SU1069052A1 - Method of single-phase automatic reclosing of electric power line with shunt reactors - Google Patents

Abstract

1. SINGLE-PHASE PROCESS Autoreclosing TRANSMISSION LINE WITH shunt reactors, wherein when a single-phase circuit disconnect the faulty phase lines on both sides, I .e control state arc feeding and when a signal of the arc extinction is performed off phase reclosing both sides , characterized in that, in order to reduce switching overvoltages when the disconnected line phase is switched on again and to limit the voltage at the open end after the input The arc extinction signal increases the number of shunt reactors connected to the disconnected line phase at the expense of intact phase reactors, and after the end of the transient process, the disconnected phase is restarted from the side opposite to the place where the number of reactors on the line changes. 2. A method according to claim 1, characterized in that, in the presence of compensating reactors included in the shunt neutral (Lush reactors, before the number of shunt reactors on the disconnected phase is changed, bypass the compensating reactors in shunt neutrals.

Description

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The invention relates to electrical engineering and can be used in the development of automation equipment in AC power transmissions with shunt reactors. The known method of single-phase automatic reclosing (OAPV), according to which the emergency phase is re-enabled after a fixed time delay determined by the conditions of arc charging of feed 1. The closest technical solution to the invention is an OAPV method of a transmission line with shunt reactors, According to which, in the event of a single-phase closure, the damaged phase of the line is disconnected from two sides, the condition of the recharge arc is monitored and upon receipt of the extinction signal Ugi performed reclosing off phase on both sides 2. The disadvantage of this method are significant overvoltage accompanying reclosure possibility and prolonged existence of increased voltage to the emergency phase unilaterally included in the time interval until normal power circuits. The latter circumstance aggravates the conditions of arresters or non-linear surge arresters installed at the open end of the emergency phase, and is an obstacle to a deep limitation of overvoltages. The aim of the invention is to reduce switching overvoltages when the disconnected line phase is switched on again and the voltage is limited at its open end. The goal is achieved in accordance with the method of single-phase automatic reclosing of the transmission line with shunt reactors, in which, when a single-phase closure occurs, the damaged phase of the line is disconnected from two sides, the condition of the charging arc is checked and the disconnected phase is reclosed when a signal goes out. on both sides, increase the number of shunt reactors connected to the disconnected line phase at the expense of reactors of intact phases, and after the termination of rehodnogo process performed reclosing disconnected from the phase opposite to the varying the number of reactors in the line. In addition, if there are compensating reactors included in the shunt reactors neutral before changing the number of shunt reactors in the disconnected phase, bypass compensating reactors in shunt neutrals. The effect of the method is determined by substantial overcompensation of the phase capacitance of the emergency phase with increasing power of the reactors connected to it. The latter circumstance leads to a decrease in the forced (steady-state) component of the overvoltages, and, consequently, to a decrease in the maximum overvoltages that occur upon re-activation. FIG. 1-4 are diagrams for implementing the method. Switches 1-3 are designed to connect the phases of reactors 4-6 to the line. Switches 7-9 connect the reactors from one phase to another and are designed for phase voltages, and switches 10 and 11, having the same purpose, are designed for linear voltages. The compensation reactor 12 is connected to the combined neutrals of the phases of the shunt reactors 4-6 and shunt1 by a switch 13. The method is implemented as follows. After the emergency phase is disconnected from two sides, the transmission lines with shunt reactors monitor the extinction of the recharge arc by any known method, for example, in which the recharge signal of the recharge arc is generated when the voltage of the emergency phase of the setpoint voltage is exceeded. After generating a signal on the extinction of the charging arc, the reactance, shunting the emergency phase, is changed by connecting the reactors of the intact phases parallel to the emergency phase reactor. The connection of reactors of the intact phases, for example, to the emergency phase a of the line, is carried out by turning off the switches 2 and 3 and then turning on the switches 7-9 (Fig. 1) or 10 and 11 (Fig. 2). If necessary, the circuits (Figs. 1-4) allow an incomplete number of phases of the reactors to be included in the emergency phase. After connecting the reactors to the emergency phase, after 0.05-0.1 s, the emergency phase is switched on from the end of the line opposite to the point where the phases of the reactor are switched. Time 0.05-0.1 s - the end time of the transition process. The activation of the emergency phase from the second end takes place at the moment when the angle of power reaches the minimum value in the swing cycle. In the case of the use of four radial reactors in a line, the method is carried out in the following sequence. After the emergency phase is disconnected from both sides, the recharge arc is monitored, and in case of arc extinction, a signal is generated to extinguish it, then bypass reactors in neutrons 12 (Fig. 3, 4; by turning on the switch 13 and through 0, 05-0.1 s switch the reactors of the intact phases 5, 6 parallel to the reactor 4 of the emergency phase a, by turning off the switches 2, 3 and turning on the switches 7-9 or 10 and 11. After 0.05-0.1 s after switching reactors include an emergency phase from the opposite phase of the reactor the end of the line. The inclusion of the emergency phase from the second end is carried out as in the case of the absence of compensating reactors. When performing an OAPV line with a length of 500 km, whose working capacity in the normal mode is 100% compensated, switching reactors of the intact phases to the emergency phase leads to a decrease in forced component of overvoltages up to 25%, and maximum overvoltages up to 35%.

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Claims (2)

1. METHOD OF SINGLE-PHASE AUTOMATIC REPEATING OF THE ELECTRIC TRANSMISSION LINES WITH BYPASS REACTORS, in which, when a single-phase fault occurs, the damaged phase of the line is disconnected from two sides, the condition is monitored I. e feeding arcs and upon receipt of an arc extinction signal, the disconnected phase is switched on again on both sides, characterized in that, in order to reduce switching overvoltages when switching on the disconnected phase of the line again and to limit the voltage at the open end after the arc extinction signal is received, increase the number of shunt reactors connected to the disconnected phase of the line due to the reactors of intact phases, and after the end of the transition process, the disconnected phase is switched on again with torons, opposite the place of change in the number of reactors on the line. 2. The method according to p. that in the presence of tori, including reactors, compensating neutrals of shunts are shunted to v reactors. . 1, characterized in that the compensation reactive neutral bypass changes in the number of shunting off phase, the reactors in