SU560991A1 - The method of regulating the tenofication turbine - Google Patents

Description

The invention relates to a power system and may be used to regulate the heat supply of turbines.

There are known methods for regulating heat turbines with a spark by the vapor flow rate in the selection when the pressure difference changes in the chambers of the high and low pressure regulating stages p.

These methods (they do not provide sufficiently rigorous consideration of the various conditions of operation of the turbine and, in particular, the pre-selection stage.

A method of regulating a cogeneration turbine with a pre-compartment compartment for varying the steam flow rate in the high and low pressure parts of the turbil is fed to the controller of the servo motors of the dv frequency and pressure regulator DT signals in the selection with correction of the pressure regulator setpoint 2. The pressure regulator setpoint is known. reduce the rotational speed control signal by reducing the steam flow to the high pressure part of the turbine, thereby reducing

the pressure in the selection allowed by the strength conditions of the pre-selection stage.

This method is the closest to the proposed by the technical nature of the achievable result.

However, at the maximum flow rate of steam in the extraction, when the pressure regulator is located near the stop, protection of the pre-selection stage against overload is not provided,

those. reliability is reduced. In addition, with this method of control, the pressure in the selection depends on the steam flow through the high-pressure part of the turbine and is maintained at the lowest possible durability of the pre-selection stage, which is often not required during operation.

The aim of the invention is to improve the reliability of operation 1B.

This is achieved than by measuring the power of the preselection compartment and after reaching the maximum allowable value, the setpoint of the pressure regulator is reached depending on the signal proportional to this power, also supplying this signal to the servomotors in case that the output perynsrropa compresses the pressure of its limit.

The drawing shows a diagram of the implementation of the method.

The high pressure part 1 and the low pressure part 2 of the turbine have steam distributors 3 and 4 with regulating servomotors 5 and 6, controlled signals of the speed regulator 7 and the pressure regulator 8 in the selection through intermediate amplifiers 9 and 1 O, the Auxiliary regulator 11 measuring the power of the pre-selection compartment 12 is associated with regulating servomotors 5 and 6, and an adressive control pressure regulator 8.

In the event of an increase in the steam flow rate into the extraction or through the high-pressure part 1 of the turbine, if the power of the pre-selection compartment exceeds the maximum allowed by the signal of the regulator 11 proportional to this power, adjust the setpoint of the regulator 8 in the direction of increasing the pressure B of the selection, and the torus of its own limitation, when it can no longer act on regulating servomotors 5 and 6, the signal from regulator 11 is fed directly to the servomotors, providing cover for the steam distributors 3 and 4 mind Pre-selection bay capacity

This method of regular heat exchanger turbine ensures reliable operation of the pre-selection stage in all re:; imami and pressure control in the selection that is independent of the rotation frequency control.

Claims (2)

1. USSR author's certificate No. 309139, cl. F O1 and 17/20, 1970. 2. USSR author's certificate 1 404953, cl. F 01 D 17/08, 1972.