KR100364513B1 - Apparatus for reducing the harmonic component in the power line - Google Patents

Abstract

The present invention relates to a device for reducing image harmonic components generated at the load side as well as harmonic components of at least 5th order, comprising: a power system having a multiphase multi-wire connection for supplying AC power to a load; Each of the windings connected to each of the wires is wound on the different legs constituting a core overlapping with each other, winding the same number of turns by varying the winding direction and connected to the neutral wire to reduce the image harmonics generated at the load side Zig-zag transformers; And a line reactor connected to each phase line between the power system and the zig-zag transformer to block inflow of harmonic components of at least five to the power system.

Description

Harmonic Reduction Device in Power Lines {APPARATUS FOR REDUCING THE HARMONIC COMPONENT IN THE POWER LINE}

The present invention relates to an apparatus for reducing harmonics, and more particularly, to an apparatus for reducing image harmonic components generated at the load side as well as 5th or higher harmonic components.

The recent rapid increase in the use of electronic products is increasing the generation of harmonics in the power line. These image harmonics (also called image harmonics or three harmonics) are a current larger than the phase current and tend to flow into the power system through the neutral line.

In more detail, the neutral current expansion caused by the image harmonics is described in more detail.

The phase A (or R phase), B (or S phase), and C (or T phase) currents in equilibrium have a phase difference of 120 °. (That is, 0). However, because the phases of the third harmonic flowing in the A phase, the third harmonic flowing in the B phase, and the third harmonic flowing in the C phase are the same, the current of the scalar sum instead of the vector sum flows through the neutral line. For this reason, the current flowing through the neutral line is not zero and is larger than the phase current so that the overcurrent flows.

In the internal regulations, the thickness of the neutral wire is defined to be the same as that of the normal wire. If a current larger than the phase current flows through the neutral wire due to the image harmonics, the cable will flow over the rated current, causing overheating and causing a fire. In addition, the neutral harmonic overcurrent caused by three harmonics causes serious obstacles such as overheating of cable and transformer, transformer and generator output, power factor, power loss increase, ELB and MCCB malfunction, induced interference, and neutral ground potential increase.

In order to solve this problem, as shown in FIG. 1, an image shunt device (zig-zag TR) 5 having a low image impedance is placed between the load 6 and the center line N of the power supply system 11. A technology for canceling image harmonics by connecting (USP 5576942) is disclosed. In this prior art, the image harmonic components are reduced by circulating the image harmonic components generated at the load 6 through the zig-zag TR (5), and the image harmonics are used by using the line reactor 4 connected in series with the neutral wire. The reduction efficiency of a component is raised.

However, in the above-described prior art, only the jig-zag TR (5) is used to reduce only the image harmonic components, that is, harmonic components having a multiple order of three, so that the fifth harmonic or higher harmonic components flow into the power system through the merchant ship. There is this. If more than 5 harmonics are introduced into the power system, the generator output decreases, the power factor decreases, the transformer overheats, and the power loss increases.

In addition, when the line reactor 4 is connected to the neutral wire, since the reactor element is overheated by the image harmonic component, there is a risk that the neutral wire is disconnected due to overheating. Such disconnection of the neutral wire may cause damage to the electrical installation installed in the customer due to voltage unbalance.

Accordingly, an object of the present invention is to provide an apparatus for reducing harmonics in a power line that can reduce the harmonic content of the harmonics generated in the load side and flow into the power system, as well as reduce the influx of 5th or more harmonics into the power system. have.

Another object of the present invention is to maximize the energy saving effect, to improve the power factor, to maximize the efficiency of the transformer by reducing all harmonic components of the third or more generated from the load side, and to prevent damage to the customer's electrical equipment due to the disconnection of the neutral wire The present invention provides an apparatus for reducing harmonics in a power line that can be prevented in advance.

1 is an exemplary configuration diagram of an apparatus for reducing image harmonics in a general power line.

Figure 2 is an exemplary view of the wiring of the harmonic reduction device according to an embodiment of the present invention.

Figure 3 is an exemplary core winding of the zigzag transformer of Figure 2;

Harmonic reduction apparatus in a power line according to an aspect of the present invention for achieving the above object;

A power system having a multiphase multi-wire connection for supplying AC power to the load;

The jig for reducing the image harmonics generated at the load side by winding the windings connected to each of the merchant wires overlapping the different legs constituting a core, and winding them with the same number of turns by varying the winding direction and then connecting the neutral wire A jag transformer;

And a line reactor connected to each phase line between the power supply system and the zig-zag transformer to block inflow of third or more harmonic components to the power supply system.

According to an additional aspect of the invention, the line reactor is characterized in that it has a higher impedance value than the zigzag transformer.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, when it is determined that a detailed description of a known function or configuration, such as a zig-zag transformer, may unnecessarily obscure the subject matter of the present invention, a detailed description thereof will be omitted.

First, FIG. 2 illustrates a wiring diagram of a harmonic reduction device according to an exemplary embodiment of the present invention, and FIG. 3 illustrates an example of core winding of a zig-zag transformer 20 of FIG. 2.

Referring to FIG. 2, a harmonic reduction device in a power line according to an exemplary embodiment of the present invention includes a power supply system 10, a load 30, line reactors L1 to L3, and a zigzag transformer.

The power supply system 10 has a three-phase four-wire type Y connection and supplies AC power to the load.

The zig-zag transformer 20 includes primary, secondary, and tertiary windings connected to each of the phase lines A, B, and C of the power line, and quadruples 5 and 5 commonly connected to the neutral line N. As a transformer in which the sixth and sixth windings are wound around the legs constituting one core, an image harmonic component generated at the load 30 side is reduced. At this time, the primary winding and the fifth winding, the secondary winding and the sixth winding, the third winding and the fourth winding correspond to one winding.

An illustration of this winding of the zig-zag transformer 20 is shown well in FIG. 3. That is, as shown in FIG. 3, the zig-zag transformer 20 winds two windings in opposite directions in the same leg constituting one core, and the image current generated in the load 30 is This is offset by winding the windings with the phases reversed. The zig-zag transformer 20 preferably lowers the image impedance as much as possible so as to introduce and remove the image harmonic current.

On the other hand, the line reactors L1 to L3 connected to the phase lines A, B, and C between the power supply system 10 and the zig-zag transformer (TR) 20 are elements having a high impedance value as a load ( It blocks the influx of harmonic components above 5th order generated in 30). The line reactors L1 to L3 employ variable elements so that the impedance can be adjusted according to the type of load.

Referring to the operation of the harmonic reduction device having the above-described configuration,

First, the image harmonic current flowing through a pair of windings wound around each of the legs of the core shown in FIG. 3 has the same value except that the polarity is reversed. The magnetic flux caused by the current flowing through these windings is also the same and has the opposite polarity. Therefore, the image impedance is reduced as a result of the flux cancellation. Accordingly, the image harmonic current generated at the load 30 side flows back to the load 30 side through the zig-zag transformer 20 having low image impedance, and only an unbalance of normal and reverse phase current flows through the neutral line N. do.

Therefore, it is possible to prevent the damage caused by the image current flowing through the neutral line (N).

On the other hand, since the line reactors L1 to L3 connected to the phase lines A, B, and C between the power supply system 10 and the jig-zag transformer (TR) 20 have high impedance values, the power supply system 10 ) Results in an increase in impedance, facilitating the inflow of image current into the zig-zag transformer (TR) 20 and reducing the influx of fifth or more harmonic components generated on the load 30 side to the power supply side in advance. .

Therefore, the present invention reduces the image harmonics generated in the load 30 through the zig-zag transformer, and the other harmonics block the inflow into the power supply system using a line reactor, so that harmonics flow into the power supply system. The damage caused by this will be minimized.

As described above, the present invention eliminates reactor elements that have been installed in the neutral line to enhance the image harmonic reduction efficiency, and prevents the disconnection of the neutral line due to overheating of the reactor element, as well as a line having high impedance in each phase line. By installing the reactor element, it improves the image harmonic reduction efficiency and prevents the 5th or higher harmonics from entering the power system to solve the problems caused by harmonics such as generator output drop, power factor drop, transformer overheating loss, and power loss. It can be effective. This has the effect of reducing harmonics over all orders with one device rather than a device that reduces only some harmonics by using parallel resonance for each order.

In addition, the device according to the embodiment of the present invention is convenient to be applied to a more comprehensive load instead of only a specific load.

On the other hand, the present invention has been described with reference to the embodiments shown in the drawings, which are merely exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be defined only by the appended claims.

Claims (3)

In harmonic reduction device in power line, A power system having a three-phase multi-wire connection for supplying AC power to the load; Each of the windings of one phase connected to each of the merchant wires is wound around the first and second legs, the second and third legs, the third and the first legs of the core having three legs, and wound in the same number of turns with different winding directions. A zig-zag transformer connected to a neutral wire to reduce an image harmonic component generated at the load side; And a line reactor connected to each phase line between the power supply system and the zig-zag transformer to block the inflow of harmonic components of at least 5 to the power supply system. The harmonic reduction apparatus of claim 1, wherein the line reactor has a higher impedance value than the jig-zag transformer. The harmonic reduction apparatus of claim 1 or 2, wherein the line reactor is a device capable of varying an impedance according to a load type.