SU759735A1 - Power-unit intensity automatic control system - Google Patents

Description

The invention relates to a power system and can be used to regulate the power of power units of thermal power plants.

Known automatic power control system of the power unit, containing a turbine regulator with connected to it a setting device and a steam pressure sensor in front of the turbine and a regulator of a steam generator with a connected setting device and a power sensor [1].

These systems do not have effective connections between regulators and therefore do not provide optimal transients.

Also known automatic control system power unit comprising a turbine controller with the connected ¹⁵ thereto GOVERNMENTAL setting device and pressure sensor prior to steam turbine and a limiter to the input of which is connected via a first differentiator setpoint power steam generator connected to the controller ₂ connected thereto about the power sensor 'and a second differentiator connected in series with the steam pressure sensor in front of the turbine [2].

2

This system is the closest to the technical essence and the achieved result.

The disadvantage of this known system is its limited accuracy with internal and external disturbances.

The purpose of this invention is to improve the accuracy by optimizing transients for internal and external disturbances.

To achieve this goal, the system additionally introduces a logical block installed between the first differentiator and a limiter, and two dynamic adjustment corrections, one of which is connected to the logic block and the power setting unit, the outputs to the turbine and steam generator controllers and to both differentiators, and the other block is connected by inputs with a logic block and a power sensor and outputs with a regulator of a turbine and a steam generator and with a second differentiator.

The drawing shows a block diagram of this system of automatic power control unit.

759735

The system includes a turbine regulator 1 with a control device 2 and a steam pressure sensor 3 in front of the turbine connected to it, a steam generator regulator 4 with a control device 5 and a power sensor 6 connected to it, a limiter 7, the output of which is connected to the turbine regulator 1. When this unit 5 power is connected to the input of the first differentiator 8, and the sensor 3 of the steam pressure in front of the turbine through the second differentiator 9 is connected with the regulator 4 of the steam generator. In addition, between the output of the differentiator 8 and the input of the limiter 7 is included a logic unit 10 associated with a dynamic adjustment correction block 11 for external disturbances and a dynamic adjustment correction block 12 for internal disturbances. The block And the correction of dynamic settings for external disturbances associated, respectively, with the first differentiator 8, unit 5 power, regulator 4 of the steam generator, the second differentiator 9 and regulator 1 of the turbine, and block 12 correction of dynamic tuning for internal disturbances - with regulator 4 of the steam generator, turbine regulator 1, second differentiator 9 and power sensor 6.

The system works as follows.

With a constant power setting (the case when there are no external disturbances) the signal at the output of the first differentiator

8 is zero. Under the action of the zero signal logic unit 10 connects to the turbine regulator 1, the second differentiator

9 and the turbine regulator 4, a dynamic adjustment correction block 12 for internal disturbances. Moreover, if internal disturbances are absent, then the power setting becomes equal to the actual power. In the event of internal disturbances, such as flooding of fuel oil, etc., the actual amount of power or load will change with a constant setting of power. The deviation will also undergo a 'steam pressure in front of the turbine, however, the dynamic adjustment correction unit 12 connected to the system sets the corresponding regulators 1 and 4, as well as the second differentiator 9 in such a way that the system performs the generated internal disturbances in an optimal way. The second differentiator 9 is used in this case to form a high-speed pulse due to pressure change and thereby contributes to the decoupling of the control circuits of the steam generator and the turbine during the development of the power task. g When you change the job on the power output of the first differentiator 8 will appear proportional to this change, the signal acting on the logical block 10,

which turns off unit 12 and connects to regulators 1 and 4, as well as differentiators 8 and 9, block 11 for adjusting dynamic adjustment for external disturbances, (changing the reference). The connection of the dynamic adjustment correction unit 11 leads to such a system adjustment with external disturbances, which causes their optimal working off, which ultimately determines the accuracy of the control of the specified power. The use of the limiter 7 in this system keeps the deviation from the predetermined vapor pressure in front of the turbine within acceptable limits regardless of the magnitude of the jump in the change in the power of the reference.

Thus, this system of automatic power unit power control improves the power control accuracy due to the fact that it provides optimization of transients for internal and external disturbances. The use of this system of regulation of the power unit, for example, as part of the power system, provides, in comparison with the known technical solutions, high reliability and efficiency of the power system as a whole.

Claims (1)

Claim Automatic power control system of a power unit containing a turbine regulator with a steam pressure regulator connected to it in front of the turbine and a limiter, to the input of which is connected through a first differentiator a power regulator connected to a steam generator regulator with a power sensor connected to it and a second differentiator connected in series with a pressure sensor steam in front of the turbine, characterized in that, in order to improve accuracy by optimizing transients during internal and external these disturbances, the system additionally introduces a logical block installed between the first differentiator and a limiter, and two dynamic adjustment correction blocks, one of which is connected to the logic block and power setting unit, outputs to the turbine and steam generator regulators and to both differentiators, and the other the block is connected by inputs with a logic block and a power sensor and outputs with turbine and steam generator regulators and with a second steam generator.