SU1548594A1 - Method of controlling level in regenerative heater of steam turbine - Google Patents

Abstract

The invention relates to a power system and improves the quality and reliability of level control in a regenerative steam turbine preheater by detecting a level swelling with a sharp drop in the pressure of the heating steam. During load sheddings, when the heating vapor pressure drops and the level swells due to boiling up of the liquid, the rate of increase of the level and the rate of pressure drop simultaneously exceed the predetermined values. By this feature, a control signal is generated equal to zero, which is applied to the valve actuator on the condensate drain line of the heating steam, which eliminates the false movement of the valve. 1 il.

Description

The invention relates to a power system and can be used to automate level control in regenerative steam turbine preheaters.

The purpose of the invention is to improve the quality and reliability of the regulation by detecting a level swelling with a sharp drop in the pressure of the heating groove.

The drawing shows an example of a device for carrying out the proposed level control method.

The liquid level in the regenerative heater 1 is adjusted by changing the position of the valve 2 on the drain line of the heating steam condenser. The device contains a liquid level sensor 3 connected through a differentiator 4 to the first input of the comparison unit 5, the second input

which is connected to the setpoint 6 of the rate of change of level. The output of the comparing unit 5 is connected to the threshold element 7, the output of which is connected to the first input of the And 8 element.

The heating steam pressure sensor 9 is connected via a differentiator 10 to the first input of the comparison element 11, the second input of which is connected to the setting unit 12 of the rate of change of pressure of the heating steam. The output of the comparison element 11 is connected to the threshold element 13, the output of which is connected to the second input of the element 8, whose output through the element NOT 14 is connected to the first input of the element 15, the second input of which through the regulator 16 is connected to the level sensor 3. Element output And 15 is connected

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to the Executive body 17 acting on the valve 2.

The method is carried out as follows.

During load shedding, there are dips in the pressure of the heating steam, which can lead to swelling of the level of condensate of the heating steam, due to boiling of the liquid. At the same time, the signal of level 3 sensor increases, and the signal of pressure sensor 9 decreases. Differentiating these signals with the help of differentiators 4 and 10, they are compared in comparing unit 5 and element 11 with the settings specified by setters 6 and 12. When the heating pressure of the heating steam drops and the rate of increase of the settings specified Horn elements 7 and 13 produce pulses suitable for further logical processing by elements of AND 8, HE 14, AND 15.

When a liquid is boiled up and the level is swept up by means of an impulse inverted with an HE element, 14 pulses with AND elements 8 block the passage of the equalizer (equal to zero) of the regulator 16 signal to the actuator 17 with the help of the And element 15.

In the absence of liquid boiling and level swelling, when the output signal of the And 8 element is zero, a single signal arrives at the second input of the And 15 element, and the liquid level is regulated by means of the regulator 16 according to the algorithm specified by it.

Thus, the quality of fluid level control is improved by eliminating false controllers.

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5 Q

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effects on the control valve during load shedding and various discharges, leading to simultaneous failure of heating steam pressure and swelling of the liquid level.

Improving the quality of regulation at level control in regenerative steam turbine preheaters improves the operational reliability and efficiency of regenerative preheaters and the turbine installation as a whole.

Claims (1)

Invention Formula The method of level control in a regenerative steam turbine preheater by measuring the level and heating steam pressure, forming a control signal taking into account the deviations of measured level and pressure from the set values and changing the valve position on the heating steam condensate drain line supplying a control signal to the valve actuator, characterized in that, in order to improve the quality and reliability detecting the level swelling with a sharp drop in the pressure of the heating steam, the rate of deflection of the level and the speed of deflection of the pressure of the heating steam are additionally measured, the speed and increasing the level and pressure drop with preset values and at the same time increasing the level of excess speed and the speed setpoint pressure drop shape control signal equal to zero. n W Feeder but water 7 Condensate 12 but water