SU411217A1 - - Google Patents

Description

one

The invention relates to a power system and can be used in thermal schemes of power plants.

Hydraulically operated check valves installed on pipelines for steam extraction in the immediate vicinity of the turbine prevent the turbine from accelerating by reverse flow of steam during load drops. The design of the valves provides for their closure by reverse steam flow with a forced fit of the valve plate by the action of the hydraulic actuator stem. Forcing the valve to close is necessary to increase the reliability of the turbine protection system against acceleration, since when the power unit is under load, the valve has a long period of time, calculated in months, it may not occur in the open position due to the reverse flow of steam. sticking or sticking of the piston running gear and valve plates.

Power supply devices for servo drives of check valves are known, in which the working fluid is condensate supplied from condensate pumps through filters, selenoid pulse valves, restriction washer to the distribution manifold. From the collector condensate enters the hydraulic actuators of the valves. The diameter of the washer is designed for the total consumption of condensate through damping

openings in the servomotors of all hydraulic actuators with a slight overpressure to ensure complete filling of the valve over-piston space with condensate and its flow into the drain manifold.

When the load is discharged, a command is issued to open the solenoid valves, which provide a sharp increase in the consumption of condensate in the distribution manifold, which leads to an increase in pressure and, consequently, to the mixing, servomotor of the servo actuator, forcibly closing the valve.

A significant disadvantage of this power supply method is the impossibility of pacing the servo drive of each valve separately when operating a turbine under load, since the opening of pulsed solenoid valves leads to closing of the valves at all selections, i.e., turning off all high and low pressure heaters PND), and, therefore, unacceptable overloading of the flow part of the turbine and other elements of the turbine.

Thus, when pacing the servo drives, it is necessary to deeply unload the power unit or transfer it to idle operation. This is associated with significant energy losses, especially since the HP continuous operation of most powerful turbine units is at least three months.

Embodiments of the scheme with the installation of solenoid valves for supplying condensate to the servo drive of each valve separately are structurally complex and reduce the reliability of the turbo-installation due to the need to control and maintain dramatically increased number of solenoid valves and valves and do not eliminate the need for partial unloading of the turbine unit.

In order to provide the possibility of individual opening of the check valves at full load of the turbine in the proposed device, an additional collector is connected to the condensate supply pipe between the filter and the solenoid valve, which is connected to the autonomous power lines through a two-way valve with a servo drive of each check valve and a distributing collector.

The drawing shows the proposed device power servo check valves.

The device consists of a condensate pump 1, filters 2, restrictive washer 3, solenoid pulse valve 4, transfer manifold 5, servo drive 6 check valve 7, steam turbine 8, regenerative selection 9 with shut-off valve 10, preheater 11, additional collector 12 autonomous condensate on servos, shut-off valve 13, two-way ball valve 14, drain manifold 15.

If necessary, pacing the check valve 7 installed on the regenerative selection 9 of the steam turbine 8 operating under load closes the valve 10 and opens the valve 13 of the additional collector 12 of the autonomous condensate supply to the servo-drive of the swing-out check valve. Condensate from the collector 12 with a pressure greater than that in the collector 5 (due to bypassing the restrictive washer 3), pressing the ball of the two-way valve on 14, enters the piston chamber of the servo drive 6 and mixes it. From the servo, the condensate is directed to the drain manifold 15.

At the same time, in the distributing collector 5, the operating parameters of the condensate are maintained, ensuring the normal operation of the power supply circuit, i.e., forcing the closure of all servo drives when the protection of the turbine 8 is triggered.

Subject invention

A power supply device for servo drives of check valves in steam power plants, comprising a condensate supply pipe with a filter and a solenoid valve connected to a distributing manifold, characterized in that, in order to enable the individual valves of the return valve to be fully loaded at the turbine, the pipeline between the filter and a solenoid valve is connected to an additional collector, which is connected to the autonomous power lines through a two-way valve with a servo drive of each return to lapana and distributing collector.

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