage amount of the coal ash stored in the first to third dehydration stations received by the dehydration coal ash storage amount reception means, and the dehydration coal ash storage amount reception means received by the dehydration coal ash storage amount reception means. The storage amounts of the dehydrated coal ash stored in the first to fourth dehydrated coal ash storage stations are respectively expressed as the first dehydrated coal ash storage station, the first dehydration station, the second dehydrated coal ash storage station, A coal ash carry-out plan support apparatus, characterized in that a second dehydration field, the third dewatered coal ash storage field, the third dehydration field, and the fourth dewatered coal ash storage field are arranged in this order and displayed on the display device. The display control means controls the display device and displays the storage amount of the first to fourth dehydrated coal ash storage stations in a grid for storing the dehydrated coal ash stored in the dehydrated coal ash storage station Display,
The coal ash carry-out plan support apparatus according to claim 1, wherein Receives the input of the use state for each of the dehydration field, further example Bei dehydration field use state acceptance means,
The display control means displays the use state received by the dehydration field use state acceptance means on the display device.
The coal ash carry-out plan support device according to claim 1 or 2 , characterized in that. The main dehydration coal ash storage amount accepting means, said dewatering coal ash storage amount acceptance means, the moving amount accepting means, each of said discharge amount accepting means early months, mid month, the input period unit of each of late month Accept,
The mobile dewatered coal ash storage amount calculation detemir stage, the remaining dehydrated coal ash storage amount calculation detemir stage, the display control means performs a calculation based on the values entered in the period unit of the respective the period of the respective Various information received or calculated in units is displayed on the display device.
The coal ash carry-out plan support apparatus according to any one of claims 1 to 3, wherein Based on the delivery destination and the amount of the dehydrated coal ash delivered to the delivery destination, which is input for each period of the beginning of the month, the middle of the month, and the end of the month, the beginning of the month, the middle of the month, the in addition example Bei the period carry-out amount calculated detemir stage for calculating the carry-out amount with respect to the carry-out destination of each of the late month,
The display control means displays the carry-out amount calculated by the period carry-out amount calculation means on the display device.
The coal ash carry-out plan support apparatus according to claim 4 , wherein The period out amount calculation detemir stage, the early October, the month mid, the month is input in a period unit of each of late, on the basis of the discharge amount of the dehydrating coal ash, calculates a discharge amount through the moon ,
The display control means displays the carry-out amount through the moon on the display device.
The coal ash carry-out plan support apparatus according to claim 5 , wherein

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