RU2521970C1 - Method for automatic reclosure of overhead transmission line at glaze ice melting - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: short-circuited section of an overhead transmission line is defined, the total load and time period since the melt starting up to the fault interception is measured for the wire at this section and automatic reclosure for the line is permitted when certain conditions are met.

EFFECT: reduction of the line damage probability when using quick-acting automatic reclosure in the mode of glaze ice melting.

Description

Technical field

The proposal relates to the field of electric power and may find application in the operation of overhead lines (VL) in the conditions of icing.

State of the art

To combat ice on overhead power transmission lines, ice melting (UPG) installations are used, which are connected to the line through switches controlled by means of relay protection and automation, providing fast automatic line restart (AR) of the line. Unsuccessful ARs for stable short circuits (KZ) are fraught with damage to wires and other linear equipment, and successful ARs with self-liquidating short circuits allow you to continue melting ice after a short shutdown.

There is a method of adaptive switching on (including with automatic reclosure) of a three-phase power line, which consists in alternating switching on the phases, measuring the voltages on the unconnected phases of the line and then turning on or refusing the reclosure, depending on the results of the analysis of the measured voltages [patent RU 2358368]. This method is adopted as a prototype.

The disadvantage of the prototype is the need to alternately turn on the phases of the line to determine subsequent AR actions. This does not allow to exclude damage to the wires and linear fittings during repeated switching on short circuit, which are not self-liquidating.

SUMMARY OF THE INVENTION

The technical result of the invention is to reduce the likelihood of damage to the line when using high-speed reclosure in the mode of melting ice.

The proposed method is based on the results of studies that showed that in the regime of ice melting, the cause of self-liquidating short circuit, in which it is advisable to perform high-speed reclosure, with a high probability are the lashing of the wires as a result of jumps when dumping ice.

The invention is a method for automatically reclosing the overhead power lines after a fault in melting ice, comprising the steps of determining a portion of the air line, which occurred fault is measured total load P in this area is carried out, and T _kOe time interval from the beginning of melting to the occurrence of RS and allow automatic re-activation of the line when the following conditions are met:

P> P _cr

T _min <T _KZ <T _max ,

where R _cr is the critical value of the total load from the dead weight of the wire and the weight of ice, beyond which it is possible to overlap the wires when the ice is dumped, and T _min and T _max are the minimum and maximum values of the ice melting time calculated for the climatic conditions of this section of overhead lines.

The implementation of the invention

On the route of the overhead line, equipped with a high-speed remote device for determining the location of damage (WMD), areas with different climatic conditions for icing are identified. At each site they control (for example, using the information system for icing control described in the article Levchenko II, Zasypkin AS, Satsuk EI Information support for the prevention of ice accidents in electric networks of power systems // Izv. Electromechanics. 2007. No. 4. p.72 - 79) the total load P from the dead weight of the wire and the weight of ice.

A timer is connected to the line switch connecting the UPG to the line, counting the time T from the start of ice melting.

Using the device WMD determine the section of the overhead line on which a short circuit has occurred.

The load P, measured in this area, is compared with the previously calculated value of R _cr . At the time of short circuit, the readings of the T timer are compared with T _min and T _max previously calculated for this site based on its climatic characteristics. If the value of P exceeds P _cr and T _KZ does not go beyond T _min and T _max , then the short-circuit is most likely the result of a jump in the wire due to ice formation as a result of melting and the start of automatic reclosure is allowed, otherwise the reclosure is blocked.

Claims (1)

The method of automatically reconnecting the overhead power line after a short circuit during ice melting, which consists in determining the section of the overhead line on which the short circuit occurred, measure the total load P on the wire of this section and the time interval T _KZ from the start of melting to the occurrence of a short circuit and allow automatic re-activation of the line when conditions are met
P> P _cr
T _min <T _KZ <T _max ,
where R _kr is the critical value of the total load from the dead weight of the wire and the weight of ice, beyond which it is possible to overlap the wires when the ice is dumped, and T _min and T _max are the minimum and maximum values of the ice melting time calculated for the climatic conditions of this section of the overhead transmission line .