RU2752875C1 - Method for compensating touch voltage at maintenance site on overhead power line taken for repair - Google Patents

Abstract

FIELD: electrical engineering.SUBSTANCE: according to the method, when the overhead line (OHL) (1) is taken for repair, said line is grounded from all ends using grounding blades (4) from the side of the distribution apparatuses. The area of potential equalisation area during the repair works is determined, wherein the potential equalisation tools (7), e.g., metal grids, metal sheets, are located within said area, interconnected. The potential equalisation tools (7) are connected to the additional grounding (8). The main grounding (5) is installed on the OHL (1) taken for repair and is connected with the potential equalisation tools (7).EFFECT: provided is protection of repair personnel in the event of potential removal in case of short circuits (SCs) at the connections of the substation under a working voltage.1 cl, 1 dwg

Description

The invention relates to the electric power industry and can be used to ensure safety measures during the production of work on overhead power lines in a disconnected position, including under induced voltage.

It is known that on any overhead power transmission line (OHL) running in parallel with other OHLs, an external potential is continuously induced due to the electromagnetic fields of the influencing OHL. The magnitude of the potential depends on the operating voltage, load currents, the distance between the phase wires of the overhead line and the lengths of their parallel sections.

Rules for labor protection during the operation of electrical installations [Rules for labor protection during the operation of electrical installations. Registered with the Ministry of Justice of Russia on 12.12.2013, No. 30593 and published on 13.01.2014], safety measures have been determined during work on overhead lines, on which additional voltage is induced from neighboring operating overhead lines. Separately, safety measures are highlighted when working on such overhead lines, when their grounding, in accordance with the general requirements of the Rules, does not allow to reduce the level of potential induced on disconnected wires of overhead lines below 25 V.

Rules [p. 38.45] require the adoption of measures to reduce the touch voltage, incorrectly called in many, including regulatory documents, induced voltage, to a value of no more than 25 V. If it is impossible to ensure such a decrease, the Rules [cl. 38.45] oblige to use grounding only at the place of work on overhead lines, which is not always reliable. The desire to reduce the touch voltage at the place of work to a value of less than 25 V leads to a mortal danger for repair personnel in the event of a loss of connection between the overhead line wires and grounding. In this case, the magnitude of the transverse component of the touch voltage can reach up to several kilovolts.

A known method of compensation for induced voltage at the site of work on a disconnected overhead power line [RF Patent No. 2541508, IPC H02J 3/00, Publ. 02/20/2015, Bul. No. 5], in which the phase conductors of the disconnected line at the work site are connected with grounding wires to the ground loop of the line support at the work site. According to the method, the power of the induced voltage source is preliminarily determined, an autonomous power source is formed with the ability to adjust the magnitude and phase of the compensating voltage, the magnitude of the induced voltage is measured with a voltmeter at the work site, an adjustable power source is connected between the ground loop of the line support and the ground wires, on which the voltage equal in magnitude and in antiphase to the measured induced voltage, and the value of the residual induced voltage, not exceeding 25 V, is monitored according to the voltmeter readings.

The disadvantage of this method is the low protection of personnel, since when the overhead line is taken out for repair, a mode without grounding at the ends is used, which poses a serious danger, due to the lower reliability of portable grounding relative to stationary grounding knives at the ends of the overhead line.

The closest technical solution is a way to compensate for the touch voltage at the place of work on the overhead power transmission line brought out for repair [RF Patent No. 2586995 IPC H02H 5/10, 3/00, Publ. June 10, 2016, Bul. No. 16], in which the overhead line is grounded at the ends in open switchgears of substations, at the place of work, the phase wires of the overhead line taken out for repair are connected to the support grounding loop with the main grounding. According to the method, an additional ground is installed, spaced from the support ground loop at a distance of at least 15 m, a current transformer is included in the main grounding circuit, a current source controlled by a current from the secondary winding of the current transformer is connected between the main ground and the additional ground so that at each moment of time the instantaneous value of the current of the controlled source was equal to the instantaneous value of the current through the main grounding to the support circuit and opposite to it in direction.

The disadvantage of the prototype method is the impossibility of ensuring the protection of repair personnel in the event of hazardous voltage from additional sources on the overhead line being repaired, in particular, in the case of potential removal during a short circuit (SC) at the substation connections that are under operating voltage.

Additional sources of danger appear, for example, when work is carried out with grounding of overhead lines at the ends in switchgears (classic repair scheme), and the wires of overhead lines through the grounding knives of line disconnectors are connected to the grounding devices of switchgears. At the same time, the high potential arising at the time of the passage of the through currents of the short circuit through these grounding devices of the substations is carried through the grounded wires to the workplace on the overhead line.

As you know, the Rules for the Installation of Electrical Installations (PUE) allow the appearance of a high potential (up to 10 kV) on the grounding devices of power plants and substations when short-circuit currents flow through them. Moreover, the PUE provides for measures that exclude the removal of this potential outside the grounding device through outgoing cables and other utilities by strengthening their insulation, or galvanic isolation of these communications using special isolation transformers [Electrical Installation Rules, seventh edition (PUE-7). - M .: "Publishing house NTs ENAS", 2003. - 511 p.]. However, the PUE does not consider the problem of transferring this potential along the overhead lines to the workplace when they are disconnected and grounded using substation grounding devices.

If a short circuit occurs on one of the overhead line circuits at the moment when work is performed on the other circuit with the repair personnel touching the wire grounded to the metal structures of the support, then the likelihood of personnel being hit by the potential will be quite high. In this case, the probability of an accident will practically be equal to the probability of a short circuit on one circuit of the overhead line during the work of repair personnel on another circuit of the same overhead line. However, nothing is said about this danger in the current regulatory documents.

Despite the short duration of the existence of a short circuit (0.05 - 1.5 s), the value of the carried potential can be several kilovolts, which creates a touch voltage at the workplace on the overhead line that is many times higher than its maximum permissible value established by GOST [GOST 12.1.038-82 System of standards labor safety (SSBT). Electrical safety. Maximum permissible values of touch voltages and currents (with Amendment No. 1). Occupational safety standards system: Sat. GOSTs. - M .: IPK Publishing house of standards, 2001. - 9 p.].

In accordance with current regulations, all conductive parts of electrical installations that are not energized, in case of insulation failure, may be at a dangerous potential and must be grounded, that is, deliberately connected to the grounding device of electrical installations. The earthing device must have a normalized resistance and ensure normal spreading of the short-circuit current into the ground in the event of an insulation failure. It should not allow exceeding the maximum permissible touch voltage and current in accessible places of electrical installations. By equalizing and equalizing the potentials of different parts and points of electrical installations, grounding devices must completely protect personnel when performing any work at the workplace with touching conductive parts. Since, when working on overhead lines, repair personnel can touch, by analogy with an electrical installation, not only to grounded elements (supports, foundations), but also to grounded live parts (wires) and the traction and lifting mechanisms attached to them, as well as other mounting devices and rigging means, then the touch voltage should be expected at any place where work is carried out on the overhead line.

In the conditions of the organization of work on overhead lines, allowed in [Rules for labor protection during the operation of electrical installations. Series 17. Issue 53. - Moscow: Closed Joint Stock Company Scientific and Technical Center for Research on Industrial Safety Problems, 2013. - 192 p; Interindustry rules on labor protection (Safety rules) during the operation of electrical installations, POT RM –016-2001, RD 153-34.0-03.150-00. - M .: "Publishing house NTs ENAS", 2003. - 98 p.], The repair personnel work outside the zone of equalization of the potential of the grounding device on the overhead line, and is not protected from the danger of the potential, thus it is exposed to the danger of unacceptable touch voltage. If there is an equipotential connection of the workplace on the overhead line with remote voltage sources, the work of repair personnel touching the wires in the spans, when installing grounding on adjacent supports, as well as with a distance of up to two kilometers from the place of installation of grounding on the overhead line is unacceptable. The workplace on the overhead line should be determined within the potential equalization zone of the grounding device. If the workplace is outside the potential equalization zone, then it is necessary to expand the area to the required size of the workplace using potential equalization methods (metal mesh, tin sheets, etc.).

Consequently, the effective protection zone for all types of grounding devices on the overhead lines being repaired is the potential equalization zone, and any work on the overhead line with touching live (wires) or conductive parts (lightning protection cable, metal elements of supports), without the use of special protective equipment, should be performed in within this zone.

The objective of the invention is to ensure the protection of repair personnel in the event of not only induced voltage on the overhead line being repaired, but also additional sources of danger, in particular, in the case of potential removal during a short circuit at the substation connections that are under operating voltage.

The task is achieved by the method of compensation of the touch voltage at the place of work on the overhead power transmission line taken out for repair, in which the overhead power transmission line is grounded at the ends in the substation switchgear, at the work site, the phase wires of the overhead power transmission line taken out for repair are connected to the support ground loop with the main grounding , install additional grounding, spaced from the support ground loop. According to the proposal, a potential equalization zone is determined during the production of repair work, covering all prospective workplaces, as well as places of concentration of equipment, within the potential equalization zone, they ensure the safe production of repair work on an overhead power transmission line by equalizing the potential of the equalization zone to the potential of additional grounding and the ground loop of the support, for this, metal grids, sheets, and other means of potential equalization are used, as well as they are connected to each other and connected to an additional grounding and the grounding circuit of the support.

FIG. 1 shows a single-phase scheme of a double-circuit overhead line with grounding of wires of three phases of the disconnected circuit of the overhead line at the ends with stationary grounding knives in the switchgear of substations and at the work site with portable grounding, as well as an overhead line connected to the bus of one of the substations where the short circuit occurred.

FIG. 1. the following designations have been introduced: 1 - double-circuit overhead line circuit, taken out for repair; 2 - a double-circuit overhead line circuit in operation and affecting circuit 1 of a double-circuit overhead line; 3 - overhead line connected to the bus of one of the substations, on which a short circuit occurred; 4 - stationary grounding knives; 5 - grounding at the work site, which, together with the grounding circuit of the support, is the main grounding; 6 - potential equalization zone, in which the safe production of work is ensured; 7 - interconnected metal grids, sheets, other means of potential equalization; 8 - additional grounding.

The method is implemented as follows.

Preliminarily, before the production of work on the overhead lines, the situational arrangement of workplaces, places of concentration of equipment, auxiliary equipment, tools and mechanisms is determined. Based on the situational location of these places, a potential equalization zone 6 is determined, within which the safe production of work is ensured.

When the overhead line (overhead line - 1 circuits) is taken out for repair, it is grounded at all ends with the help of grounding knives 4 from the side of the substation switchgears.

Before the output of the overhead line (or overhead line circuit, for example, 1) for repair, they enclose the potential equalization zone 6 with signal tapes, and also ensure the equipotentiality of the surface of the potential equalization zone 6, placing metal grids, metal (tin) sheets and others within the zone. potential equalization means 7. Connect to additional ground 8 means 7 potential equalization. The main grounding 5 is installed on the overhead line (overhead line-1 circuit) brought out for repair and connected to the potential equalization means 7.

Thus, within the fenced-off zone 6 of potential equalization, the safety of personnel in the production of work and equipment is ensured not only from the effect of induced voltage (for example, as a result of the influence of the adjacent circuit of the overhead line 1, which is energized), but also from the effect of high-voltage external potential during short-circuit on Power transmission line 3, connected to the bus of one of the substations.

It should be noted that in the prototype method, the current source designed to compensate for the effect of the induced voltage cannot compensate for the removal of the high-voltage potential as a result of a short circuit on the overhead line, to the bus of one of the substations. Thus, the proposed technical solution has the property of versatility and allows you to achieve the goal of the invention.

Claims (1)

A method of compensating for the touch voltage at the place of work on an overhead power transmission line brought out for repair, in which the overhead power line is grounded at the ends in the switchgear of substations, at the work site, the phase wires of the overhead power transmission line taken out for repair are connected to the support ground loop with the main grounding, an additional grounding, spaced apart from the support ground loop, characterized in that they determine the potential equalization zone during repair work, covering workplaces where it is necessary to ensure the protection of repair personnel, as well as places where equipment is concentrated, within the potential equalization zone ensure safe repair work on overhead power transmission line by equalizing the potential of the equalization zone to the potential of the additional grounding and the ground loop of the support, potential equalization means are used for this, for example, metal with nets or sheets, connect the potential equalization means to each other and connect to the additional grounding and the grounding circuit of the support.

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