SU808776A1 - Method of automatic control of recirculating flue gas flowrate in steam generator with steam reheater - Google Patents

Description

and exit of the secondary steam superheater.

The system works as follows.

As a result of multiplying the signal by the temperature difference from sensors 10 and 11 by the signal for the flue gas flow from adder 9 at the output of the block: 7 multiplications receive a signal proportional to the heat of the secondary superheater. It is fed to the corrections by the regulator 5, the task to which is formed by a nonlinear transformation, in the converter .6 of the signal according to the load of the steam generator from the sensor 4. The output from the corrective regulator 5 is fed to the recirculating flue gas regulator 1.

When the degree of drift of the heating surfaces of the secondary superheater changes, the heat transfer coefficient from gases to steam changes. The amount of heat given off by the flue gases in the zone of the secondary superheater varies, which leads to the designation of the difference in temperature and signaling from sensors 10 and 11. This causes a change in the signal at the output of multiplication unit 7 and the correction control enters its work. The torus 1 changes the recirculated flue gas flow rate by means of the guide vanes 2 of the exhauster. The consumption of lulm gases and their temperature vary. As a result of the transition process, the flow rate of recirculating orglow gases is set such that the product at the output of multiplication unit 7 will be constant and the amount of heat perceived by the secondary superheater will not change.

In case of disturbances associated with a load change, the flow rate of the recirculating flue gases changes under the action of the high-speed regulator 1. The new static state determines the corrections of the regulator 5, eliminating inaccuracies

changes in the flow rate of the recirculating gases by the sensor 3 and the lead; the required flow rate of the recirculating. gases in accordance with the state of the heating surfaces.

Thus, the flow regulators of the rye steam are in the middle of the range for the control action, thereby improving the quality of the control of the temperature of the secondary steam.

The proposed method provides high-quality control of the flow rate of flue gas recirculation and the absence of accurate measurement of the flow rate of flue gas recirculation.

Claims (2)

1. A method for automatically controlling the flow rate of recirculated flue gases in a secondary steam superheater steam generator by changing the position of the guide vane, the exhaust fan using load signals and recirculated flue gas flow, characterized in that, to improve the quality of controlling the secondary superheat, a signal on heat recovery of secondary superheater and by this signal, correct the position of the direction of the suction apparatus. 2. A method according to claim 1, characterized in that the flow rate is measured The flue gases in the superheater and the temperature difference between these gases at the inlet and outlet from it, and the signal for the heat of the secondary superheater is determined by multiplying the measured values. Sources of information taken into account in the examination 1. Automation of large thermal power plants. Ed. Mn Shalman. M., Energie, 1974, p. 110. About ©