SU994783A1 - System for controlling heat generation turbine plant - Google Patents

Description

(54) SYSTEM OF REGULATION OF THERMAL VELVET INSTALLATION

The invention relates to heat engineering hetics and can be used to regulate steam heat turbine plants operating under high thermal loads.

Closest to the present invention is a control system for a steam-turbine cogeneration plant comprising a power regulator, the output of which is connected to the servo-motor of high-pressure regulating valves, the regulator of vapor pressure in the selection to the network heater, which is connected to the regulator. heat load, and a bypass valve installed on the bypass line of the heater and equipped with a drive mechanism. In this system, the output of the pressure regulator is connected to the servo motor of the medium-pressure diaphragm and the actuator of the bypass valve is connected to the output of the thermal load regulator 1.

A disadvantage of the known system should be considered a slightly reduced installation maneuverability.

The purpose of the invention is to increase the maneuverability of the installation.

The goal is achieved by the fact that in the control system of a steam heat turbine plant containing a power regulator, the output of which is connected to a servo-motor regulating high pressure valves, a vapor pressure regulator in the selection to a network heater, the input of which is connected to the heat load regulator, and a bypass valve installed on the bypass line

10 is preheater and equipped with a drive mechanism, the output of the pressure regulator is connected to the drive mechanism of the bypass valve, and the output of the power regulator is connected to the input of the pressure regulator controller 15.

The drawing is a diagram of this control system.

The system contains a power regulator 1 connected to a servo motor 2

20 control valves 3 parts 4 of a high pressure turbine and a pressure regulator 5, built on with a heat load regulator 6, connected to an NKsxaHHSMOM 7 bypass valve 25 at 8 on the line of the heater precursor 9. The control diaphragm 10 of the low pressure part 11 of the turbine is completely closed.

The regulation system works

Claims (1)

30 as follows. Let it be necessary to reduce the electric power with a constant heat load. The power regulator 1 through the servomotor 2 sends a signal for closing the control valves .3. The steam flow through the high pressure part 4, the turbine power and the pressure in the extraction, are reduced. Due to the significant difference in the constant time of the power control loop and the heat load control loop, due to the large thermal inertia of the preheater 9, the transition time is mainly determined by the heat load control loop. Therefore, when the electrical power changes, there can be significant fluctuations in the heat load. To improve the quality of controlling the heat load simultaneously with the signal, the closing of control valves 3 from regulator 1 receives a disappearing impulse to the input of pressure regulator 5, which through mechanism 7 acts on the bypass valve 8 on the bypass line of the heater 9 in the direction of opening. Due to this, the flow of water through the preheater is reduced, and the pressure in the withdrawal increases, i.e. the thermal deflection of the high pressure part 4 is reduced, and the turbine capacity becomes less than the set value. The regulator 1 begins to affect the cepBoi OTop 2 already in the direction of opening. This makes it possible to restore steam consumption corresponding to a given heat load and the decrease in electric power occurs mainly due to an increase in pressure in the extraction, i.e. reduce heat flux. If it is necessary to increase the thermal load at a constant electric, the regulator b drops the signal for opening the bypass valve 8 The flow of supply water through the preheater 9 decreases, and the pressure in the selection increases, the heat differential of the high pressure part 4 is activated and the power of the turbine begins to decrease. The error regulator between the set and actual power drops the signal for opening the regulator (Valves 3. By increasing the steam consumption, the heat load increases, and the constancy of the electric power is ensured by an increase in the vapor pressure in the draw, i.e., a decrease in heat output. Use of this system control provides independent control of thermal and electrical loads during operation of the installation on thermal schedule and allows you to unload the turbine by 20-25% without changing its thermal Claims of the invention A control system for a steam-turbine cogeneration plant comprising a power regulator, the output of which is connected to the servo-motor of high-pressure control valves, the vapor pressure regulator in the selection to the network heater, the inlet of which is connected to the regulator of heat load, and the bypass valve installed the bypass line of the heater and equipped with a drive mechanism, characterized in that, in order to increase the maneuverability of the installation, the output of the pressure regulator is connected to odnym mechanism bypass valve, and the output power control input soedinen.s regularity; pressure torus. Sources of information taken into account in the examination 1. Copyright Certificate of the USSR No. 866246, cl. F 01 D 17/20, 1980. T -with t3 fO -txl