KR100931243B1 - Production method of pulverized coal according to moisture content of coal - Google Patents

Abstract

The present invention relates to a method for producing pulverized coal by setting the temperature of the pulverizer outlet and the amount of coal burnt according to the moisture content of the coal in the pulverized coal manufacturing facility.

The present invention relates to a coal-fired power plant, Detecting a moisture content of coal supplied to the crusher; Inputting the moisture content of the detected coal to a signal conversion program and converting the water content into a temperature of the crusher outlet and a coal fired amount of coal; The flow rate of the hot air is controlled in accordance with the temperature of the set crusher outlet and the set coal amount of the set coal when the detected moisture content is less than the first moisture set value which is the moisture content at the time point at which the temperature of the crusher outlet sharply decreases, The flow rate of the hot air is controlled in accordance with the temperature of the converted crusher exit and the amount of unburnt coal converted when the moisture content of the crushed coal reaches a second moisture set value which is a moisture content at a time point at which the coal ash amount of the coal supplied to the crusher sharply decreases, And controlling the flow rate of the hot air according to the temperature of the converted crusher outlet and the set amount of coal if the detected moisture content is less than the first moisture setting value and the second moisture setting value.

According to the operation of the present invention, the present invention has an effect of preventing problems such as a decrease in the outlet temperature of the crusher, a decrease in the amount of coal ash, and a decrease in the production of pulverized coal, which are caused by excessive moisture content of coal.

Coal, Pulverized coal, Moisture content, Empties, Empties, Crusher outlet temperature

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for producing pulverized coal,

1 is a configuration diagram of a conventional pulverized coal manufacturing facility.

2 is a graph showing the temperature and the amount of unburned coal at the outlet of the crusher according to the moisture content of coal.

3 is a configuration diagram of a pulverized coal manufacturing facility according to the present invention.

4 is a detailed configuration diagram of a pulverized coal manufacturing plant according to the water content of coal according to the present invention.

5 is a flowchart of a method for producing pulverized coal according to the water content of coal according to the present invention.

Description of the Related Art [0002]

11: Stirrer 12: Crusher

21: Charge amount setting device 22: Crusher outlet temperature setting device

25: hot air flow controller 30: crusher outlet temperature selection setting part

35: Charge amount selection setting unit

The present invention relates to a method for producing pulverized coal by setting the temperature of the pulverizer outlet and the amount of coal burnt by the water content of the coal in the pulverized coal production facility. More particularly, The present invention also relates to a method for producing pulverized coal according to the moisture content of coal for producing pulverized coal by resetting the temperature and the amount of discharged coal at the pulverizer outlet.

FIG. 1 is a block diagram of a general pulverized coal manufacturing facility. Referring to FIG. 1, the pulverized coal produced in the pulverized coal manufacturing plant is introduced into the blast furnace.

The coal conveyed from the coal yard 8 to the conveyor belt 9 is stored in the coal storage hopper 10. The coal stored in the coal storage hopper 10 is activated by the rotating motor 11a of the charger 11 by the set amount of charcoal set by the char combustion amount setter 21 and is discharged to the crusher 12. Coal burnt by the crusher 11 is made of pulverized coal by rotating the rolls 12a and 12b inside the crusher 12. The pulverized coal thus produced is dried using a waste gas generated during burning of the hot air stream, which contains moisture, and is transported to the bag filter 40 by hot air. The pulverized coal is collected in the bag filter (40) and the hot air is discharged to the atmosphere through the air release valve (41). The pulverized coal of the bag filter 40 is stored in the pulverized coal storage hopper 42 installed at the lower part thereof and is blown into the blast furnace 46 through the pulverized coal receiving hoppers 43 to 45.

The hot air supplied to the crusher 12 through the hot air line 15L is at a very high temperature and there is a risk of generating a fire in the pulverizer conveying line 13L or the crusher 12. [ Therefore, in order to prevent a fire due to hot air, the hot air flow controller 25 controls the cold air flow control valve (not shown) so that the temperature detection value of the temperature detector 13 at the exit of the crusher becomes equal to the temperature set value of the crusher outlet temperature controller 22 16 and the hot air flow control valve 17 to control the flow rate of the hot air supplied to the crusher 12 and the temperature of the crusher outlet.

Since the coal carried in the coal yard 8 contains a large amount of water, the water is dried using hot air. However, if a suitable hot air is not supplied to the moisture content of the coal, the water content of the coal is increased, and the temperature of the outlet of the crusher 12 is rapidly lowered and the amount of ash is reduced. Further, when the water content of the coal is 30% or more, the pulverized coal production facility is stopped.

More specifically, the change in the temperature and the amount of steaming at the exit of the crusher according to the moisture content of the coal will be described with reference to the graphs of FIGS. 2A and 2B.

As shown in FIG. 2A, if the water content of the coal is 20% or more, the temperature of the outlet of the crusher 12 sharply decreases and when the water content of the coal is close to 30%, the crusher outlet Lt; / RTI > Referring to FIG. 2B, when the moisture content of coal is 20% or more, the amount of coal ash abruptly decreases. 2A, since the temperature of the crusher outlet is not sufficiently secured as much as the temperature required for the pulverized coal to be conveyed, the conveyance of the pulverized coal is delayed, and the coal supplied to the pulverizer 12 due to the delay of the pulverized coal Which means that the amount of mercury in the fuel cell is reduced. Therefore, the amount of coal ash is reduced sharply as the moisture content of the coal approaches 30%, and reaches 20 [Ton / Hr] at which the operation of the pulverized coal manufacturing facility becomes impossible when the water content of the coal reaches 30% .

However, in the conventional pulverized coal manufacturing facility, the temperature of the crusher outlet and the flow rate of the hot wind are set without considering the moisture content of the coal, thereby reducing the temperature of the crusher outlet and reducing the amount of coal ash, have.

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made in view of the above problems, and it is an object of the present invention to provide a method for producing pulverized coal by adjusting the moisture content of coal to set the temperature of the pulverizer outlet, will be.

As a means for achieving the object of the present invention, the method of the present invention controls the flow rate of the hot air supplied to the crusher by the set amount of coal coal and the set value of the crusher outlet temperature, In the pulverized coal production process,

Setting the amount of coal to be coal and the crusher outlet temperature;

Detecting a moisture content of coal supplied to the crusher;

Inputting the moisture content of the detected coal into a signal conversion program and converting the moisture content of the coal to the temperature of the crusher outlet and the amount of coal coal burnt corresponding thereto; And

When the detected moisture content is less than a first moisture set value which is a moisture content at a time point at which the temperature of the crusher outlet rapidly decreases, the flow rate of the hot air is controlled in accordance with the set temperature of the crusher outlet and the set coal load, The flow rate of the hot air is controlled in accordance with the temperature of the converted crusher exit and the amount of unburnt coal converted if the water content is equal to or higher than a second moisture set value which is a moisture content at a time point at which the coal ash amount of the coal supplied to the crusher sharply decreases, Controlling the flow rate of the hot air according to the temperature of the converted crusher outlet and the set coal load of the coal if the detected moisture content is equal to or higher than the first moisture setting value and lower than the second moisture setting value

.

Hereinafter, a method for producing pulverized coal according to the moisture content of coal according to the present invention will be described in detail with reference to the accompanying drawings. In the referenced drawings of the present invention, components having substantially the same configuration and function will use the same reference numerals.

Referring to FIG. 3, the apparatus of the present invention includes a coal storage hopper 10 for receiving and storing coal from a coal yard, A crusher (12) for producing coal as pulverized coal by driving the rolls (12a, 12b) supplied from the coal cutter (11) A coal load setting device 21 for manually setting the amount of coal discharged from the charger 11 to the crusher 12, a temperature detector 13 for detecting the temperature of the crusher exit, a crusher 12 A crusher outlet temperature setter 22 for manually setting the temperature of the crusher outlet to limit the temperature of the outlet of the crusher 12 to a certain range, a cold air conditioner 22 for controlling the cold air supplied to the crusher 12, A flow control valve 16, and a control valve A hot air flow control valve 17 for controlling the hot air supplied to the crusher 12, a moisture detector 20 installed in the ash tank 11 for detecting the moisture content of coal, Is set to a first moisture setting value, and when the water content of the coal reaches the first moisture setting value, the crusher outlet temperature setting value is reset according to the water content of the coal to output the crusher outlet temperature set value A temperature selection setting unit (30) for determining the amount of coal ash to be supplied to the crusher (12); and a second moisture setting value determination unit The crushing tank exit temperature set value of the crusher exit temperature selection and setting unit 30 and the steep load amount selection setting unit 35 And the hot air flow rate control valve 16 and the hot air flow rate control valve 16 are controlled so that the temperature detection value of the temperature detector 13 becomes equal to the temperature set value of the crusher outlet temperature selection and setting section 30, And a hot air flow rate controller 25 for controlling the flow rate of hot air supplied to the crusher by adjusting the opening degree of the valve 17.

Referring to FIG. 4, the crusher outlet temperature selection and setting unit 30 of the present invention is configured to set the crusher outlet temperature selection unit 30 in accordance with the coal moisture content detected by the moisture detector 20, A first comparator 32 for outputting a signal when the moisture content of the coal water in the moisture detector 20 is equal to or higher than a first moisture setting value, And a temperature setting value of the temperature converter 31 when the signal is outputted from the first comparator 32. If no signal is outputted from the first comparator 32, the crusher outlet temperature setter 22 And a first switch 33 for selecting and outputting a temperature set value of the temperature sensor.

The coal ash amount selection and setting unit 35 of the present invention includes a coal ash amount converter 36 for converting the moisture content of coal in the moisture detector 20 into a coal ash amount corresponding to the water content of the coal by a conversion program, A second comparator 37 for outputting a signal when the coal moisture content of the coal flyash quantity converter 20 is equal to or higher than a second moisture set value; , And a second switch (38) for selecting and outputting the set value of the carbon monoxide amount setter (21) if no signal is output from the second comparator (37).

Hereinafter, the pulverized coal production method of the present invention according to the above-described configuration will be described with reference to the flowchart of FIG.

The coal moisture content is detected by the moisture detector 20 installed in the charger 11 when the coal pulverization is started by the coal pulverizer 11 and the coal is discharged from the crusher 12 ). The coal moisture content detected by the moisture detector 20 is input to the crusher outlet temperature selection and setting unit 30 and the coal fired amount selection setting unit 35. The coal moisture content input to the crusher outlet temperature selection and setting unit 30 is converted into a temperature setting value corresponding to the moisture content of coal in the temperature converter 31 (104). ≪ / RTI > The temperature set value of the temperature converter 31 is selected when the coal moisture content is equal to or higher than the first moisture set value and the temperature set value of the crusher exit temperature setter 22 is selected when the coal moisture content is less than the first set value The temperature setting value of the crusher outlet temperature selection and setting unit 30 is output to the crusher outlet temperature setting value of the hot air flow controller 25 at step 106.

The coal moisture content inputted to the steep load amount selection setting section 35 is converted into the steadiness amount set value corresponding to the moisture content of coal in the steep rate amount converter 36 (107), and the second comparator 37 (108) with the set second moisture setting. When the coal moisture content is equal to or higher than the second moisture set value, the steep load amount set value of the steep load amount converter 36 is selected. When the coal moisture content is less than the second moisture set value, The set value of the steaming amount output from the steaming amount selection setting unit 35 is output as the set value of the steaming amount of the steerer 11 and the hot air flow controller 25 at step 110.

The pulverized coal production facility controls the amount of coal to be coal and the flow rate of hot air according to the crusher outlet temperature set value and the steep load amount set value output from the crusher outlet temperature selection and setting section 30 and the steep load amount selection setting section 35, .

The present invention relates to a method and apparatus for controlling the temperature of the crusher outlet and the amount of coal burnt by setting the temperature of the crusher outlet and the amount of coal burnt according to the moisture content of the coal in the pulverized coal production facility, It has the effect of preventing the same problem in advance.

Claims (1)

A method for producing pulverized coal according to a moisture content of coal for controlling pulverized coal, the method comprising the steps of: Setting the amount of coal to be coal and the crusher outlet temperature; Detecting a moisture content of coal supplied to the crusher; Converting the moisture content of the detected coal to a temperature of the crusher outlet and a coal firing amount corresponding to the moisture content of the coal detected by the signal conversion program; And And when the detected moisture content is lower than a first moisture set value which is a moisture content at a time point at which the temperature of the crusher outlet rapidly decreases, the cold air flow rate control valve and the hot air flow rate control valve Is controlled to control the flow rate of the hot air, and if the detected moisture content is equal to or higher than a second moisture set value which is a moisture content at a point of time at which the amount of coal burnt supplied to the crusher rapidly decreases, The flow rate of the hot air is controlled by adjusting the opening degree of the cold air flow rate control valve and the hot air flow rate control valve according to the amount of arsenic charged by the coal, and if the detected moisture content is less than the first moisture setting value and the second moisture setting value, Adjusting the opening of the cold air flow control valve and the hot air flow control valve according to the temperature of the outlet and the amount of coal set aside The method comprising controlling the flow rate of the hot air W The method for producing pulverized coal according to claim 1,

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