JPH09296924A - Operation support apparatus and operation support method for ash treatment equipment - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an apparatus capable of indicating a level change of a silo in the future on a display device for indication of a silo level change prediction. SOLUTION: This operation support apparatus comprises a boiler control computer 1, an operation support computer 4, a display device 5 for indication of a silo level change prediction, an ash treatment control device 6, a display device 7 for indication of a silo level, and a level transmitter 8 for a silo 13. The operation support computer 4 reads a fuel consumption schedule curve and a schedule table for kinds of coal used from the boiler control computer 1, and reads a present value of a level of the fly ash silo 13 from the ash treatment control device 6 through the fly ash silo level transmitter 8 to determine a value for every kind of coal from data inputted and the schedule table for kinds of coal on a side of a boiler to calculate an amount Q of ash conveyed to the fly ash silo to calculate a level change of the silo 13 in the future and indicate the same on the CRT display device 5 for indication of a silo level change prediction.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a driving support device and a driving support method used for ash (fly ash) processing equipment for coal-fired boilers. INDUSTRIAL APPLICABILITY The present invention can also be used in an operation support device for a mill pyrite / clinker treatment facility for a coal-fired boiler and an operation support device for an ash (fly ash) treatment facility for a heavy oil-fired boiler.

[0002]

2. Description of the Related Art A system configuration diagram of a conventional ash processing facility is shown in FIG. In FIG. 3, 6 is an ash processing control device and 7 is C
RT display device (for silo level indication), 8 is a level transmitter of fly ash silo, 9 is a boiler, 10 is an electric dust collector, 11 is an ash transport device, 12 is a chimney, 13 is a fly ash silo, and 14 is a silo. Is a discharging device (loading device), 15 is an ash carrier, and 16 is a fly ash.

Fly ash 1 emitted from the boiler 9
6 is captured by the electric dust collector 10 and transported to the fly ash silo 13. Fly ash silo 13
The fly ash 16 stored in the ash carrier 16 is regularly loaded on the ash carrier 15 or loaded on a truck and discharged. The guideline for the discharge timing is created by using the level transmitter 8 of the fly ash silo attached to the fly ash silo 13.

[0004]

As described above, the operator of the ash processing facility determines the discharge timing and discharge interval of the fly ash 16 by using the level instruction indicating the amount of ash in the fly ash silo as a guide. The current situation is that they are regularly discharged.

However, actually, fly ash silo 13
Since the amount Q of ash that is transported to the plant fluctuates greatly depending on the load of the boiler, it is difficult to predict when the fly ash silo will be full.

[0006] For example, when the level of the fly ash silo 13 is 70%, the operator determines whether the fly ash silo has a sufficient time to fill up or whether urgent discharge work is required. There is a problem that you cannot do it.

The present invention is directed to solving these problems.
Show operators how the level of Fly Ash Silo 13 will change in the future, and let Fly Ash Silo 13
It is an object of the present invention to provide a driving support device and method capable of easily determining a required time for discharging (shipping) from a vehicle.

[0008]

[Means for Solving the Problems]

(First Means) An operation support device for an ash treatment facility according to the present invention comprises an ash transport device for transporting ash generated in a boiler to a fly ash silo, and a discharge device for discharging ash in the fly ash silo (shipping device). In the ash (fly ash) treatment apparatus for a coal-fired boiler having (1), (A) a boiler control computer, an ash treatment facility operation support computer, a silo level change prediction presentation CRT display device, and an ash treatment control device. , A silo level indicating CRT display device and a fly ash silo level transmitter, and (B) the ash processing facility operation support computer includes a boiler control computer and an ash processing control device, and a communication device (MODEM). And with a communication function via a communication cable, from the boiler control computer, the fuel consumption schedule schedule curve,
Read the schedule of coal types used, and from the ash treatment control device,
The current value of the level of the fly ash silo is read in via the level transmitter of the fly ash silo, and (C) a fixed value for each coal type is read from the previously entered data and the schedule of the coal type used on the boiler side. It is characterized in that the ash transport amount Q to the fly ash silo is determined and the future level change of the fly ash silo is calculated and displayed on the (D) silo level change prediction presentation CRT display device. (Second Means) An operation support method for an ash treatment facility according to the present invention includes an ash transporting device for transporting ash generated in a boiler to a fly ash silo, and a discharging device for discharging ash in the fly ash silo (a loading device. In a ash (fly ash) treatment facility for a coal-fired boiler having a), the fuel consumption schedule schedule curve is calculated from the (A) boiler control computer,
The schedule of coal types used is read into the ash treatment facility operation support computer, and (B) the ash treatment control device sends the current value of the fly ash silo level via the fly ash silo level transmitter to the ash treatment facility operation support. Read it into the calculator
(C) From the pre-entered data and the schedule of the coal type used on the boiler side, a fixed value for each coal type is determined, and the ash transport amount Q to the fly ash silo is calculated, and the future of the fly ash silo is calculated. (D) predict future changes in ash storage in fly ash silos online,
(E) It is characterized in that the ash transfer between the fly ash silos or the time required for discharge from the fly ash silos is displayed on the CRT display device for presenting silo level change prediction.

Generally, it is known that the boiler fuel has data on the amount of heat generated and the amount of ash generated for each type (coal type). Therefore, the planned fuel supply amount can be determined from the boiler load schedule, and the ash transport amount Q to the fly ash silo can be determined.
Is the equation (1), that is, Q = CAFη (1) where Q: Ash transport amount to fly ash silo (t / h) C; Fuel consumption amount (t / h) A; Ash content in fuel (% / 100) F: Ratio of fly ash (fly ash) (% / 100) η: Dust collection efficiency of an electrostatic precipitator (% / 100) (A, F, η are fixed values for each coal type) be able to.

Since the remaining capacity of the fly ash silo can be calculated from the level signal of the fly ash silo, the calculated value of the remaining capacity of the fly ash silo and the calculated value of the ash transportation amount Q to the fly ash silo by the formula (1). From, it is possible to predict the level change until the fly ash silo is full.

Therefore, if a general computer is used for the main body of the driving support device of the ash processing facility and the above-mentioned data and the formula are input, the calculation result can be presented to the operator online.

Therefore, the operation is as follows. The ash processing facility operation support computer 4 calculates the ash transport amount to the fly ash silo from the boiler load schedule curve and the fuel supply schedule curve input by the boiler operator, and the calculation is performed. Based on the value and the signal indicating the current level of the fly ash silo, the latest forecast data of the future level change of the fly ash silo is displayed on the CRT display device (for presenting silo level change prediction) and presented to the operator.

[0013]

BEST MODE FOR CARRYING OUT THE INVENTION

(First Embodiment) FIG. 1 shows a first embodiment of the present invention.
2 to FIG. FIG. 1 is a system configuration diagram of an apparatus according to the first embodiment of the present invention, and FIG. 2 is a flowchart of a method according to the first embodiment of the present invention.

In FIG. 1, 1 is a computer (for boiler control), 2 is a communication device (MODEM), 3 is a communication cable, 4 is a computer (for ash processing facility operation support), and 5 is a CRT.
Display device (for showing silo level change prediction), 6 is ash processing control device, 8 is level transmitter of fly ash silo,
9 is a boiler, 10 is an electrostatic precipitator, 11 is an ash transporter,
12 is a chimney, 13 is a fly ash silo, 14 is a discharging device (loading device) from the silo, 15 is an ash carrier, 16
Indicates fly ash.

The operation support of the ash processing equipment is performed by the ash processing equipment operation support computer 4 of FIG. The ash treatment facility operation support computer 4 has a communication function with the boiler control computer 1 and the ash treatment control device 6 via the communication device (MODEM) 2 and the communication cable 3, and (A) from the boiler control computer 1 Is the planned fuel consumption schedule curve,
Read the schedule of coal types used, (B) Ash treatment control device 6
From, the current value of the level of the fly ash silo 13 is read in via the fly ash silo level transmitter 8. (C) The ash transport amount Q to the fly ash silo is expressed by the above formula (1): Q = CAFη (1) where Q: ash transport amount to the fly ash silo (t / h) C; fuel consumption amount ( t / h) A: Ash content in fuel (% / 100) F: Ratio of fly ash (fly ash) (% / 100) η: Calculated from the dust collection efficiency (% / 100) of the electrostatic precipitator.

The values A, F, and η in the equation (1) are fixed values for each coal type, and since the data are input in advance, those values are determined from the schedule of the coal type used on the boiler side. It Therefore, the ash processing facility operation support computer 4 can calculate the ash transport amount Q to the fly ash silo using the equation (1). (D) The ash processing facility operation support computer 4 calculates future level changes of the fly ash silo 13 by the program of the flowchart shown in FIG. 2, and presents the silo level change prediction C for the operator.
It is displayed on the RT display device 5.

As shown in FIG. 2, the ash processing equipment operation support computer 4 has a TIME = STEP1 (S1)
Record the current time. In STEP2 (S2), T
Fuel at IME (planned) Coal type and fuel consumption (planned)
The quantity C is read from the boiler control computer 1.

In STEP 3 (S3), the ash transport amount Q = CAF from the fuel coal type to the fly ash silo is stored in advance as a fixed value for each coal type.
Read A, F, and η of η.

In STEP 4 (S4), the ash transport amount Q _n to the fly ash silo 13 is calculated based on the equation (1). In STEP 5 (S5), the ash processing control device 6
The ash level value of the fly ash silo at the current time is read from and the fly ash storage amount S at the current time is calculated.

At STEP 6 (S6), the operator is given a T
Time: predicted value of (T usually 1 hour) fly ash storage amount _{after, (S = S + Q n} ), with the time (TIME + T), through the CRT display device 5 for prediction presented silo level change, presents.

In STEP 7 (S7), it is determined whether or not (S> maximum capacity of silo?). If YES,
End (END).

As a result of STEP 6, the silo storage amount from the current time to the time when the fly ash silo is full is output at every time interval T and displayed on the CRT 5.

If NO, the process proceeds to STEP8 (S8). In STEP8 (S8), TIME = TIME
+ T. STEP8 (S8) to STEP2 (S
Return to 2).

[0024]

Since the present invention is constructed as described above, it has the following effects. (1) With the device or method of the present invention, the operator can know future level changes of the fly ash silo 13 by the CRT display device 5 for presenting silo level change prediction. (2) Therefore, the operator is the fly ash silo 13
It is possible to appropriately plan a fly ash discharge plan from, and it is possible to measure stable operation of the fly ash silo 13.

[Brief description of drawings]

FIG. 1 is a system configuration diagram of an apparatus according to a first embodiment of the present invention.

FIG. 2 is a flowchart of a method according to the first embodiment of the present invention.

FIG. 3 is a system configuration diagram of a conventional ash processing facility.

[Explanation of symbols]

 1 ... Calculator (for boiler control) 2 ... Communication device (MODEM) 3 ... Communication cable 4 ... Calculator (for ash treatment facility operation support) 5 ... CRT display device (for silo level change prediction presentation) 6 ... Ash treatment control device 7 CRT display device (for silo level indication) 8 ... Fly ash silo level transmitter 9 ... Boiler 10 ... Electrostatic precipitator 11 ... Ash transport device 12 ... Chimney 13 ... Fly ash silo 14 ... Silo discharge device (shipping) Equipment) 15 ... Ash carrier 16 ... Fly ash A ... Ash content in fuel C ... Fuel consumption F ... Ratio of fly ash (fly ash) Q ... Ash transport to fly ash silo S ... Fly ash storage η … Dust collection efficiency of the electrostatic precipitator

Claims (2)

[Claims] 1. An ash transport device (11) for transporting ash generated in a boiler to a fly ash silo (13), and a discharge device (1) for discharging ash in the fly ash silo (13).
In a ash (fly ash) treatment device for a coal-fired boiler having 4), (A) a boiler control computer (1), an ash treatment facility operation support computer (4), and a silo level change prediction presentation CRT display device. (5), ash processing control device (6), silo level indicating CRT display device (7)
And a fly ash silo level transmitter (8), (B) the ash treatment facility operation support computer (4),
Boiler control computer (1) and ash treatment control device (6)
And a communication function via the communication device (2) and the communication cable (3), and reads the schedule curve of the fuel consumption schedule and the coal type used from the boiler control computer (1), and the ash treatment control device Read the current value of the level of the fly ash silo (13) from the level transmitter (8) of the fly ash silo from (6), and (C) pre-entered data and the plan of coal type used on the boiler side. From the table,
A fixed value for each coal type is determined, the ash transport amount Q to the fly ash silo is calculated, future level changes of the fly ash silo (13) are calculated, and (D) silo level change prediction presentation CRT display An operation support device for ash processing equipment, which is displayed on the device (5). 2. An ash transport device (11) for transporting ash generated in a boiler to a fly ash silo (13), and a discharge device (1) for discharging ash in the fly ash silo (13).
In a ash (fly ash) treatment facility for a coal-fired boiler having 4), (A) a boiler control computer (1),
Load the fuel consumption schedule schedule curve and the schedule of coal types used into the ash treatment facility operation support computer (4),
(B) The current value of the level of the fly ash silo (13) is read from the ash treatment control device (6) via the fly ash silo level transmitter (8) into the ash treatment equipment operation support computer (4). , (C) The fixed value for each coal type is determined from the pre-entered data and the schedule of the coal type used on the boiler side, and the ash transport amount Q to the fly ash silo is calculated, and the fly ash silo ( (13) Calculate future level changes, (D) predict future changes in fly ash silo (13) ash storage, (E) transfer ash between fly ash silos, or fly ash silos ( A method for supporting the operation of ash processing equipment, characterized in that the time required for discharge from 13) is displayed on a CRT display device (5) for presenting silo level change prediction.