SU1481564A1 - Automatic control system for controlling levels in deaerator and consencer of power unit - Google Patents

Abstract

The invention relates to a power system and improves the reliability of the system. A level 1 sensor in the deaerator 2 is connected to the input of a level 3 regulator, the output of which is connected to the mechanism of the control valve 8 on the conduit 9 to feed additional capacitor water (K) 6, and to the input of the nonlinear conversion unit 4 with a zone of zero gain. The inputs of the level 7 regulator in K are connected to block 4 and level sensor 5 in K, and the output is sequentially installed on pipeline 11 to the mechanism of the control valve 10, heater 13 and condensate pump 12. When the load of the power unit changes, unit 4 operates, preventing the level from exceeding in the deaerator. 1 il.

Description

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The invention relates to a power system and can be used in the automation of steam turbine units of power units.

The purpose of the invention is to increase reliability.

The drawing shows a block diagram of the proposed control system.

A level 1 sensor in deaerator 2 is connected to the input of a level 3 regulator in a deaerator and to the input of a nonlinear conversion unit 4 with a zone of zero gain. A level 5 sensor in a capacitor 6 is connected to the input of a level controller 7 in a capacitor. The output of the nonlinear conversion unit 4 is also connected to the input of the level controller 7 in the capacitor. The output of the regulator 3 is connected to the actuator of the regulating valve 8 on the pipeline 9 to feed additional condenser 6 with additional water. low pressure with deaerator 2.

The control system works as follows.

In normal operation, regulators 3 and 7 of the level in the deaerator 2 and in the condenser 6 operate in the control range of the power unit, respectively. Regulator 3 provides the feed for the condenser 6 with additional water in accordance with cycle leaks. When the load of the power unit changes in the direction corresponding to the decrease in the mass filling of the boiler (for example, for units with direct-flow boilers, when the load decreases), the level in deaerator 2 rises, and the level in condenser 6 is kept constant by means of regulator 7. At the same time, the signal from the output of block 4 nonlinear

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the conversion to the input of the regulator 7 does not arrive until the level in deaerator 2 reaches the limit value. Deaerator 2 plays the role of damping capacity. Under the action of the regulator 3, the valve is closed with 8 HP make-up water with additional water. In the case of a deep and sharp decrease in load, especially at full load shedding, the level in deaerator 2 may exceed the limit value corresponding to the end of the zone of zero gain factor of block 4 nonlinearly. from go transform. The signal from the nonlinear conversion unit 4 in this case goes to the controller 7 and provides cover under the action of the last control valve 10,

20 which prevents a further increase in level in the deaerator. The accumulation of water in the condenser in this mode is not dangerous for the latter.

Claims (1)

25 claims The automatic level control system in the deaerator and the power unit condenser, containing a level controller in the condenser, to the input of which a level sensor in the condenser is connected, and to the output - a control valve installed in the pipeline of the main condensate between the condenser and deaerator, and the level controller in the deaerator, to the inlet of which the level sensor in the deaerator is connected, and to the outlet - a control valve installed on the pipeline de make-up of additional condenser. water, characterized in that, in order to increase reliability, a nonlinear conversion unit with a zero gain zone is inserted into it, and a level sensor in the deaerator is additionally connected via a nonlinear conversion unit to the input of a level regulator in a condenser.