SU684672A1 - Arrangement for group automatic control of power-generating units of thermal electric power station - Google Patents

Description

The invention relates to the field of energy and is intended, in particular, to distribute and regulate the output power of power units of thermal power plants operating in parallel on the same network, and can be used to control the frequency and power in power systems.

Known devices of similar purpose 1.2.

In the most general case, each of the known devices contains automatic power control circuits for power units, a block, power settings and a feedback circuit for the total power of power units consisting of a series-connected adder with power input power transducers connected to its input, a controlled divider and an integrator connected via the second and third inputs, respectively, with a frequency correction unit and a task unit.

The known devices are very unreliable in practice, since the disappearance of the signal in the control circuit, which may occur for a number of reasons, leads to an unreasonable disruption of the power control process of the power units of power plants, as a result of which the power task is not fulfilled. Therefore, the possibilities of effective application of these technical solutions are significantly limited.

It is also known a device for group control of the power of aggregates of hydroelectric stations 3.

The known device contains a memory storage unit, one of the inputs of which is connected to the output of the task unit through the aggregate power regulator, and the output is connected to the inputs of the automatic power control circuits of the individual power units and the protection and mode switching unit connected to the other input trace of the w. block

The known device has a low coefficient of injectivity of the task and its use in turbos with intermediate superheating of steam, in particular, in the power units of thermal power plants leads to an increase in frequency oscillations in

emergency power shortage mode, when a quick change in the power of a power unit with maximum pick-up is required. This ultimately reduces the reliability of the power system.

The aim of the invention is to increase the injectivity of the task

For this, the device contains a memory storage unit, one of the inputs of which is connected to the output of the protection and mode switching unit, and the output is connected to the inputs of the automatic power control circuits of individual power units, and a task unit whose output is connected to total power torques, a series-connected differential unit, a logic unit and an adder, the other input of which is connected to the total power controller input, are inputted, and the output is connected to the second input of the memory storing unit, the output of the setpoint block is connected to the input of the differential block and is wasted by the input of the adder.

The drawing shows a device for group automatic control of the power of power units of thermal power plants.

The device contains a memory storage unit 1, the output of which is connected to the inputs of the automatic power control circuit 2 of the individual power units, and one of the inputs is connected to the output of the protection and mode switching unit 3. Next, the device has a block of 4 tasks connected to the output of the controller 5 of the total power. In addition, the device has serially connected differential block b, logic block 7 and adder 8, the other input of which is connected to the output of total power controller 5, and the output is connected to another input of the memory storing block 1. At the same time, the output of block 4 the task is connected to the input of the differential block b and to the third input of the adder 8,

The device works as follows.

The master signal from the output of block 4 of the task controlled by a higher-level power system is fed to the inputs of the adder 8, total power controller 5 and differential block b. In normal operation, logic block 7 blocks the output of the differential block from a normal power system b and at the output of the adder 8 a control signal is obtained equal to the sum of the output signal of the block 4 of the task and the correction signal of the controller 5 of the total power, the value of which is determined by the magnitude of the mismatch set and actual power. The control signal of the adder 8 through the memory unit 1 is then fed to the inputs of the automatic control circuit 2 of the power of the individual power units. In the pre-emergency mode, the output signal of the differential unit 6 is fed through the logic unit to the input of the adder 8. At the same time, taking into account the differentiated output signal of the task unit 4, determined by the abrupt change in the power of the task, the control signal at the inputs 2 of the automatic control of the power of the individual power units at the initial moment transients will significantly exceed the required level, i.e. the level corresponding to the modified power reference. As a result, in dynamics with a larger control signal, each circuit 2 of automatic power control of individual power units will complete the task with the minimum mismatch between the magnitude of a given power and the actual, i.e. with a high coefficient of injectivity. In case of loss of the control signal at the input of the tracing memory unit 1 by the signal of the protection unit 3 and switching modes responding to such situations, the tracing memory unit 1 goes into the memory mode, leaving the task at the inputs of the automatic power control circuits of the individual power units unchanged .

Thus, the group power control device of power units of thermal power plants with a new set of features provides an increase in the task pickup performance, which, in turn, leads to a decrease in frequency (power) fluctuations in emergency power shortage mode, thereby significantly increasing the reliability of the power system as a whole . In addition, the device provides high stability.

Claims (3)

1. USSR author's certificate number 379013, cl. H 02 J 3/46, 1968. 2. USSR author's certificate 365005, cl. H 02 J, 3/46, 1970. 3. USSR author's certificate number 435756, cl. H 02 J 3/46, 1970 ,. From the power system pain category SticoKoso