JPH0637963B2 - Air flow control method for high speed fluidized bed boiler - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a method for controlling a combustor primary air amount and distributing a combustor primary air amount and a combustor over air amount in an air system of a high-speed fluidized bed boiler. .

Conventional Technology The high-speed fluidized bed boiler is a new technology, and therefore there is no conventional technology for its control method.

DISCLOSURE OF THE INVENTION Problems to be Solved by the Invention In a high-speed fluidized bed boiler, the present invention controls the total amount of air to be injected into the boiler by a forced draft fan inlet vane based on the load of the boiler and the exhaust gas O ₂ , and the combustor primary air amount. Is controlled by the conan buster primary air amount control damper based on the boiler load, and the combustor over-air air amount is not controlled, but the air is fed into the combustor through the over-air air nozzle. Ventilation air shall be controlled by the fuel transfer ventilator inlet damper and the external heat exchanger booster fan inlet damper so that each becomes the specified value.

Means for Solving the Problems The present invention, in an air system of a high-speed fluidized bed boiler having a combustor and an external heat exchanger, changes the boiler load while keeping the fuel transfer air amount and the external heat exchanger air amount constant. By changing the total amount of air with respect to the fuel change due to
The change is used as the change in the combustor primary air amount and the combustor overfire air amount.
That is, according to the present invention, the total amount of air introduced into the high-speed fluidized bed boiler, that is, the amount of combustor primary air, the amount of combustor overfire, the amount of fuel-carrying air, and the amount of air for external heat exchanger are summed up. Is controlled by the forced draft fan inlet vane based on the load of the boiler and the exhaust gas O ₂ , and the primary air flow rate supplied to the combustor is controlled based on the boiler load. It is controlled by.

The fuel transfer air amount and the external heat exchanger air amount are controlled by the fuel transfer ventilator inlet damper and the external heat exchanger booster fan inlet damper so that the specified amounts are achieved, and the remaining air is input to the combustor from the overfire air nozzle. It

Example FIG. 1 shows an air system of a high-speed fluidized bed boiler to which the method of the present invention is applied. In the figure, reference numeral 1 is a combustor, 2 is an external heat exchanger, 3 is a forced draft fan, and 4 is Push-in fan inlet vane, 5 is a fuel transfer fan, 6 is a fuel transfer fan inlet damper, 7 is a fuel transfer air amount detector, 8 is an external heat exchanger booster fan, and 9 is an external heat exchanger booster fan inlet damper. 10 is an air amount detector for an external heat exchanger, 1
1 is a combustor primary air amount control damper, 12 is a combustor primary air amount detector, 13 is a total air amount detector, 14 is an overfire air nozzle, 15 is an exhaust gas, and 16 is an exhaust gas O ₂ detector. .

FIG. 2 shows an air control system of a high-speed fluidized bed boiler. In the figure, reference numeral 101 is a boiler load signal, 102 and 106 are function generators, 103 is an exhaust gas O ₂ amount controller, 104 is an adder, and 105. Is a total air volume controller, 107 is a combustor 1
Secondary air quantity controller, 108 is fuel carrier air quantity controller, 110 is external heat exchanger air quantity controller, 109, 111
Is an air amount setting device, F1 is an exhaust gas O ₂ amount setting value signal, F2
Indicates a total air amount command signal, F3 indicates a total air amount signal, and F4 indicates a combustor primary air amount set value signal.

Regarding the control of the total air amount to be input to the high-speed fluidized bed boiler, the air amount command signal based on the boiler load signal 101 is input to the adder 104, and the air amount command signal based on the boiler load signal 101 is separately generated as a function. The exhaust gas O ₂ amount set value signal F1 created by inputting to the gas generator 102 is input to the exhaust gas O ₂ amount controller 103 together with the exhaust gas O ₂ amount signal from the exhaust gas O ₂ detector 16, the deviations thereof are calculated, and those deviations are calculated. Input the output signal for canceling the
The total air amount command signal F2 is obtained by adding the above-mentioned air amount command signal.
make. This total air amount command signal F2 and the total air amount signal F3 detected by the total air amount detector 13 are input to the total air amount controller 105 to calculate the deviation thereof, and to eliminate those deviation values. The forced air blower inlet vane 4 is operated by the output signal to control the total air amount.

Regarding the control of the primary air amount to the combustor, the combustor primary air amount set value signal F4 created by inputting the air amount command signal based on the boiler load signal 101 to the function generator 106.
And the combustor primary air amount signal detected by the combustor primary air amount detector 12 are input to the combustor primary air amount controller 107, their deviations are calculated, and output signals for eliminating those deviations are used. The combustor primary air amount control damper 11 is operated to control the combustor primary air amount.

Regarding the control of the fuel carrier air amount and the external heat exchanger air amount, the air amount signal and the air amount setter detected by the fuel carrier air amount detector 7 and the external heat exchanger air detector 10 are set.
The set value signals of 109 and 111 are respectively input to the fuel carrier air amount controller 108 and the external heat exchanger air amount controller 110, the deviations thereof are calculated, and the fuel carrier air blower is output by the output signals for eliminating the deviations. The amount of each air is controlled by operating the inlet damper 6 and the external heat exchanger booster Juan inlet damper 9.

The air left by the control of the dampers 6, 9 and 11 is introduced into the upper part of the combustor 1 from the over-air air nozzle 14.

EFFECTS OF THE INVENTION According to the present invention, the total amount of air to be fed into the high-speed fluidized bed boiler is controlled to a specified value, the primary air amount to the combustor is controlled by the combustor primary air amount control damper, and the remaining air amount is controlled. Is introduced into the overfire air nozzle (without control), stable combustion and stable operation of the high-speed fluidized bed boiler can be achieved, and the followability to load changes can be improved.

[Brief description of drawings]

FIG. 1 is a diagram showing an air system of the high-speed fluidized bed boiler, and FIG. 2 is a diagram showing an air control system of the high-speed fluidized bed boiler. 1 ... combustor, 2 ... external heat exchanger, 3 ... pushing fan,
4 ... Push-in fan inlet vane, 5 ... Fuel transfer fan, 6 ...
Fuel transfer ventilator inlet damper, 7 ... Fuel transfer air amount detector, 8 ... External heat exchanger booster fan, 9 ... External heat exchanger booster fan inlet damper, 10 ... External heat exchanger air amount detector, 11 ... Combustor Primary air amount control damper,
12 ... combustor primary air amount detector, 13 ... total air amount detector, 14 ... Obafuaiya air nozzle, 15 ... exhaust gas 16 ... exhaust gas O ₂ detector, 101 ... boiler load signal, 1
02,106 ... Function generator, 103 ... Exhaust gas O ₂ amount controller, 104 ... Adder, 105 ... Total air amount controller, 107 ...
Combustor primary air quantity controller, 108 ... fuel conveying air quantity controller, 110 ... external heat exchanger air amount controller, 109, 111 ... air quantity setting device, F1 ... exhaust gas O ₂ amount set value signal, F2 ... total air amount command signal, F3 ... Total air amount signal, F4 ... Combustor primary air amount set value signal.

Claims (1)

[Claims] 1. In an air system of a high-speed fluidized bed boiler having a combustor and an external heat exchanger, a combustor primary air amount, a combustor overfire air amount, a fuel carrying air amount, and an external heat exchanger air amount. The total amount of air is controlled based on the boiler load and the exhaust gas O ₂ , and the air amount for fuel transfer and the air amount for external heat exchanger are kept constant, and the primary air amount of the combustor is controlled based on the boiler load. , A method for controlling the air flow rate of a high-speed fluidized bed boiler, characterized in that the remaining air is supplied as combustor overfire air.