RU2326481C1 - Method of automatic connection of reserve power supply of loads and device for its implementation - Google Patents

Abstract

FIELD: electricity, electric equipment.

SUBSTANCE: invention is related to electric equipment. Technical result is in increase of reliability of determination of reasons for loss of normal electric power supply and expansion of functional possibilities of controlling device of automatic connection of reserve power supply. For that purpose in the method additionally the minimum current of every section input is measured, then compared to the set value of input current, and in case the set current is exceeded, the change over takes place to the reserve power supply source. The device consists of input switches of main and reserve power supply sources with block-contacts and control switches, section breaker with block-contacts and control switch, voltage transformers on bus bars of main and reserve power supply source, current transformers at the inputs of main and reserve power supply, two protection relays, and also is additionally equipped with voltage transformers, which are connected to input switches, fast-acting start devices.

EFFECT: expansion of functional possibilities of controlling device of automatic start of reserve power supply connection.

2 cl, 1 dwg

Description

The invention relates to electrical engineering, in particular to emergency control devices for substations with a voltage of 6-35 kV.

The proposed method can be used to record power outages for any type of damage in the supply network of the switchgear immediately after their occurrence and the implementation of high-speed switching to a backup power source for all consumers connected to the substation.

There is a method of turning on backup power supply to consumers (USSR AS No. 1262627, class N02J 9/06, 1986) containing a load in the form of synchronous motors, in which by measuring the integral value of the difference between the actual load consumed by the active power and the power necessary for its stable work in conditions of disruption of normal power supply, determine the mode of stable operation of the engines and, when the obtained integral value exceeds the difference of the set value, the sources are switched.

The indicated method of turning on the backup power supply of consumers has low speed due to the need to determine the actual active power consumed over a long period of time. Another disadvantage of this method is the inability to determine the shutdown modes of the substation circuit breaker with a low-power high-voltage load, remote single-phase faults in 110 kV power circuits.

A known method of automatically turning on backup power supply to consumers (ATS) (AS USSR No. 1728927, class N02J 9/06, 1990), which consists in measuring the voltage of the direct sequence of buses of the main and backup power sources, the angle between the voltage vectors of the voltage of the direct sequence of the main busbars and backup power supplies, determining the direction of active power at the input of the main power supply busbars, switching the main power supply bus to a backup power supply while reducing the direct sequence voltage the main source busbars are below the specified or exceeding the angle between the direct sequence voltage vectors is greater than the specified one and when the active power is directed from the busbars to the main power supply, the direction and value of the reactive component of the direct sequence current at the main busbar input, the voltage value of the reverse sequence voltage of the main busbars and when the reactive component of the direct current current from the buses to the main source and excess after and its reverse sequence voltage tire main setpoint source buses also produce switching the main source to a backup power source, the switching is carried out simultaneously with the forcing field synchronous motors in all cases.

The method has the following disadvantages: the impossibility of detecting single-phase, two-phase, and two-phase to ground short circuits in the consumer power circuit due to the fact that in these modes the direction of the active power at the inputs of the substation does not change and its consumption by the motor load continues; the impossibility of automatic recovery mode, it is not possible to provide adaptability with respect to switchgear circuits.

A starting device for automatically turning on the backup power supply of consumers is known (A.S. No. 1304126, class N02J 9/06, 1987), containing pulse shapers connected to the terminals of both unlike phases of voltage transformers of the first and second sources, and of the same phases of voltage transformers of the first and second sources, input switches of the main and backup power supplies, a section switch, current transformers at the inputs of the main and backup sources, analog-to-digital current and voltage converters a means of determining the direction of power of the direct sequence at the inputs, a reacting organ whose output is connected through the control unit to the input and section switches, threshold elements, the inputs of which are connected to the outputs of the pulse shapers, blocking organs, current signal shapers, logic circuits AND, elements BAN , memory elements, logic circuits OR, devices for accelerating the inclusion of a sectional capacitor-type circuit breaker, lining.

The known device has the following disadvantages affecting reliability: instability of parameters of pulse shapers, threshold elements in operating conditions, lack of voltage control to the input switches and voltage malfunctions, lack of monitoring of the substation. In this case, the parameters of the threshold elements are regulated stepwise, there is a large consumption of active power and a long return time of the device.

The technical problem solved by the invention is to increase the reliability of determining the causes of the loss of normal power supply and expand the functionality of controlling the device for automatically turning on the backup power supply of consumers by introducing a unit for determining the minimum input current of each section, a voltage control unit to the input circuit breakers of the sections, the implementation of the control unit in the form of microprocessor devices and the use of IGBTs to turn on / off switches.

The stated technical problem is solved in that in the known method for automatically turning on the backup power supply of consumers, in which the direct sequence voltage of the main and backup power supply buses is measured, the angle between the direct sequence voltage vector of the main and backup power supply buses is measured, the direction of the active power at the bus input is determined the main power source, switch the bus of the main power source to the backup when the direct voltage decreases after According to the invention, the minimum input current of each section is additionally measured, compared with the set value of the input current, and when the angle of the voltage between the direct sequence voltage vector is greater than the specified value and when the active power is directed from the buses to the main power source, exceeding the specified current switch to the backup power source.

In addition, the known device for automatically turning on the backup power supply of consumers, containing input switches of the main and backup power sources with block contacts and control keys, a section switch with block contacts and a control key, voltage transformers on the buses of the main and backup power sources, current transformers at the inputs of the main and backup power supplies, two protection relays, according to the invention, are additionally equipped with voltage transformers connected to water switches, a quick-start device containing a control unit, a block of discrete signals and constants, an indication device, analog-to-digital converters, the inputs of which are connected to the outputs of the current transformers at the inputs of the main and backup power sources, voltage transformers, connected to the input switches in the main circuits and backup power supplies, and with voltage transformers on the buses of the main and backup power supplies, the outputs of the indicated analog-to-digital converters Atels through the analog to discrete signal conversion blocks are connected to the inputs of the minimum current determination blocks, direct sequence power direction determination blocks, the minimum and main voltage backup voltage determination blocks, the phase angle angle determination blocks between the main and backup power sources, the first two outputs are connected to logical blocks AND, here the outputs of the last two are connected through logical blocks OR, the outputs of blocks AND are connected to the first and second inputs of the block control, the third input of the control unit is connected to the block of discrete signals and constants, the fourth input is connected to the display unit, the fifth and sixth inputs are connected respectively to the protection relay, the seventh and eighth inputs are connected to the block contacts and control keys of the main and backup power sources, respectively , the ninth input of the control unit is connected to the block contacts and the control key of the sectional switch, while the control unit sends a signal to turn off the switch of the main (backup) power source and from the block contacts of the latter gives a signal to turn on the sectional switch.

The drawing shows a schematic diagram of the proposed device for automatically turning on the backup power supply to consumers. The device contains the main 1 and backup 2 power sources, input switches of the working inputs 3 and 4, a section switch 5, substation buses 6 and 7, three-phase current transformers 8, 9 at the inputs of the main and backup power sources and voltage transformers: 10, 11 - at tires of the main and backup power supplies, 12, 13 - connected to the input circuit breakers; high-speed starting device 14, block contacts of 15.16 input switches of the main and backup power sources, 17 - sectional switch, protection relay 18, 19 to controlled switches 3 and 4, controlled on-off switches 20, 21 input switches of the main and backup sources power supply, 22 - sectional switch. The high-speed starting device 14 contains an indication unit 23, a block of discrete signals and constants 24, analog-to-digital converters 25, 26, the inputs of which are connected to the outputs of current transformers 8, 9 in the circuits of the main 1 and backup 2 power sources, voltage transformers 12, 13 to input switches 3, 4 in the circuits of the main 1 and backup 2 power sources, voltage transformers 10, 11 of the main and backup sections, the outputs of the indicated analog-to-digital converters 25, 26 through blocks for converting discrete measurements into The set complex values 27, 28 are connected to the inputs of the blocks for determining the minimum input current of each section 29, 30, the blocks for determining the direction of power of the direct sequence 31, 32, the blocks for determining the minimum voltage 33, 34 of the main 1 and reserve 2 power sources, the blocks for determining the phase angle 35, 36 between the main and backup power supply. The outputs of the blocks for determining the minimum current 29, 30 are connected to the logical blocks And 39, 40, the outputs of the blocks for determining the direction of power of the direct sequence 31, 32 are connected here, and the outputs of the blocks for determining the minimum voltage 33, 34 and the outputs of the blocks are connected through logical blocks OR 37, 38 determine the angle of phase shift 35, 36. The outputs of blocks And 39, 40 are connected to the control unit 41: the first 42 and second 43 inputs, the third input 44 of the control unit 41 is connected to the block of discrete signals and constants 24, the fourth input 45 is connected to the indicating device and 23, the fifth 46 and sixth 47 inputs of the control unit 41 are connected respectively to the protection relays 18, 19 of the main 1 and backup 2 power sources, the seventh 48 and eighth 49 inputs are connected to the block contacts and control keys 15, 20 and 16, 21, respectively main 1 and backup 2 power supplies, the ninth 50 input is connected to the block contacts and the control key 17, 22 of the sectional switch 5, the tenth - twelfth outputs 51-53 implement control channels (if they are based on IGBT transistors) by the working input switches 3 and 4 and sectional switch 5.

The primary windings of current transformers 8 and 9 are connected to the inputs of power supplies 1, 2. The primary windings of voltage transformers 10, 11 are connected to the buses of the substation 6, 7, voltage transformers 12, 13 are connected to the line voltage to the input switches. Using transformers 10 and 11, zero-sequence voltages are also removed at each section of the substation, which is necessary to implement an additional function of the device - control of voltage malfunctions.

The device operates as follows. Using voltage transformers 10 and 11, linear or phase (optional) voltages are removed on the first (U _ab1 , U _bc1 , U _ca1 ) and second (U _ab2 , U _bc2 , U _ca2 ) mutually redundant sections of the power distribution device. Using current transformers 8 and 9, continuous measurements are made of the instantaneous values of phase currents at the first (I _a1 , I _b1 , I _c1 ) and second inputs (I _a2 , I _b2 , I _c2 ). The measurement results are sent to the blocks of analog-to-digital converters 25 and 26, where the continuous values of currents and voltages are converted into rows of discrete measurements with a sampling step of 1200 Hz (24 points per period of the network frequency).

Discrete series of measurements are supplied to a high-speed starting device 14, where in blocks 27 and 28, the results of discrete measurements are converted into effective complex values of currents at inputs (I ₁ ) and voltages U ₁ at sections of a substation. At the same time, from the block of discrete signals and constants 24, the set parameters of the minimum voltage, minimum current, on and off angle are supplied to the high-speed starting device 14.

(

) и токов

(

) прямой последовательности (блоки 27 и 28). Блокирующим сигналом для работы устройства является минимальный ток и направление активной мощности прямой последовательности блоки 29 и 31 (блоки 30 и 32). Для регистрации потери питания служат блоки минимального напряжения 33, 34 и угла между векторами напряжений прямой последовательности на первой

(второй

) и второй

(первой

секциях (блоки 35, 36). Сигналы для работы устройства формируются с помощью логических блоков ИЛИ (блоки 37 и 38), И (блоки 39 и 40) и поступают в блок управления 41, который управляет работой подстанции в нормальном и аварийном режимах. При регистрации возникшего аварийного режима блок управления 41 по каналам управления 51, 53 (52, 53) производит отключение вводного выключателя 3 (4) поврежденного ввода 1 (2) и включение секционного выключателя 5. Осциллограммы и параметры режима работы подстанции сохраняются в энергонезависимой памяти и отображаются с помощью блока индикации 23.The high-speed starting device 14 converts the effective values of the phase currents at the inputs and voltages at the sections of the substation into complex effective values of the voltages

(

) and currents

(

) direct sequence (blocks 27 and 28). The blocking signal for the operation of the device is the minimum current and the direction of the active power of the direct sequence blocks 29 and 31 (blocks 30 and 32). To register the power loss, the blocks of the minimum voltage 33, 34 and the angle between the direct sequence voltage vectors on the

(second

) and the second

(first

sections (blocks 35, 36). The signals for the operation of the device are generated using the logical blocks OR (blocks 37 and 38), AND (blocks 39 and 40) and enter the control unit 41, which controls the operation of the substation in normal and emergency modes. When registering an emergency mode, the control unit 41, through the control channels 51, 53 (52, 53), turns off the input switch 3 (4) of the damaged input 1 (2) and turns on the section switch 5. The oscillograms and parameters of the operation mode of the substation are stored in non-volatile memory and are displayed using display unit 23.

The work of the starting organ of the device is carried out by software processing the measurement results. The microprocessor starting device software allows you to control the operation of high-speed automatic transfer switch in accordance with the proposed algorithm.

When the active input power of the substation P ₁ = U _1-1 I _1-1 cosφ ₁ or P ₂ = U _2-1 I _2-1 cosφ _{2 is} directed from the source to the load, the ATS device does not work, so that in the power supply system of the substation neither happened. In normal mode, the signal at the input of blocks 29 and 31, 30 and 32 blocks with the help of elements 39, 40 the signal to turn on the sectional and turn off the input switches, sections of the substation work separately.

(

) меньше Iуст, то работа устройства разблокируется так же, как при изменении направления активной мощности прямой последовательности.For modes with low currents (at the interference level) at the input, when the operation of the direct power active power direction block is not predictable, the minimum current setting specified in block 24 is provided. If the current

(

) is less than Iust, then the operation of the device is unlocked in the same way as when changing the direction of the active power of the direct sequence.

In the modes falling under the ABP coverage area, when the active power P ₁ (or P ₂ ) of blocks 31 (32) changes direction (from the load to the source), the input voltage U ₁ <U _{mouth of} block 33 (or U ₂ <U _mouth block 34) and the blocking signals from the switches 15, 16, 17 and relay protection 18, 19 do not interfere with the operation, the control unit 41 gives a signal to turn off the switch of the first 3 (second 4) input and from the terminal block of the last sends a signal to turn on the section switch 5.

(второй

) и второй

(первой

) секциях подстанции удовлетворяет условию δ₁₂>δ_уст (δ₂₁>δ_уст) и блокирующие сигналы от выключателей 15, 16, 17 и релейной защиты 18, 19 не препятствуют работе, то блок управления 41 подает сигнал на отключение первого 3 (второго 4) вводного выключателя и от блок-контактов последнего подается сигнал на включение секционного выключателя 5.If the active power P ₁ (or P ₂ ) of block 31 (32) changes direction (from load to source), the angle δ ₁₂ (δ ₂₁ ) of block 35 (36) between the direct sequence voltage vectors on the first

(second

) and the second

(first

) the sections of the substation satisfy the condition δ ₁₂ > δ _mouth (δ ₂₁ > δ _mouth ) and the blocking signals from the switches 15, 16, 17 and relay protection 18, 19 do not interfere with operation, the control unit 41 gives a signal to turn off the first 3 (second 4 ) of the input switch and from the block contacts of the latter, a signal is sent to turn on the section switch 5.

Introductory 3, 4 and sectional switches 5 of the device are equipped with IGBT on-off transistors and can be supplemented by an induction-dynamic acceleration device that allows reducing the own time of switching on and off by more than two times. An induction-dynamic acceleration device stores energy in the normal mode of operation of the substation and, with the help of the control device 41, switches to the circuit breaker (on) circuit breaker upon command, supplying increased voltage to these coils.

If there is a signal about the voltage removed to the input switch using blocks 12 and 13, the device allows automatic recovery of the normal mode circuit after resuming power supply from the main source, if the switching corresponds to the position of the on / off switches of the input and section switches 20, 21, 22 .

According to the invention (operation algorithms) and capabilities (the presence of 16 analog signals), the device works for substation circuits with two inputs per section. The display unit 23 displays the structural diagram of the substation with an indication of the state of the circuit breakers, and the software calculates the power of individual connections in a form convenient for duty personnel on the basis of voltages and currents, registers the status of analog and discrete signals of substation devices in normal and emergency operation with saving recorded information in non-volatile memory.

A quick starting device differs from a conventional ATS in that the ATS cycle time is reduced, all motors of a substation that has lost power remain in operation, synchronous motors do not lose synchronism, the switching currents of motors powered by a damaged input when the ATS is activated do not exceed 2 ÷ 2.5 I _nom unlike conventional ABP, when they are 5 ÷ 7 I _nom .

Claims (2)

1. A method of automatically turning on the backup power supply of consumers, in which the direct sequence voltage of the main and backup power supply buses is measured, the angle between the direct sequence voltage vectors of the main and backup power supply buses is measured, the direction of active power at the input of the main power supply busbars is determined, the main busbars are switched power supply to the backup when the voltage of the direct sequence bus voltage of the main power supply is lower than specified about the level or when the angle between the direct sequence voltage vector is greater than the specified one and when the active power is directed from the buses to the main power source, characterized in that the minimum input current of each section is additionally measured, it is compared with the specified value of the input current, and if the specified current is exceeded, also switch to a backup power source. 2. A device for automatically turning on the backup power supply to consumers, containing input switches of the main and backup power sources with block contacts and control keys, a section switch with block contacts and a control key, voltage transformers on the buses of the main and backup power sources, current transformers at the inputs main and backup power supplies, two protection relays, characterized in that it is additionally equipped with voltage transformers that are turned on before the input switches fuses, a high-speed starting device containing a control unit, a unit of discrete signals and constants, an indication unit, analog-to-digital converters, the inputs of which are connected to the outputs of the current transformers at the inputs of the main and backup power sources, voltage transformers connected to the input switches in the main and backup power supplies, and with voltage transformers on the buses of the main and backup power supplies, the outputs of the indicated analog-to-digital converters through pre of generating analog signals into discrete signals are connected to the inputs of the blocks for determining the minimum current, blocks for determining the direction of power of the direct sequence, blocks for determining the minimum voltage of the main and backup power sources, blocks for determining the phase angle between the main and backup power source, while the outputs of the first two blocks are connected to logical blocks AND, here the outputs of the last two blocks are connected through logical blocks OR, the outputs of blocks AND are connected to the first and second inputs of control, the third input of the control unit is connected to the block of discrete signals and constants, the fourth input is connected to the display unit, the fifth and sixth inputs are connected respectively to the protection relay, the seventh and eighth inputs are connected to the block contacts and control keys of the main and backup power sources, respectively , the ninth input of the control unit is connected to the block contacts and the control key of the sectional switch, while the control unit sends a signal to turn off the input switches of the main and backup sources plug and the auxiliary contacts latter sends a signal to switch section switch