SU1111228A1 - Method and device for automatic control of number of devices operated in parallel - Google Patents

Abstract

one . A method of automatically controlling the number of parallel units operating in the synchronous compensator mode in the power system, consisting in measuring the available - (Reactive) power of the power system, measuring the actual reactive power of the power system, comparing the actual power with the available power, characterized in that in order to reduce energy losses, select the unit that consumes the most active power, and compare this difference with the available reactive power of the selected unit and serve channeling signal to turn off this prevshenii synchronous compensator when this difference by a predetermined velichiEnu within the given time. 2. An automatic control device for the number of parallel units operating in the synchronous compensators mode in the power system, comprising a unit for measuring available reactive power and a unit for measuring actual power, the outputs of which are connected to a unit for comparing actual and available power, characterized in that it is equipped with a unit for comparing the difference in available power and actual with the available reactive power of the unit consuming the greatest active power, by the threshold block, block The time delay, the units available reactive power of the units, the logical element IL with the number of inputs, an equal number of hydroelectric power stations, logical elements NOT, logical elements AND, HIGH, walk-ins., and blocks transmitting information about the disconnection of synchronous compensators, and the output of the block comparing the difference between the available reactive power and the actual with the available reactive power of the unit, which consumes the total active power, is connected through a threshold unit to the power block, and the input of the said comparison unit 00 is connected to a logical element OR, the inputs of which are connected to the units of the available reactive power of the units, the first unit being directly, and each next; through the logical element And, the output of the first block of the available reactive power of the units and the outputs of the logical elements AND of each next block. The distributed power of the units through; other logical elements AND, the number of which is equal to the number of hydroelectric power plants, are connected to

Description

output blocks connected to blocks transmitting information about the disconnection of synchronous compensators, blocks of available reactive power of the units are connected to the inputs

first logical elements AND

/ each subsequent block of available reactive power of the units through the logical elements NOT.

one

This invention relates to voltage regulation in supply networks of power systems.

HPS auto operators are known to control the switching on and off of units l.

The closest to the proposed method is the automatic control of the number of parallel operating units in the synchronous compensators mode in the power system, which consists in measuring the available reactive power of the power system, measuring the actual reactive power of the power system, comparing the actual power with the available power 2.

This method is carried out by a device for automatically controlling the number of parallel operating units in the mode of synchronous compensators in the power system, comprising a unit for measuring available reactive power and a unit for measuring actual power, the outputs of which are connected to the unit for comparing actual and available power.

A disadvantage of the known solutions to the problem of choosing the number of units operating in the mode of synchronous compensators for the purpose of voltage regulation is that they are solved on the basis of local information within the power plant. This is a limited solution that does not solve the problem of optimizing the mode of the power system.

It is known that in power systems there may be several hydroelectric power stations with units that consume different active power per rotation. So, for example, units with turning turbine blades have lower rotational losses, while units with radial-axial ones have large ones.

The purpose of the invention is to reduce energy loss.

This goal is achieved by the fact that according to the method of automatic control of the number of parallel operating units in the synchronous compensators mode in the power system, which consists in measuring the reactive power of the power system, measuring the actual reactive power of the power system, comparing the actual power with the available power, choosing the unit, which consumes the most active power, and compares the indicated difference with the available reactive power of the selected unit and serves the control second trip signal at this synchronous compensator ztoy difference exceeds a predetermined value for a predetermined time

This method is carried out by a device for automatically controlling the number of parallel units operating in synchronous compensator mode in the power system, comprising a unit for measuring available reactive power and a unit for measuring actual power, the outputs of which are connected to the unit for comparing actual and available power, which is equipped with a unit for comparing the difference between the available power and with the actual reactive power of the unit that consumes the most active power, the threshold lump, time delay block, blocks of available reactive power of units by a logical element OR with a number of inputs equal to the number of hydroelectric power stations, logical elements NOT, logic elements AND output blocks and blocks transmitting information about the disconnection of synchronous compensators, and the output of the unit comparing the difference of disposable reactive power and the actual, with the available reactive power of the unit consuming the most active power, is connected via a threshold unit to a power supply block i One of the mentioned comparator unit is connected to the logical element OR, whose platoons are connected to the units of the available reactive power of the units, the first block directly, and each next through the logical element I, the output of the first block of the available reactive power of the units and the outputs of the logic elements And kg1 of the next unit of available power of units through other logical elements And, the number of which is equal to the number of hydroelectric power stations, are connected to output blocks connected to blocks transmitting information b disconnecting compensators synchronous blocks of available reactive power units are connected to first inputs of AND gates each subsequent block of available reactive power units through the NOR gate. The drawing shows a structural diagram that implements this principle. The diagram shows block 1 giving information about the number of units operating in active mode, block 2 active power, block 3 giving information about the number of units operating in SC mode, block A calculating the available reactive power of the subsystem, block 5 memorizing the available reactive power , block 6 measuring the total reactive power, block 7 comparing the actual reactive power with the available block 8 comparing the difference of the available reactive power with the power of the least economical synchronous compensator, threshold unit 9 (insensitivity), units 10 of the available reactive power of units in the SK mode, arranged in decreasing order of specific losses of active power for rotation, logical elements NOT 11, logical elements AND 12, logical element OR 13, block 14 lager time, logical elements And 15, output blocks 16, blocks 17, transmitting Madium information 284 to the voltage calculating unit in the reference node of the centralized control system with an additional time delay. The relationship between the elements in statics is as follows. The outputs of information blocks 1, 2 and 3 are connected to the inputs of block 4, which is used to determine the available reactive power of the working units of the subsystems, the value of which is fixed in block 5, the input of which is connected to the output of block 4. Output unit 6 is connected to the first input of unit 7 for comparing the actual {reactive power with the available second input of which is connected to meter 6 of total reactive power. The output of this unit is connected to the first input of the unit 8 comparing the difference of the available reactive power with the least economical power of the synchronous compensator detected in the unit 13, the output of which is connected to the second input of the unit 8. The disposable reactive power of the synchronous compensators in operation is fixed in blocks 10, arranged in decreasing order of their efficiency (consumption of active power per rotation). The output of the first one (upper) is connected to the first input of the block 13 and simultaneously with the input of the HE element 11, whose vstpod is connected to the first inputs of the And 12 elements. The second input of the lower And 12 element is connected to the output of the second HE element 11, whose input is connected to the output the second sensor 10 available reactive power. The lower inputs of the elements 12 are connected with the corresponding sensors 10 reactive power SC. The corresponding values of the available reactive power of the units operating in the SC mode are fed to the inputs of block 13, to which the output of the upper block 10 and the outputs of blocks 12 of the remaining hydroelectric power stations are connected. The output of the comparison unit 8 is connected to a threshold unit 9, the output of which is connected to the time delay block 14. The output of block 14 is connected to the first inputs of logic gates And 15, the corresponding inputs of block 13 are connected to the second inputs. The outputs of elements 15 are connected to the inputs of the memory block the result of the comparison, the output of which is connected to the inputs of the blocks.

fixing the result for input into the block in the centralized control system, the calculation of the optimum voltage of the reference node with an additional time delay. At the same time, the signal from the outputs of blocks 16 is transmitted to the corresponding hydroelectric power stations,

Block 14 is made in the form of a memory block, which fixes the result of the comparison for a certain time, and 6lok 15 - in the input of a time delay block.

The operation of the block diagram is as follows.

At the real-time rate, the available reactive power of the subsystem in block 4 is calculated based on information received from the subsystem from blocks 1-3. At the same time, the calculated value in block 4 is compared with the actual reactive Power of the subsystem, information about which is received from block 6 of measurement. The difference between the available and actual reactive power in the block 8 is compared with the available reactive capacity of the unit operating in the synchronous compensator mode. Information about the presence of such aggregates at the HPS comes from sensors 10 arranged in the order of decreasing active power losses per rotation. If HPS No 1 has units operating in the SC mode, then the sensor 10 receives the value with which the difference Qpacn -OF is compared. to disconnect one of the IC. The magnitude of the power from the blocks 10 is blocked by the logical elements NOT 11 and AND 12 of the preceding sensors. If there is no IC at HPP No. 1, then in block 8 compared I enters the value from

unit 10 of another hydroelectric station, on which there are in operation units operating in the CW mode with lower expenditures of active power for rotation.

When the SC is turned off, the voltage at the reference node must be increased in a number of cases (the SC when calculating the optimal voltage is perceived as the loss per corona). In

Avoiding an unstable AC shutdown (re-enabling the UK after disconnecting) the shut-off signal is transmitted through block 17 to the unit for calculating the optimum voltage of the centralized control system only after a specified time.

Claims (2)

1 · A method of automatically controlling the number of units operating in parallel in synchronous compensator mode in the power system, which consists in measuring the available - (reactive) power of the power system, measuring the actual reactive power of the power system, comparing the actual power with the available power, characterized in that, in order to reduce energy losses, select the unit that consumes the largest active power, and compare the specified difference with the available reactive power of the selected unit and submit control A signal to turn off this synchronous compensator when this difference is exceeded by a predetermined amount during a given time. 2. A device for automatically controlling the number of units operating in parallel in synchronous compensators mode in the power system, comprising a unit for measuring available reactive power and a unit for measuring actual power, the outputs of which are connected to a unit for comparing actual and available capacities, characterized in that it is equipped with a unit for comparing the difference in available power and the actual with the available reactive power of the unit that consumes the largest active power, a threshold block, a stand block time, units of the available reactive power of the units, an OR logical element with the number of inputs equal to the number of hydroelectric power stations, logical elements NOT, logical elements AND, output blocks and blocks (transmitting; .; transmitting information about switching off synchronous compensators, and the output of the comparison unit the difference between the available reactive power and the actual with the available reactive power of the unit that consumes the largest active power is connected through the threshold block to the time delay block, and the comparison eye, an OR gate is connected, the inputs of which are connected to the units of the available reactive power of the units, the first block being directly and each next through the AND gate, the output of the first block of the available reactive power of the units and the outputs of the logical elements AND of each next block of available power aggregates through other logical elements - And, the number of which is equal to the number of hydroelectric power stations, connected to SU „., 11 11228 with output blocks connected to blocks transmitting information on switching off synchronous compensators, units of the available reactive power of the units are connected to the inputs of the first logical elements AND ^{1 of} each subsequent block of the available reactive power of the units through the logical elements NOT.