SU1185024A1 - Method of automatic control of combustion process in fluidized-bed chambers - Google Patents

Abstract

A METHOD FOR AUTOMATIC CONTROL OF THE COMBUSTION PROCESS IN A BOILER LAYER DEPOSITS, which includes measuring the pressure drop of the fluidized bed, the flow of primary air and controlling the flow rate of the latter by the change in steam pressure and the secondary pressure in the boiler drum and the steam consumption with correction for oxygen in the outgoing vent stream. characterized in that, in order to increase the control accuracy of the combustion process in transient conditions, the fuel consumption is additionally measured and the primary ratio is kept constant th vozduhtoplivo its correction for a pressure differential of the fluid bed. (L 00 ate C

Description

The invention relates to a power system and can be used in control systems for the combustion process in fluidized bed furnaces.

The purpose of the invention is to increase the accuracy of regulating the combustion process in transient conditions.

The drawing shows a structural diagram of an automatic control system (ASR) implementing the proposed method,

The ACP contains a heat load regulator 1, at the input of which the signals of the sensor 2 of the primary air flow and the meter 3 speeds are post-input. The regulator 4 of the regulator 1 changes the flow of the primary air. The signal from the air flow sensor 2 is also fed to the fuel ratio regulator 5 primary AIR ;, to the other input of which the signal from the fuel consumption sensor 6 and the correction signal of the fluidized bed pressure sensor 7 are supplied.

The regulator 5 acts on the regulator 8, which changes fuel consumption. Signals from the sensor 10 of the secondary air flow rate of the sensors 11 and 12 of the steam flow and pressure in the drum and the correction signal of the sensor 13 of the oxygen content in the flue gases come to the combustion controller 9.

Regulator 14 Regulator 9 changes secondary air flow

The system works as follows

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, regulator 5 of the fuel-primary air ratio receives an imbalance signal and regulator 5 acts on regulator 8 by changing the fuel consumption. The fuel-primary air ratio maintains a correction by a signal from the fluidized bed differential pressure sensor 7, depending on the grade and quality of the fuel. The burning efficiency controller 9 maintains the fuel-secondary air ratio, where the heat pulse is formed as a sum of signals for steam consumption and a derivative of the steam pressure in the drum, and this ratio is corrected by the signal from the sensor 13 of the oxygen content in the exhaust gases. The regulator 9 acts on regulating the 1st organ 14, changing in the right direction the flow of secondary air.

Claims (1)

METHOD FOR AUTOMATIC CONTROL OF THE COMBUSTION PROCESS IN TOP KAH WITH A BOILING LAYER, including measuring the differential pressure of the fluidized bed, the flow rate of primary air and controlling the flow rate of the latter in terms of the rate of change of steam pressure and secondary pressure in the drum of the boiler and steam flow rate with correction for the oxygen content in the exhaust gases, characterized in that, in order to increase the accuracy of regulation of the combustion process in transient conditions, additionally measure fuel consumption and maintain a constant ratio of primary air Q fuel with its correction for the differential pressure of the boiling layer oops. SU „„ 1185024