SU1633232A1 - Method of automatic control of combustion process in fluidized bed furnace - Google Patents

Abstract

The purpose of the invention is to improve the quality of regulation of the combustion process in circulating fluidized bed furnaces with a variable mode of operation. This is achieved by additionally measuring the pressure drop on the air distribution grill and by changing the fuel consumption the constant ratio of primary air to fuel is maintained with its correction in relation to the pressure difference on the air distribution grille to the pressure drop in the fluidized bed. The primary air flow rate is controlled by the rate of pressure change in the boiler drum, and the secondary air flow rate is controlled by the heat pulse with correction for the oxygen content in the exhaust gases. 1 il.

Description

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The invention relates to the field of automatic control of combustion in circulating fluidized bed furnaces and can be used in station industrial power engineering.

The aim of the invention is to improve the quality of regulation in a circulating fluidized bed furnace with variable operating modes.

The drawing shows a diagram of an automatic control system (ACP) for combustion that implements the proposed method.

The ACP contains regulator 1 of the heat load, to the input of which signals of the primary air flow sensor 2 and meter 3 of the rate of pressure change in the drum are received. The regulator 4 of the regulator 1 changes the flow rate of the primary air. Signal from air flow sensor 2

The fuel-primary air ratio regulator 5 is supplied to the other input of which the signal of the fuel consumption sensor b and the correction signal of the differential pressure ratio division block 7 on the gas distribution grid to the pressure differential of the boiling bed are measured, which are measured by the pressure differential sensors 8 and 9. The regulator 5 acts on the regulator 10, which changes the fuel consumption. The efficiency controller 11 of the combustion process receives signals from the sensor 12 of the secondary air flow rate, the sensors 13 and 14 of the steam flow rate and the pressure in the drum, and the correction signal from the sensor 15 of the oxygen content in the exhaust gases. The regulator 16 adjuster 11 changes the secondary air flow.

The system works as follows.

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When the heat load changes, the pressure in the drum changes, the signal from the speed meter 3 changes the pressure in the drum to the input of the heat load controller 1, where it is compared with the signal from the sensor 2 of the primary air flow. The regulator 1 changes the position of the regulator 4. When the primary air flow rate changes, the unbalance signal is sent to the regulator 5 of the fuel-air ratio and the regulator 5 acts on the regulator 10 to change the fuel consumption. The correction of the maintained ratio of fuel-primary air is carried out by a signal from the dividing unit 7 in relation to the pressure difference on the grate to the pressure drop in the fluidized bed. The combustion efficiency controller 11 maintains the fuel-secondary air ratio, where the heat pulse is generated as the sum of the steam flow rate and the derivative of the steam pressure in the drum, and this ratio is corrected by the signal from the oxygen content sensor 15. The controller 11 acts on the regulator 16 by changing the flow of secondary air in the right direction.

Claims (1)

Invention Formula A method for automatically controlling the combustion process in a fluidized bed furnace, having a gas distribution grid, by measuring the pressure drop of air in the fluidized bed, the fuel consumption, primary and secondary air, the steam pressure in the boiler drum, the steam flow rate, the oxygen content in the exhaust gases and the change in the primary air flow rate by the rate of pressure change in the drum drum, changes in the secondary air flow rate in relation to the rate of pressure change in the boiler drum and steam consumption, with correction for the oxygen content in the flue gases and changes in the fuel consumption for the primary air flow, In order to improve the quality of regulation in a circulating fluidized bed furnace under variable operating conditions, the air pressure drop across the gas distribution grid is additionally measured, the ratio of pressure transfer on the grid and fluid bed and the fuel-primary ratio are determined air is corrected for the aforementioned pressure differential ratio.