SU690587A1 - Method of operating in incomplete phase mode of power transmission line with shunting reactors - Google Patents

Claims (2)

(54) METHOD OF TRANSFERING TO FULL-PHASE MODE OF ELECTRICAL TRANSMISSION LINE WITH MOBILE TUNING REACTORS of meio end 4 and with terminal 5 through line switches 6. The method of transferring the line to incomplete phase mode is carried out as follows. If a phase is damaged, for example, A, it is disconnected on both sides of line 3. Then: from phase A and C from the transmitting horse, and from the receiving horse from phases A and B, single-phase reactors 1 are disconnected using switches 2. Consider the effect of the above unsymmetrical disconnection of reactors at the ends of a non-phase line operating with one disconnected phase at an increase in line capacity under the following assumptions: the line is connected to tires of infinite power, i.e. reverse voltage and zero-sequence voltage. When Tview also shows the current in two phases of the line and the angle between them is 12 O. The angle between the phase currents and voltages from the transmitting system is denoted by H, from the receiving system (18 O + H}, When the assumptions are made, the reverse sequence currents reactors disconnected according to the scheme (Fig. iy from the side of the transmitting and receiving systems are respectively: e-Kl 2i zp b the voltage on the buses of infinite power;) b is the conductivity of the reactors. Maximum balancing occurs if the reverse sequence current flowing at when the reactors are disconnected according to the scheme (Fig. 1), for the transmitting system; the topic is maximum balancing on 309, i.e., if the coefficient is blunt, is capacitive and the power factor is T 3/2, and from the receiving system side, maximum symmetry is obtained if H, i.e., with an inductive power factor of V 3/2, the asymmetrical disconnection of reactors only from the transmitting system leads to a decrease in the reverse sequence currents from the side of their disconnection, and to an increase in the negative sequence current on the opposite side. The additional current of the reverse sequence on the opposite side cannot be roughly determined by the formula: I 2 VJ L. O Con. 12 COS L, where 1, the negative sequence current generated by reactants at the substation in question; 1 - phase coefficient; L is the length of the line; that is, the value of the negative sequence current on the opposite side is less than the negative sequence current generated by the reactors at the substation in question. In addition, the additional negative sequence current at the opposite substation has a direction that does not coincide with the direction of the negative sequence current at this substation, caused by a non-phase line operation. Therefore, asymmetrical disconnection of reactors at the same time on both sides of the line leads to a simultaneous decrease in negative sequence currents at both substations and, consequently, to an increase in the capacity of the line in an incomplete phase mode. Using the method of transferring the line to the incomplete phase mode provides reduction of damage from undershoot in case of emergency. Claims The method of transferring an incomplete-phase transmission line with shunt reactors, during which the damaged phase is disconnected, and the shunt reactors disconnected from the damaged and lagging phases of the line at the receiving end, in order to increase efficiency in the presence of shunt-quenching reactors the ends of the line additionally disconnect the shunt reactors from the damaged and ahead of its phase line at the transmitting end. Sources of information taken into account in the examination 1. Remote power transmission Volzhsk HPP named after I. Lenin, M., Sat. articles, SEI, 1958, p. 138 .. 2. Forward number 2421276 / 24-7,13.11.76, according to which a positive decision was received to issue an author's certificate. . i / 2