RU186774U1 - DEVICE FOR COMPENSATING THE THIRD HARMONIC CURRENT IN A NEUTRAL ELECTRIC NET WIRE - Google Patents

Abstract

The utility model relates to electrical engineering and can be used to improve the energy efficiency of three-phase four-wire networks by reducing the loss of electricity from the flow of third harmonic currents in a neutral wire of an electric network.

A device for reducing the third harmonic current in the neutral wire of the electric network, containing a three-phase half-wave half-wave rectifier with a zero point, a filter with a passband of 150 Hz, a current transformer included with its primary winding in the neutral wire of the electric network, three current transformers with two secondary windings included in phase wires of the electrical network, while the ends of the secondary windings of the current transformers are interconnected so that the end of the first secondary winding of the current transformer is included current in the leading phase of the network, connected to the end of the second secondary winding of the current transformer included in the lagging phase of the network, while the beginnings of their first secondary windings are combined into a common point that is connected to the beginning of the secondary winding of the current transformer included in the neutral wire of the electric network, and the beginnings of their second secondary windings are connected to the input of a three-phase half-wave rectifier with a zero point, the output of which through a filter with a passband of 150 Hz is connected to the end of the secondary transformer winding a current generator included in the neutral wire of the electric network, characterized in that it is additionally introduced three current relays and three circuits of series-connected capacitor and resistor, while the windings of three current relays are connected between the beginnings of the secondary windings of current transformers included in the phase wires of the electric network, and the serially connected disconnecting contacts of three current relays bypass the secondary winding of the current transformer included in the neutral wire of the electric network, also in parallel windings of three current relays are connected to the circuit from a series-connected capacitor and resistor.

EFFECT: increased accuracy of compensation of the third harmonic current due to the exclusion of the overcompensation mode, which improves the quality of electric energy, reduces electric energy losses and voltage losses in all elements of a three-phase electric network from the third harmonic current.

Description

The utility model relates to electrical engineering and can be used to improve the energy efficiency of three-phase four-wire networks by reducing the loss of electricity from the flow of third harmonic currents in a neutral wire of an electric network.

A device is known for protecting the network from the effects of third harmonic currents (patent RU 2353040, IPC H02J 3/01, H02J 3/26, Bull. No. 11, 2009), consisting of a measuring transformer and a rectifier, into which three transreactors are introduced, the primary windings of which are included in the cut of the linear wires of the network, and the beginnings of their secondary windings form a common point with the end of the secondary winding of the measuring transformer, while the measuring transformer is made by a transreactor, and the rectifier is three-phase.

The disadvantages of this device are the large error of the transreactors and the weak suppression of the third harmonic current in the neutral wire of the network, as well as the possibility of the device working in overcompensation mode, as a result of which the low energy efficiency of suppressing the third harmonic currents.

Also known is the electromagnetic compensator of the third harmonic of the electric network (patent RU 2346370, IPC H02J 3/01, Bull. No. 4, 2009), containing a measuring current transformer, rectifier and converter, into which three current transformers are introduced, the primary windings of which are included in the cut linear wires of the network, and the beginnings of their secondary windings form a common point with the end of the secondary winding of the measuring current transformer, the ends of the secondary windings of the three current transformers through the rectifier are connected to the positive output terminal a converter whose negative output terminal is connected to the beginning of the secondary winding of the measuring current transformer, the primary winding of which is included in the neutral wire of the network, in addition, the rectifier is made three-phase, and its cathodes form a common point with the positive output terminal of the converter, and each of the rectifier anodes is connected to the ends of the secondary windings of three current transformers.

The disadvantages of this device are the partial suppression of the current of the third harmonic in the neutral wire of the network and low energy efficiency in the transmission of electricity.

The prototype is a device for reducing the third harmonic current of a four-wire network (patent RU 161057, IPC H02J 3/01, Bull. No. 10, 2016), containing a three-phase half-wave rectifier with zero point, four current transformers, one of which is connected with its primary winding into the neutral wire, and the other three into the phase wires of the network, a filter with a bandwidth of 150 Hz, the three current transformers included in the phase wires of the network contain two secondary windings, while the ends of the secondary windings of the current transformers are interconnected so that the end of the first secondary winding of the current transformer included in the leading phase of the network is connected to the end of the second secondary winding of the current transformer included in the lagging phase of the network, while the beginnings of their first secondary windings are combined into a common point that connects to the beginning of the secondary winding of the current transformer included in the neutral wire of the network, and the beginning of their second secondary windings are connected to the input of a three-phase half-wave rectifier with a zero point, the output of which is through a filter with a passband of 150 Hz is connected to the end of the secondary winding of the current transformer included in the neutral wire of the network.

The disadvantages of this device are the dependence of the value of the compensating current of the third harmonic on the magnitude of the current of the fundamental harmonic, thereby the possibility of the device operating in overcompensation mode, which reduces the efficiency of compensation of the current of the third harmonic.

The objective of the proposed utility model is to increase the efficiency of the compensation of the third harmonic current in the neutral wire of the electric network.

EFFECT: increased accuracy of compensation of the third harmonic current due to the exclusion of the overcompensation mode, which improves the quality of electric energy, reduces electric energy losses and voltage losses in all elements of a three-phase electric network from the third harmonic current.

The technical result is achieved by a device for reducing the third harmonic current in a neutral wire of an electric network, containing a three-phase half-wave rectifier with a zero point, a filter with a passband of 150 Hz, a current transformer connected by its primary winding to the neutral wire of the electric network, three current transformers with two secondary windings included in the phase wires of the electrical network, while the ends of the secondary windings of current transformers are interconnected so that the end of the first is secondary The first winding of the current transformer included in the leading phase of the network is connected to the end of the second secondary winding of the current transformer included in the lagging phase of the network, while the beginnings of their first secondary windings are combined into a common point that is connected to the beginning of the secondary winding of the current transformer included in the neutral wire of the electric network, and the beginning of their second secondary windings are connected to the input of a three-phase half-wave rectifier with a zero point, the output of which is connected through a filter with a passband of 150 Hz n to the end of the secondary winding of the current transformer included in the neutral wire of the electric network, into which three current relays and three circuits of series-connected capacitor and resistor are additionally introduced, while the windings of three current relays are connected between the beginnings of the secondary windings of current transformers included in the phase wires of the electric network, and the serially connected disconnecting contacts of three current relays bypass the secondary winding of the current transformer included in the neutral wire of the electric network , also, parallel to the windings of the three current relays are connected circuits of series-connected capacitor and resistor.

In FIG. 1 shows a diagram of a device for reducing the third harmonic current in a neutral wire of an electric network.

The device for reducing the third harmonic current in the neutral wire of the electric network contains a three-phase half-wave rectifier with zero point 1, a current transformer 2, three current transformers with two secondary windings 3-5, a filter 6 with a passband of 150 Hz, windings 7-9 and opening contacts 10-12 three current relays and three circuits 13-15 from a series-connected capacitor and resistor. Current transformer 2 is connected by its primary winding to the neutral wire N, and current transformers 3-5 are connected to the phase wires L1, L2, L3, the beginning of the secondary windings of current transformer 2 and the beginning of the first secondary windings of current transformers 3-5 form a common point. The beginnings of the second secondary windings of current transformers 3-5 are connected to the input of a three-phase half-wave rectifier with zero point 1. The output of a three-phase half-wave rectifier with zero point 1 is connected to the end of the secondary winding of current transformer 2 through a filter 6 with a passband of 150 Hz 2. Moreover, the ends of the secondary windings 3-5 current transformers are interconnected so that the end of the first secondary winding of the current transformer included in the leading phase of the network is connected to the end of the second secondary winding current included in the lagging phase network. The windings 7-9 of three current relays are connected between the beginnings of the secondary windings of current transformers 3-5, and the disconnecting contacts 10-12 of three current relays connected in series shunt the secondary winding of the current transformer 2. Three circuits 13-15 of a series-connected capacitor and resistor are connected parallel to the windings of 7-9 three current relays.

A device for reducing the current of the third harmonic in the neutral wire of the electrical network works as follows.

Single-phase non-linear loads cause non-sinusoidal currents to flow in the phase and neutral wires of the electric network, the third harmonic of the current being dominant in this case. From the flow of the main harmonic currents through the primary windings of current transformers 3-5, secondary currents are induced in the secondary windings of these current transformers. Diodes of a three-phase one-half-wave rectifier with a zero point 1 are switched on alternately in 1/3 of the industrial frequency period. Since the first and second secondary windings of current transformers 3-5 are connected to the phase difference, then the diodes of the three-phase half-wave rectifier with zero point 1 will pass current √3 times the phase secondary current, the current will be carried out by that diode of the three-phase half-wave rectifier with zero point 1, the anode potential of which relative to the common point of the first secondary windings of current transformers 3-5 is higher than that of other diodes. The multiplicity of the ripples of the rectified current flowing in the secondary winding of the current transformer 2, in relation to the main frequency of the primary network is equal to three. To compensate for the DC component and unwanted harmonics of the rectified current, a filter 6 with a passband of 150 Hz is introduced. As a result, the current flowing through the current transformer 2 will contain only currents with a frequency of 150 Hz, and the secondary windings will not be additionally heated. The windings 7-9 of three current relays will receive power from current transformers 3-5 in those cases when the corresponding diode of a three-phase half-wave rectifier 1 will not conduct current, that is, alternately 2/3 of the industrial frequency period. Three circuits 13-15 of a series-connected capacitor and resistor slow down the action of three current relays and do not allow contacts 10-12 of three current relays to close, supplying windings 7-9 of three current relays in 1/3 of the industrial frequency period, when the corresponding three-phase diode a half-wave rectifier 1 conducts current. The setting of the three current relays is selected so that during the minimum load of the electric network exclude the possibility of overcompensation of the current of the third harmonic by shunting the secondary winding of the current transformer 2 using the breaking contacts 10-12 of three current relays.

Thus, the claimed device for reducing the third harmonic current in the neutral wire of the electric network provides improved accuracy of the third harmonic compensation by eliminating the overcompensation mode, which improves the quality of electric energy, reduces the loss of active power and voltage loss in all elements of a three-phase four-wire network from the third harmonic current .

Claims (1)

A device for reducing the third harmonic current in the neutral wire of the electric network, containing a three-phase half-wave half-wave rectifier with a zero point, a filter with a passband of 150 Hz, a current transformer included with its primary winding in the neutral wire of the electric network, three current transformers with two secondary windings included in phase wires of the electrical network, while the ends of the secondary windings of the current transformers are interconnected so that the end of the first secondary winding of the current transformer is included current in the leading phase of the network, connected to the end of the second secondary winding of the current transformer included in the lagging phase of the network, while the beginnings of their first secondary windings are combined into a common point that is connected to the beginning of the secondary winding of the current transformer included in the neutral wire of the electric network, and the beginnings of their second secondary windings are connected to the input of a three-phase half-wave rectifier with a zero point, the output of which through a filter with a passband of 150 Hz is connected to the end of the secondary transformer winding a current generator included in the neutral wire of the electric network, characterized in that it is additionally introduced three current relays and three circuits of series-connected capacitor and resistor, while the windings of three current relays are connected between the beginnings of the secondary windings of current transformers included in the phase wires of the electric network, and the serially connected disconnecting contacts of three current relays bypass the secondary winding of the current transformer included in the neutral wire of the electric network, also in parallel windings of three current relays are connected to the circuit from a series-connected capacitor and resistor.

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