KR20030020145A - Induced current and abnormal Voltage control Apparatus and methods The same - Google Patents

Abstract

PURPOSE: An apparatus and a method for suppressing sheath line circulation current and abnormal voltage are provided to reduce power losses and achieve improved stability of power distribution system, while simplifying the configuration of the apparatus. CONSTITUTION: An apparatus comprises an iron core unit(10); a coil-wound unit(20) wound with a coil and arranged in the iron core unit; and a tap unit(30) including a first tap(31), a second tap(32) and a third tap(33), and which extract terminals for a predetermined turn of the coil take-up unit. The first, second and third taps have voltages which are set by the characteristics of the power distribution line.

Description

Induced current and abnormal voltage control Apparatus and methods The same}

The present invention is a special high-voltage distribution line of the multi-ground system in Korea, among the underground distribution line using the cable of the concentric neutral line series, the circulating current is generated between each phase line (hereinafter referred to as "neutral wire") due to the load current As a cause of cable heat generation and a decrease in current capacity, it causes loss and breakdown of the distribution line, so the circulating current of the sheath line and the siege line circulating current and abnormal voltage suppression device for suppressing the occurrence of abnormal voltage in the distribution line And how to do it.

In Korea's power system, the 22.9KV-Y power distribution system directly supplies power to relatively large customers, such as factories and buildings, from substations through underground and underground distribution lines, or through small transformers or homes through secondary transformers. It is the main trunk that supplies power to the city.In the outskirts of the city or in the rural areas, it supplies power to the underground in consideration of the city's aesthetics in places where people come and go frequently, such as the center of large cities, or in new urban areas in the form of overhead lines. It adopts a multiple grounding system that grounds (seed wire) every certain section.

Since the multi-grounding method is directly grounded to the ground, there is little voltage rise on the ground in case of ground fault, so it is easy to detect the insulation of the power equipment and the ground fault current, and the protection relay operates quickly. In the case of underground distribution lines, cross-linked polyethylene insulated vinyl sheath cables using high molecular compounds such as polyethylene are mainly used to protect the cable from insulation and cable trauma or corrosion, and to prevent the potential of the neutral wire from rising due to system accidents. The power distribution system is operated by collectively grounding the Shizu Line for each section. This is to keep the distribution system safe by limiting the unbalanced load current in normal and the rise of the ground potential of the sheath line below a certain value in case of ground fault, since the sheath wire is used as a neutral wire.

However, the load of each phase (A, B, C phase) is unbalanced in the underground distribution line, and even in equilibrium, the sheath line generates a different current load line than the load current due to the load current. Although the internal current of the cable is increased due to the lossy power, the current capacity of the cable decreases, so that the loss of the distribution line is caused by the actual load current of the distribution line and the circulating current of the siege line. Since the loss of the distribution line due to the circulating current is not accurately identified, it is difficult to secure safety measures of the cable due to heat generation, and it is difficult to improve the problems in the operation of the distribution line because the actual load is not accurately measured. This was there.

In fact, the result of measuring the current value at the unspecified (a) (b) (c) point of 22.9KV-Y underground distribution line is shown in Table 1, and the loss power is converted to about 50% of cable line loss. Accounted for (see calculation basis).

(Unit: amps) division (A) Branch (B) branch (C) branch Average Load current (A) Siege circulating current (B) Synthetic current (C) Siege current ratio (%) (B ÷ A) 1828715747.8 1827516741.2 27310123637.0 2128818741.5%

Note) Rn: CN / CV cable 325mm ² resistance, Rc: Sheath wire cross section 108mm ² (2.3mm 26 strands)

<Reason of birth>

Therefore, an object of the present invention for solving the above problems, in spite of the balance or unbalance of the load current of the extra-high voltage underground distribution line of the multi-ground system, the power is stable by preventing the circulating current from occurring in normal To provide a device that serves to provide a function to suppress the occurrence of abnormal voltage in the distribution line by limiting the potential rise of the neutral line in the event of an abnormal voltage such as a ground fault.

Another object of the present invention is to provide a method for installing the circulating current and abnormal voltage generation suppression device for suppressing the generation of the circulating current and the abnormal voltage for each section characteristic according to the siege wire connection point of the distribution line.

1 is a conventional underground distribution line system diagram

2 is a schematic view showing the configuration of the present invention and operation characteristics

3 is a schematic diagram of underground distribution lines implementing the device of the present invention.

4 is an underground distribution line schematic diagram of another embodiment of FIG. 3.

<Description of the symbols for the main parts of the drawings>

10: iron core core part

20: winding part

30 tab part 31 first tab

32: second tab 33: third tab

In order to limit the abnormal voltage within a certain voltage in the sheath line circulating current and the abnormal voltage suppression apparatus in the special high voltage underground distribution line of the present invention, the iron core core and the iron core core for achieving the above object Consists of a coil winding unit winding a certain portion of the coil with a coil, but if a tap is required, it is composed of a plurality of tap sections to draw a terminal every predetermined winding of the coil wire section, and the sheath wire circulating current and abnormal voltage are generated. One end of the suppressor is connected to the siege lines A, B, and C connection points of the distribution line, and the other end has a structure in which the ground is collectively grounded.

In order to achieve the above object, in the underground distribution line of the present invention, when the connection point of the sheath line that can add each phase of the underground distribution line to the siege line circulating current and abnormal voltage suppression device is not a multiple of 3, In the case where the circulating current and abnormal voltage suppression device are provided, and the sheath line connection points are multiples of 3, the sheath line circulating current and the abnormal voltage suppression device are provided at the midpoint of each of the extended phases. after,

As an example, when the sheath line connection point is not a multiple of 3, connecting each of the phases of the sheath line connection point to one end of the sheath line circulating current and the abnormal voltage suppression device, respectively; And collectively grounding the other end of the sheath line circulating current and abnormal voltage suppression device with a ground; If the tab portion is provided in the system line circulating current and abnormal voltage suppression device is made of the step of adjusting the tap portion to the required voltage,

In another embodiment, when the sheath line connection point is a multiple of 3, adding the sheath lines A, B, and C phases to separate conductors at every sheath line connection section; Connecting an intermediate point of each of the connected phase conductors and one end of the sheath line circulating current and abnormal voltage suppression device, respectively; Grounding the other ends of the sheath line circulating current and abnormal voltage suppression device together with a ground; If the tab portion is provided in the siege wire circulating current and abnormal voltage suppression device is characterized in that it comprises a step of adjusting the tab.

Hereinafter, the configuration and installation method of the circulating current and abnormal voltage suppression apparatus of the underground distribution line of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 shows a schematic diagram and operating characteristics showing the siege wire circulating current and the abnormal voltage suppression apparatus according to the present invention.

As shown in FIG. 2, the structure of the siege wire circulating current and abnormal voltage generation suppression apparatus includes an iron core core part 10 and a coil winding part 20 and a tab part 30 is installed as shown in FIG. 2. In this case, the tab part 30 is included, and the tab part 30 includes a plurality of tabs such as the first tab 31, the second tab 32, and the third tab 33.

The iron core core 10 has a coil wound around one end of the iron core core used in a general transformer, and the coil winding 20 wound one end of the iron core core 10 so as to induce a predetermined voltage. When the tab portion 30 is provided, the terminal can be drawn out at every winding of the coil winding 20 to the plurality of first tabs 31 to 33. It is composed. The siege wire circulating current and abnormal voltage generation suppression device having such a structure maintains a high impedance due to the magnetization characteristics of the coil and the iron core, and normally suppresses the circulating current of the siege wire, and when there is a plurality of tap portions, When a high voltage above the voltage set in the first to third taps is induced, the short-circuit state is caused by the magnetization characteristics of the coil and the iron core, thereby suppressing the abnormal voltage of the power distribution line, and in case of emergency, thousands to tens of amps. In the event of a ground fault in which an ampere current flows, the ground fault current is allowed to flow before the ground fault protection relay of the substation is operated.

The operation process of the siege wire circulating current and abnormal voltage suppression device configured as described above is a magnetic flux in the iron core core 10 of the siege wire circulating current and abnormal voltage suppression device generated in each phase due to the load current of the underground distribution line. Is generated and acts as a reactance Will exist.

The synthesized impedance can be ignored because only a small current corresponding to the excitation current normally flows, but when the voltage rises and the magnetization becomes magnetized, The current increases rapidly but the voltage hardly changes (see the operating characteristics of FIG. 2).

In other words, when the magnetization is magnetized at the usual excitation current Become Because it becomes.

Accordingly, it is possible to suppress the sheath line circulating current below a certain voltage and to suppress abnormal voltage generation above a certain voltage.

As another example, if the siege line connection point of the underground distribution line is a multiple of 3, when each of the siege lines is completely connected and the line constant is the same, the theoretical siege potential becomes zero, so that a circulating current does not occur. Is the first section of each phase is , Second section , And third interval Since this is not induced, dislocation unbalance occurs. Accordingly, since the potential is not completely zero due to the minute voltage difference generated, it is to minimize the circulating current and to suppress the occurrence of an abnormal voltage even when a time-to-phase voltage occurs.

A method of installing the siege wire circulating current and abnormal voltage suppression device according to the present invention having the above configuration will be described with reference to the schematic diagram of the underground distribution line of FIGS. 3 to 4.

First, in the embodiment of FIG. 3, when the sheath line connection point of the underground distribution line is not a multiple of 3, when each of the shizu line phases cannot be extended, the midpoint of each phase of the sheath line connection point and the siege line circulating current and abnormality Connecting one end of the voltage suppressor; Grounding the other ends of the sheath line circulating current and abnormal voltage suppression device together with a ground; And adjusting the tab of the siege wire circulating current and abnormal voltage suppressor when the tab is installed.

FIG. 4 is a system diagram illustrating another embodiment of the method for installing the siege wire circulating current and abnormal voltage suppression apparatus of FIG. 3. As another embodiment according to the present invention, when the siege line connection point of the underground distribution line is a multiple of 3 that can be opened, the first connection point of the siege line A phase B, B phase C phase, C phase Are added to A phase, respectively, and the second connection point B phase is C phase, C phase A phase and A phase B phase, respectively, and the third connection point C phase is A phase, A phase B phase and B phase Adding each phase of the connecting portion of the sheath line while repeating the next three connection sections by the method of adding the phase to the C phase;

Connecting to an intermediate point of each phase connection point of the connected sheath line and one end of the circulating current and abnormal voltage suppression device; Grounding the other ends of the circulating current and the abnormal voltage suppression device connected to each phase of the sheath line with the ground; And adjusting the tap for each predetermined voltage to be maintained in the circulating current and abnormal voltage suppression device when the tap part is provided.

Accordingly, in a distribution line provided with a circulating current and abnormal voltage suppression apparatus according to the present invention, the sheath line induced voltage is due to the smoke value of the sheath line. , And The sum of the voltages induced in each phase becomes almost zero potential, but due to the difficulty in operating the distribution line completely, it is difficult to produce an organic voltage difference between the siege lines. By minimizing the circulating current by utilizing the function, when the ground current flows into the distribution line, the voltage by the current capacity to flow the ground current for a short time before the ground fault protection relay (OCGR) of the substation It is to suppress the rise.

As such, the drawings and specification are exemplary of the present invention, which is used for the purpose of describing the present invention, and is not used to limit the scope of the present invention as defined in the meaning or claims. Those skilled in the art should understand that various other embodiments are possible from this.

Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the claims.

According to the present invention as described above, since the circulating current and the abnormal voltage are suppressed by using the magnetization characteristics of the coil and the iron core, the measured value close to the actual load current can be derived when the load of the distribution line is measured. It is possible to accurately diagnose the presence or absence of risks and reduce power loss by more than 50%, as well as temporarily protect the power distribution equipment until the substation protection relay is activated in case of abnormal voltage such as ground fault. It can greatly contribute to stabilization of operation.

Claims (5)

Iron core part 10 in which coil can be wound in circulating current and abnormal voltage suppression device used for concentric neutral cable of multi-ground system Composed of a coil winding unit 20 wound the coil on a portion of the core core portion When the tab portion is provided in the circulating current and the abnormal voltage suppression device, a circulating current and abnormal voltage suppression device comprising a plurality of tabs (30) to draw the terminal every predetermined winding. The method of claim 1, When the tab portion is provided in the circulating current and the abnormal voltage suppression device, the tab portion 30 is composed of a plurality of first taps, second taps and third taps. The method of claim 2, The voltages of the plurality of first taps, the second taps, and the third taps set a predetermined voltage of the first to third taps at a voltage determined according to characteristics of a distribution line. A method for installing a circulating current and an abnormal voltage suppression device in order to suppress a circulating current and an abnormal voltage in a concentric neutral cable of a multi-grounding system, the method comprising: connecting one end of the abnormal voltage suppression device to each phase line at an end of a distribution line ; Collectively grounding each of the other ends of the circulating current and the abnormal voltage suppression device of each phase, and if the tab part is provided, adjusting the tap part for each predetermined voltage to be maintained. Inhibition method. In the method of installing the circulating current and the abnormal voltage suppression device to suppress the circulating current and the abnormal voltage in the concentric neutral cable of the multi-ground system, Conducting each phase of the Shizu line for each cable connection point of the distribution line; Connecting an intermediate portion of the connected connection portion to one end of the circulating current and abnormal voltage generation suppression device; Grounding the other ends of the circulating current and the abnormal voltage suppression device connected to the intermediate portion of the connection point on each phase of the sheath line with the ground; And adjusting a tap for each predetermined voltage to be maintained when a tap unit is provided in the circulating current and abnormal voltage suppression apparatus of each phase.