SU875531A1 - Three-phase ac cable network - Google Patents

Description

, (54) THREE-PHASE CABLE NETWORK The invention relates to the generation and distribution of three-phase AC electric power, and can be used to limit short-circuit currents (TCV) in parallel operation of generators. A three-phase alternating current network is known in which, in order to limit the TKZ, current-limiting reactors 1 are turned on in series with each phase. The disadvantages of this device are the large size of the reactors, the complexity of implementation and the large power losses (ten kW) that in normal conditions require complex heat sink system. Also known is a three-phase AC cable network containing a bundle of three-phase cables 2. The absence of reactors in such a network simplifies it, but leads to an increase in the magnitude of the SCR, which may exceed the value allowed for equipment. The purpose of the invention is to limit the short circuit current. The goal is achieved by the fact that the cable network of three-phase alternating current, containing a bundle of three-CURRENT CURRENT phase cables, contains a three-phase switch connected by a single output to a cable bundle, and the bundle of three-phase cables is divided into three bundles, each of which is placed in pipes of ferromagnetic material, and dissimilar The phases of each harness are connected to one of the switches. The schematic diagram of the device for the case of a bundle of three cables is shown in the drawing. The device consists of three-phase cables 1, divided into three bundles 2-4 (one cable in each bundle). Each harness 2-4 is laid in pipe 5 of a ferromagnetic material. The contacts of the switch 6 are included in phase A of the first bundle 2, in phase B of the second group of bundle 3, in phase C of the third bundle 4. The network works as follows. In normal mode, in each cable 1 of a symmetrical circuit, a current flows in all three phases. The sum of the currents of the phases A + 1. + Tc O- The magnetic flux in the pipes 5 is absent. The resistance of each phase is determined only by the active resistance of the cable 1 phases. In the event of a short circuit, the high-speed device 6, E of the azmyk in each cable 2-4 only one phase is disconnected from either side of the network.

In this case, a two-phase current flows in each harness 2-4 (1c + 1 (.0, etc.). In pipes 5, a Maij-HHTHbift flow is created, which in each core induces an electromotive force C.

The ratio of induced emf to current I determines the magnitude of the active R and reactive X resistance introduced into each phase.

 R + J /

which, in turn, determines a decrease in the TKZ value.

The invention makes it possible to reduce TKZ in AC cable networks without the use of current-limiting

reactors.

Claims (2)

1. Electric networks and stations. Ed. Baptidanova L.N., M.-L., SEI, 1960, p. 432. 2.DVoskin L.I. Constructions and designs of high voltage switchgears. M.-L., SEI, I960, p. 432.