SU1575004A1 - Method of controlling combustion process in boiler with natural circulation - Google Patents

Abstract

The invention aims to increase reliability by eliminating boiling of water in the economizer. This is achieved by controlling the air and fuel consumption by the steam pressure in the boiler, and the water consumption by the water level in the boiler, and the water temperature in the economizer is additionally measured and, when this temperature is reached, close to the boiling point, water flow is controlled only by the water temperature in the economizer, at the same time limiting the air supply to the boiler. To do this, through the switch 5, a comparator 7 is connected to the regulators 2 and 3 of the flow rate of air and water, which compares the signals from the temperature sensor 6 in the economizer and a signal proportional to the boiling temperature at the pressure in the economizer, which is formed in the nonlinearity block 8 as a function of pressure water in economizer. Switches 4 and 5 are connected to the input of the water consumption regulator 3 control signals by the deviation of the water level in the boiler or by the water temperature in the economizer. As a result, as the water temperature in the economizer approaches the boiling point, the air supply to the boiler is limited and the water supply increases at the same time, which eliminates water boiling in the economizer. 1 il.

Description

The invention relates to a power system and can be used in the automatic control of the combustion process in steam boilers with natural circulation and a non-boiling economizer.

The aim of the invention is to increase reliability by eliminating boiling in an economizer.

The drawing shows a schematic of a device for implementing an adjustment method.

1 The device contains a regulator 1 of fuel consumption into the boiler, a regulator 2 of air flow with a steam pressure signal connected to it in the boiler and a regulator of water flow rate 3 into the boiler with a connected water level signal through the switch 4J In addition, the inputs of the air flow and water flow regulators 2 and 3 through the Switch 5 are connected to the signal from the water temperature sensor 6 at the Njaftsepe ec, and the inputs of the switches 4 and 5 are connected to the comparator 7, the sensor is connected to the inputs 6 temperature-typbi water in the economizer and block 8 nonlinearity with connected to it by a water pressure signal in the economizer. The method is carried out as follows.

The fuel flow controller I and the air flow controller 2 receive the steam pressure signal in the boiler, and the water flow controller controls the water level signal connected with switch 4 when there is no signal from the comparator 7 output (i.e. water in economizer Below boiling point). When a signal appears at the output of the comparator 7 (when the water temperature in the economizer approaches the boiling point) switch 4 disconnects the water level signal in the boiler from the water flow controller 3, and switch 5 connects the signal from the water temperature sensor in the economizer and water flow to it is controlled by the water temperature signal in the economizer until

Compiler A

it is not reduced to a valid value. When a signal appears at the output of the comparator 7, the switch 5 connects the signal of the water temperature sensor in the economizer to the additional input of the air flow regulator with a sign opposite to the main steam pressure signal, which limits the increase in the air flow into the boiler until the water temperature in the economizer reduced to acceptable limits, i.e. the signal from the comparator 7 will be equal to zero, determined by the difference of the signals of the actual water temperature in the economizer from sensor 6 and the boiling point from nonlinearity block 8, in which the boiling point value is formed depending on the water pressure in the economizer.

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Claims (1)

The invention of the method of regulating the combustion process in a natural circulation boiler with a non-boiling economizer, including a change in the supply of fuel and air to the boiler furnace according to the steam pressure in the boiler and the supply of water to the boiler according to the level of water in it In order to increase reliability by eliminating boiling of water in the economizer, the pressure and temperature of the water in the economizer are additionally measured, the value of the boiling point in the economizer is determined, this value is compared with the measured temperature When the difference of the compared temperatures reaches the limit setpoint, the water in the economizer stops changing the water supply to the boiler according to the water level in it and only changes it according to the water temperature in the economizer and at the same time limits the air supply to the boiler to decrease to values and then resume the change in the water supply according to its level in the boiler and remove the restriction on the air supply to the boiler furnace. Zosimov