RU2510070C1 - Method to connect three-phase loads - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: result is achieved by realisation of the method of connection of three-phase active-inductive industrial loads connected as star or delta or groups of loads, some of which are connected as start, and others - as delta.

EFFECT: elimination of additional start-up currents and impact of connection of three-phase loads at adjacent loads as a result of voltage surges.

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Description

This method relates to electrical engineering, in particular to electric power systems.

There is a method 6 for switching on a single-phase active-inductive load (see L. A. Bessonov Theoretical Foundations of Electrical Engineering. -M .: Higher School, 1096, p. 244-245). The essence of this method is that when the load is turned on at the moment I / 2 or maximum voltage there is no current transient, that is, its steady-state value is immediately reached.This method is also applicable for a three-phase load connected to a star with a neutral wire, when each of its phases is switched on independently.

However, this method is not applicable for including three-phase loads connected in a triangle or in a star without a neutral wire, as well as groups of loads, some of which are connected in a triangle and the other part in a star, because asymmetric surges and voltage drops are observed during a relatively long transient process. online.

At present, three-phase loads are switched on by simultaneously connecting all three phases to the network using magnetic starters, air, gas or gas-insulated switches, etc.

The objective of the proposed method is the inclusion of three-phase loads connected in a triangle or in a star without a neutral wire, without exceeding the inrush current in all three phases of the steady-state value.

The solution to this problem is achieved by first turning on two phases with the appropriate switches at the moment the phase voltage of the third phase passes through zero, and then turn on the third phase at the moment the line voltage of the other two phases goes through zero.

The technical result will be the elimination of additional inrush currents and the influence of the inclusion of three-phase loads on neighboring consumers as a result of voltage wires.

The essence of the proposed method for switching on three-phase loads is illustrated by the following description and the accompanying drawings, in which Fig. 1 shows a diagram of connecting a group of loads to a three-phase network, some of which are connected to a star without a neutral wire, and the other part to a triangle.

The operation of the method is explained by the following graphs of inrush currents when a group of loads is included, some of which are connected to a star without a neutral wire, and another part to a triangle (Fig. 2, a), and of these currents for a load connected to a star without a neutral wire ( figure 2, b) and for the load connected in a triangle (figure 2, c). A change in the load resistance or the number of loads connected in a star or in a triangle affects the value of the steady-state current, and the nature of the transient process remains the same and similar for all types of load connections.

The method is carried out using simulation in the software environment MatLab. The model diagram in the MatLab software environment is shown in FIG. 3.

Figure 4 shows the phase and linear voltages (a), inrush currents of a three-phase symmetrical RL load connected to a star without a neutral wire when three phases are turned on by the proposed method (b), simultaneously (c).

Figure 5 shows the different and linear voltages (a), inrush currents of a three-phase symmetrical RL load connected in a triangle when three phases are turned on by the proposed method (b), simultaneously (c).

Figure 6 shows the phase and linear voltages (a), inrush currents of a group of three-phase symmetrical RL loads, some of which are connected in a triangle, and another part in stars when three phases are turned on by the proposed method (b), simultaneously (c) .

Claims (1)

The method of turning on three-phase active-inductive loads with the help of three single-phase switches, characterized in that at first the two phases are turned on by the corresponding switches at the moment the phase voltage of the third phase passes through zero, and then the third phase is turned on at the moment the line voltage of the other two phases passes through zero.

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