SU767372A1 - Method of controlling heat load of turbine with steam take-off - Google Patents

Description

The invention relates to heat and can be used in the regulation of heating turbines .5

There are known methods for controlling the heat load of a heat exchanger by changing the flow rate of its steam steam when the temperature difference of the supplied water is changed before and after the heat exchanger W.

These methods do not take into account the specific operating conditions of the turbine when using steam extraction from it for heating water.

There is also known a method of controlling the heat load of a turbine with steam extraction, including a low-20 cylinder pressure, by changing the flow rate of the steam into the network heaters when changing the temperature difference of the supply water before and after the heaters and maintaining a controlled temperature 25 when it reaches the limit value 2,

As a controlled temperature, select the temperature of the supply water after the heaters.

2

This method is the closest to this in technical essence and the achieved result. - A disadvantage of the known method is the reduced reliability of the turbine operation, since it does not take into account possible limitations on the temperature of the steam in the exhaust manifold.

The purpose of the invention is to increase the reliability of the turbine.

To achieve this goal, the temperature of steam in the exhaust pipe of a low-pressure turbine cylinder is chosen as a controlled temperature.

The drawing shows a block diagram of a device implementing this method of controlling the heat load of a turbine with steam extraction.

To the input of the regulator 1, a steam pressure sensor 2 in the extraction is connected. The output of the controller 1 through the adder 3 is connected to the servo motor 4 of the turbine actuator. To the input of the regulating device 5 are connected sensors b of the temperature difference between the supply water before and after the heaters and the setting device 7, and the input of the regulating device 8 is connected to the sensor 9 that Ne1 at the Nyra in the low-pressure turbine cylinder and the setting device 10.x

The outputs of the regulating devices 5 and 8 through the switching unit 11 are connected to the motor 12 of the synchronizer of the vapor pressure regulator in the selection. The output of the synchronizer motor through the sukmator 3 is connected to the servomotor 4 through the gel mechanism of the turbine.

Device Rabbfayet SheyuShyk 66raebm.

IF the steam temperature in the exhaust pipe is below the maximum permissible level set by the 10-minute gas meter 10, the switching unit 11 connects the output of the regulating device 5 to the synchronizer motor 12, ensuring that the steam flow rate on the under-heater heaters is maintained before and after. With this control device 5 adjusts the operation of the pressure regulator 1 in the selection of the turbine. If in the process of changing the heat or electric energy to: turbine loads, the steam consumption for the heaters increases so that the temperature in the exhaust pipe reaches the maximum value allowed; This is a regulative device 8 mei t zzhak: in ahbynog signal to the opposite. This leads to the operation of the switching unit 11, which connects the output of the regulating device 8 to; the synchronizer motor 12, at the same time disconnecting the output of the regulating device 5 and thereby maintaining steam consumption to the heaters according to the steam temperature signal in the exhaust pipe of the low pressure cylinder at the maximum permissible level. With a decrease in the heat load of the adjustments, the device 5 changes the output signal, which leads

767372

to the operation of the unit, 11 switches to the reverse side, as a result of the control device 5 output to the synchronizer motor 12 and the control device 8 is turned off. Thus, the steam flow to the heaters is again supported by the TeisoiepaiTyp difference signal before and after the heaters. The implementation of this method allows. To regulate the heat load of the unit in the presence of restrictions on the temperature of steam in the exhaust manifold of the turbine.

Thus, the use of the method 5 is determined by the economic effect 5 from the booster of the reliability of the turbine unit with heat-extraction steam extraction and thereby increase the reliability of the heat supply to the consumer.

Claims (2)

1. The patent of Germany 1023209, cl. 36 from 11/01, publ. 1958. 2. USSR author's certificate No. 527522, cl. F 01 D 17/20, 1975.