RU2096795C1 - Device for detection of distance to single-phase short-circuit to ground in electric power transmission lines for 6-35 kv with insulated or compensated neutral wire - Google Patents

Abstract

FIELD: relay protection equipment. SUBSTANCE: device has serial circuit of standard unit for 6-35 kV, which has automatic breaking unit (after it is switched on) and special measuring unit which has mobile cable and clamps at output. Measuring unit provides possibility to design circuit in which single-phase short-circuit current which is clipped by resistor is passed through two phase lines one of which is short-circuited to ground. Current for each phase is registered in order to calculate distance to short-circuit point. Cable with clamps can be used for connection to arbitrary power supply tap. Other claims of invention describe device design which has by-pass current conductors and by- pass switches. EFFECT: increased functional capabilities. 3 cl, 3 dwg

Description

 The invention relates to electrical engineering, namely to the relay protection technique? and can be used in networks of 6 35 kV with isolated or compensated neutral of all departments.

 It is known that the distance to the place of a short circuit during three-phase and two-phase short circuits in such networks is easily determined by the parameters of the emergency short circuit mode, for which use devices consisting of standard 6 35 kV cells equipped with equipment for recording short circuit currents and mains voltage [1, 2] Since the magnitude of the short circuit current for these types of short circuit determined by the distance to the place of short-circuit and the voltage in the network, the processing of current and voltage records, it is possible to determine the distance to the place of a short circuit.

However, it is impossible to determine the distance to the place of a single-phase earth fault in 6 35 kV networks from current and voltage records of the emergency mode, since the magnitude of the earth fault current of any of the phases on any of the network lines extending from the power source is completely independent of the location shorting along the line length and is determined by the total length of all included network lines [2]
There are also known devices for determining the location of a single-phase earth fault in electric networks operating with isolated or compensated neutral, based on the use of portable search devices such as "Search", "Wave", "Wave-M" or "Probe", with which the operational team moves along the line and which fix the magnitude and direction of the zero sequence capacitive current (or its harmonics) or the zero sequence voltage [2] If the earth fault current is unacceptably large even after an earth fault The line should be turned off, the circuit for finding the place on the disabled link in addition to said electromagnetic instruments using a special generator (e.g., type "ECHG") operating at a frequency of 250 Hz. This generator is connected between the ground and the phase of the damaged disconnected line and the current generated by the above-mentioned devices determines the place of ground fault, moving along the track.

 A disadvantage of the known devices is that their use is time-consuming. According to the EMP [3], the location of the earth fault should be detected within two hours. However, almost even with a good organization and accessibility of the route, it is possible to detect a place of earth fault in a line with a length of 10 20 km for 2 10 hours. Particular difficulties in finding a place of earth fault are manifested on long lines (50 70 km) belonging to a 10 kV power grid with isolated neutral powered by powerful transformer substations (40 80 mVA). Such lines include, for example, lines supplying cathode stations of trunk pipelines. Access to them is difficult and the determination of the place of damage sometimes takes several days, and, due to the significant values of the earth fault currents and the neutral displacements caused by the fault, such lines should be disconnected after the earth fault and remain in the disconnected position until they are detected and eliminated earth fault locations. In a relatively short time (8 10 h), if there is a sufficient amount of portable equipment, the earth fault location can be determined only with the simultaneous operation of several teams that go around the entire line at once.

 The time to find the place of damage and the number of crews participating in the search could be significantly reduced if, in some way, with sufficient accuracy, it would have been possible previously, before the team left the line, to establish an approximate zone where the place of ground fault is located. In this case, the team would go to the line in the specified area and establish the exact location of the damage using known devices in much less time. This is the technical result achieved by the application of the invention.

 A device for determining the distance to the place of a three-phase and two-phase short circuit [1, 2] as mentioned above is taken as a prototype of the invention.

 The essence of the invention lies in the fact that a device is proposed for determining the distance to the place of a single-phase earth fault in networks of 6 35 kV electrical systems with isolated or compensated neutral, consisting of a standard switchgear unit 6 35 kV, equipped with an automatic circuit breaker circuit breaker after it is turned on, forming the switching cell of the device, which is additionally equipped with a measuring cell, a portable cable with clamps at the output (or air or cable bypass system), therefore connected to a standard cell, and the measuring cell of the device contains a betel or metal current-limiting resistor and two three-phase disconnectors with two normally open and one normally closed knife each, connected as follows: normally closed knives of the first and second disconnectors are connected in series to the phase circuit C, the first normally open knives of the first disconnector and the second disconnector are connected between phase C and one pole of the current limiting resistor, whose pole is connected to the ground circuit of the substation, the second normally open knife of the first disconnector is connected between phase A and phase C behind the normally closed knife of the first disconnector, and the second normally open knife of the second disconnector is connected between phase B and phase C behind the normally closed the knife of the second disconnector, behind the disconnectors in the phase circuit of the measuring cell includes current transformers, the secondary windings of which are connected to a microprocessor system for recording or recording and processing data.

The proposed device is illustrated, respectively, figure 1, figure 2 and figure 3, which shows:
In FIG. 1 variant of the proposed device with a portable cable and clamps for connecting to the phases of the outgoing supply lines of the substation with a single sectionalized busbar switch system.

 In Fig.2 a variant of the proposed device with a cable bypass system of conductors and bypass disconnectors on each supply line.

 In FIG. 3 is a variant of the measuring cell diagram used in the device of FIG. 1 and FIG. 2.

In figure 1, figure 2 and figure 3 is indicated:
1 the proposed device with a portable cable and clamps for connection to the phases of the outgoing supply lines of substations;
2 standard switchgear unit 6 35 kV switching device unit;
3 block automatic shutdown of the switch of the switching cell of the device after it is turned on;
4 connecting cable;
5 measuring cell;
6 portable cable;
7 clamps;
8 places for connecting the clamps of the device;
9, the proposed device with a cable bypass system of conductors and bypass disconnectors on each supply line;
10, 11 pieces of cables;
12 bypass three-phase disconnectors;
13, 14 three-phase disconnectors;
15, 16, 18, 19 normally open disconnector knives;
17, 20 normally closed disconnector knives;
21, 22, 23 current transformers of the measuring cell;
24 microprocessor recording system or recording and data processing;
25 current limiting resistor.

 To determine the distance to the place of damage on any of the outgoing supply lines, the device of FIG. 1 is used as follows.

 In the normal position, the switch of the switching cell 2 is disconnected, however, its circuit is assembled.

After the appropriate protection equipment has identified a specific outgoing supply line, on which there was a phase short to ground, and this phase itself:
by agreement with the dispatcher, the circuit breaker of this line is turned off, the portable cable 6 is unwound and, observing safety rules, the clamps 7 are connected to the phases of the outgoing line at points 8 (shown on one of the outgoing lines);
one of the two disconnectors of the measuring cell 5 is switched (see FIG. 3), namely, that which is necessary for making measurements on the grounded phase. So when phase A is shorted to ground, disconnector 11, phases B 12, phases C 11 or 12 are switched. As a result, a circuit is prepared for a limited short-circuit current to flow through the ground, a betel resistor, and two phases of the supply line connected in parallel, one of which which is fixed to the earth, and the other one of the other two phases;
at the consumer include one of two specially mounted disconnectors between phases A and C (when switching disconnector 11 at the power substation) or BC (when switching disconnector 12);
turn on the switch of the switching cell of the device.

 As a result of everything that has been accomplished through a place of an earth fault, two-phase short-circuit currents that will be fixed by a microprocessor system for recording or recording and processing information will flow through two phases of the line. After a time delay of 0.2 0.5 s, set by the automatic shutdown unit of switch 3, the switch of the switching cell of the device will be turned off.

,
где L вся длина линии;
I₁, I₂ токи короткого замыкания соответственно неповрежденной и поврежденной фаз линии (мгновенное, среднее или эффективное значения).The distance to the earth fault location is determined by processing information about the magnitude of the currents flowing along the phases of the line recorded in the microprocessor system, or it is automatically processed in this system itself and is displayed as the calculated distance on the system indicator. The distance L ₁ to the point of phase closure of the line to earth is determined by the formula:

,
where L is the entire length of the line;
I ₁ , I ₂ short-circuit currents of respectively intact and damaged phases of the line (instantaneous, average or effective value).

 The advantages of the circuitry of FIG. 1 it should be attributed its simplicity and cheapness, disadvantages are the inconvenience of using a portable cable with clamps, which does not allow automating the process of finding a short circuit on any of the outgoing lines. The disadvantage is eliminated by using a variant of the device diagram of FIG. 2, in which instead of a portable cable with clamps there is a cable (or overhead) bypass system of conductors with bypass disconnectors, with which the device can be connected to any supply line. Due to the short-circuit current that is limited in magnitude and duration through the ground (≅ 100 A, 0.2 0.5 s), the bypass cable line is relatively simple and cheap, since it can be made with pieces of cable with a cross section of 10 25 sq. Mm, and As disconnectors, disconnectors for the minimum current (100 200 A) can be used.

 Compared to the circuit of FIG. 1 diagram of figure 2, even when used with manual actuators disconnectors, wins in the preparation time of the operation for organizing measurements. With motor or linear actuators of the disconnectors, all measurement processes in the circuit of figure 2 can be automated, which will reduce the time to determine the distance to the ground fault by an order of magnitude. 2 The measuring cell (see Fig. 3) of the device operates as follows.

 After determining the phase at which the earth fault is fixed, in preparation for the measurements, one of the two cell disconnectors is switched.

 When the phase A is shorted to ground, disconnector 13 is switched on. As a result, a resistor 25 is connected, connected to the ground on the one hand, and, on the other hand, to phase C using a disconnector knife 15. At the same time, using a disconnector knife 16 through a normally closed knife 20 disconnector 14, the phases of the outgoing line A and C are connected to each other and apply phase A voltage to them.

 When the B phase is shorted to ground, the disconnector 14 is switched on. As a result, the resistor 25 is connected, connected to the ground on the one hand, and on the other hand to the phase C using the disconnector knife 18. At the same time, using the disconnector knife 19 through a normally closed knife 17 disconnector 13 connect the phases of the outgoing line B and C to each other and apply phase B voltage to them.

 When phase C is shorted to ground, it is obvious that disconnector 13 or 14 can be used.

 The magnitude of the currents along the phases of the outgoing line is transformed by current transformers 21, 22, 23 and recorded by a microprocessor-based recording system or recording and data processing 24.

 The technical effect is achieved by reducing the time to determine the location of damage to a single-phase earth fault and eliminating, due to this, possible short circuits through the earth.

Claims (3)

 1. A device for determining the distance to the place of a single-phase earth fault in networks of 6 35 kV electrical systems with isolated or compensated neutral, consisting of series-connected standard switchgear 6 35 kV, equipped with a unit for automatically opening the circuit breaker after it is turned on, forming a switching cell of the device, characterized in that a measuring cell, a portable cable with output clamps, which are connected in series with a standard cell, are additionally introduced into it, with than the measuring cell of the device contains a betel or metal current-limiting resistor and two three-phase disconnectors with two normally open and one normally closed knife each, connected as follows: normally closed knives of the first and second disconnectors are connected in series to the phase C circuit, the first normally open knives of the first disconnector and the second disconnector is connected between phase C and one pole of the current-limiting resistor, the other pole of which is connected to the ground loop of the station, the second normally open knife of the first disconnector is connected between phase A and phase C behind the normally closed knife of the first disconnector, and the second normally open knife of the second disconnector is connected between phase B and phase C behind the normally closed knife of the second disconnector, behind the disconnectors in the phase circuit of the measuring cell included current transformers, the secondary windings of which are connected to a microprocessor-based recording system or recording and data processing.  2. Device for determining the distance to the place of a single-phase earth fault in networks of 6 35 kV electrical systems with isolated or compensated neutral, consisting of series-connected standard cell RU 6 35 kV and equipped with a unit for automatically opening the circuit breaker after it is turned on, forming a switching cell of the device, characterized in that a measuring cell is additionally introduced into it, a cable bypass system of current conductors with bypass disconnectors that are connected They are connected to a standard cell, and the measuring cell of the device contains a betel or metal current-limiting resistor and two three-phase disconnectors with two normally open and one normally closed knife each, connected as follows: normally closed knives of the first and second disconnectors are connected in series to the phase C circuit, the first normally open knives of the first disconnector and the second disconnector are connected between phase C and one pole of the current-limiting resistor, the other pole is a cat connected to the ground circuit of the substation, the second normally open knife of the first disconnector is connected between phase A and phase C behind the normally closed knife of the first disconnector, and the second normally open knife of the second disconnector is connected between phase B and phase C behind the normally closed knife of the second disconnector, behind the disconnectors current transformers are included in the phase chain of the measuring cell, the secondary windings of which are connected to a microprocessor-based recording or data recording and processing system.  3. A device for determining the distance to the place of a single-phase earth fault in networks of 6 35 kV electrical systems with isolated or compensated neutral, consisting of series-connected standard cell RU 6 35 kV and equipped with a unit for automatically opening the circuit breaker after it is turned on, forming a switching cell of the device, characterized in that a measuring cell is additionally introduced into it, an air bypass system of current conductors with bypass disconnectors that are connected They are connected to a standard cell, and the measuring cell of the device contains a betel or metal current-limiting resistor and two three-phase disconnectors with two normally open and one normally closed knife each, connected as follows: normally closed knives of the first and second disconnectors are connected in series to the phase C circuit, the first normally open knives of the first disconnector and the second disconnector are connected between phase C and one pole of the current-limiting resistor, the other pole is a cat connected to the ground circuit of the substation, the second normally open knife of the first disconnector is connected between phase A and phase C behind the normally closed knife of the first disconnector, and the second normally open knife of the second disconnector is connected between phase B and phase C behind the normally closed knife of the second disconnector, behind the disconnectors current transformers are included in the phase chain of the measuring cell, the secondary windings of which are connected to a microprocessor-based recording or data recording and processing system.

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