SU651440A1 - Method and apparatus for discriminating network zero sequence - Google Patents

Description

To the disadvantages of such a method, it only allows to obtain a current of zero voltage, flowing through the place of installation of the filter, and does not allow to obtain a total current of zero sequence of the network. The aim of the invention is to obtain a zero-sequence current proportional to the total zero-sequence current of a network of single-phase ground connections, which leads to an increase in the accuracy of control of the values of the total capacitive currents of the network. The resulting total zero-sequence current can be calculated in uncompensated networks for its evaluation, and in compensated for performing an estimate of the degree of compensation. - -. . The goal is achieved by installing a zero-sequence current filter on the 1-center supply busbars, determining the suv capacity of the network parts relative to the position of the zero-sequence current filter on both sides. where Cguj is the total capacity of the parts: the network relative to the place of installation of the filter; Ci, Cj - specific capacities of connections of network parts; , 2,3 ... n; , 2,3 ... m --- Find the difference between the capacities of the parts of the networks relative to the installation location of the filter C, tp DS 1 Ci-L Ci i and to the part of the network with a smaller total. the capacitance connects the capacitance with a value equal to the difference of the DS. With the help of the filter Current Sequence, established at the selected point on the tires / geometry of the wheel, a zero-sequence current is proportional to the total network capacitive current. It is difficult to show. If the sum of the zero-sequence current of the network parts with respect to the filter installation location is equal to the corresponding, but, Bij-t-ij i-z i li cn2l 2l22 22 2j 2j where Qc, 324 is the specific capacitive currents of connections of parts of the network; li 21 is the length of the lines, then the total current of the zero sequence of the network is 823.3.7 where DZS is the capacitive current obtained by adding to the part of the network with a smaller total capacity.

Claims (2)

651440 A device that implements the proposed method of isolating the total currents of the zero-sequence network is shown in the drawing. The device contains capacitances 1 of consumer connections fed from a power center, a power transformer 2, and secondary windings 3 of the transfbE matord: inlet. filter start and end of the primary winding 4 of the filter current transformer, additional capacity 5 and ammeter b, number 7 denotes the average currents of the primary point of the windings of the filter current transformer, number 8 - Single-phase ground circuit and number 9 - zero sequence currents. The device works as follows. In the case of a single-phase circuit at point 8, the total zero-sequence network current flows to the fault site. At the same time, the zero-sequence currents of the 9 arms of the network necessarily flow around the source 2 (power transformer). The total zero-sequence current of the left part of the network flowing through the beginning of the winding 4 and the midpoints 7 of the filter current transformers will be highlighted at the filter terminals, and ammeter 6 will show their value, and the total currents of the zero-sequence part, the network with a circuit with a point e, flowing through the primary circuits of current transformers (points 4), and the middle link 7 to the source give a sum equal to zero. A similar picture will be when closing the left side of the network. Thus, the proposed device makes it possible to isolate the net current zero-sequence network (TYPE). . The technical and economic efficiency of the proposed method for isolating the total, TYPE network is that its implementation improves the accuracy of measurements when compensating for capacitive currents, thereby preventing a significant number of possible damages in the compensated networks. As is known, the number of damages due to inaccuracy of compensation amounts to 40% of the total number of single-phase damages and, in general, to increase the reliability of the Networks operation, and also to reduce the number of zero sequence filters to one. Claim 1. A method for isolating a network zero-sequence current / based on geometrically summing up the network phase currents in a single-phase short circuit to ground during a current filter, a zero-amplified jack characterized in that, in order to determine the total zero-sequence current of the network, a zero-sequence current filter is installed on the buses supply center, determine the total capacitance of the network network voltage relative to the point of installation of the filter of zero-sequence currents on both sides, to a part of the network with a smaller total capacity, a capacity equal to the difference of the total capacities of the network parts, 2. An apparatus for carrying out the method of Claim 1, comprising a zero-sequence current filter included in a network, characterized in that star-connected filters are additionally introduced into it The gsenenbathbers, connected between the phases and the ground to the part of the network with a smaller super-capacitance, and the zero-sequence current filter are connected to the power supply buses, with the primary windings of the current-phase current filter transformers of the zero-sequence output. Sources of information taken into account in the examination 1. Chernobrovov N.V., Relein protection. M., 1967, p. 260-261. . 2. Chernobrovov N.V., Relein protection. M., 1967, p. 272-273.