SU1319161A1 - Two-section cable electric power line - Google Patents

Abstract

The invention relates to electrical engineering. The purpose of the invention is to increase the efficiency of power transmission by reducing energy losses in metal shells. Wires (P) 15,16,17 and 18,19,20, connecting the metal shells of the phases of the first and second chains of the line from the side of the transmitting system, are connected to a star and the connecting points of the shells of each chain to a star are interconnected. On the side of the receiving system 2, the metal shells are interconnected by P 22, 23, 24. When current flows through the working conductor 3 in the metal sheath 9, an emf is induced, which causes the current to flow in opposite direction to the working current in the circuit formed by the metal sheath 9, P 15, 21, 18, metal sheath 12, P 22. When current flows through the working conductor 6 in the metal sheath 12, an electromotive force is induced, which causes current to flow in opposite directions to the current in the working conductor in the circuit formed by the metal sheath points 12, P 18, 21, 15, metal sheath 9, P 22. When the currents in the cores of Zb are equal, as a result of such a flow of currents in shells 9 and 12, they will be opposite in direction and are equal in magnitude. Due to this, the energy losses from the induced currents are eliminated. 1 il. (L with with UD O5

Description

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The invention relates to electric power industry and is intended for use in electric power systems.

The purpose of the invention is to increase the efficiency of power transmission by reducing energy losses in the metallic shells.

The drawing shows a double-circuit cable power line.

The double-circuit cable transmission line contains the transmitting system 1, the receiving system 2, the working conductors 3-5 of the first circuit of the line, the working conductors 6-8 of the second chain of the line, the metal shells of 9-11 phases of the first chain of the line, the metal shells of 12-14 phases of the second chain of the line , wires G5-17, connecting the metal shells of the phases of the first line circuit to a star, wires 18-20, connecting the metal shells of the phases of the second circuit of the line to a star, common wire 21 connecting the metal shells of the first circuit to the metal shells of the second circuit, wires .22 - 24 connecting the same phases of different circuits.

The wires 15 - 17 and 18 - 20, connecting the metal shells of the phases of the first and second circuit of the line, respectively, are connected to the star on the side of the transmission system 1 in a star, and the junction points of the shells of each chain to the star are connected to each other, by wire 21. The sides of the receiving system 2 are metal shells of like phases of different circuits interconnected by wires 22-24, wire 22 connects metal shells 9 and 12 of phase A of the first and second circuit lines, respectively. Wire 23 connects metal shells of 10 and 13 phase B first and second The second circuit of the line, respectively, wire 24 connects the metal shells 11 and 14 of phase C of the first and second circuit of the line, respectively.

When current flows through working fluid 3 of phase A of the first circuit of the line in the metal sheath 9, an electromotive force is induced, which causes current to flow in opposite directions to the circuit in the circuit formed by the metal sheath 9, wire 15, common wire 21, wire 18, metal sheath 12 , wire 22. When current flows through

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The working conductor 6. Phase A of the second circuit in the metal sheath 12 is induced by EMF, which causes the flow of current directed oppositely:

 with current in the working conductor, in the circuit formed by the metal sheath 12, wire 18, common wire 21, wire 15, metal sheath 9, wire 22.

O If the currents in cores 3 and 6 are equal, as a result of such a flow, the induced currents in shells 9 and 12, which are part of the common circuit, are opposite in direction and equal

5 in magnitude, and therefore i, are completely mutually compensated, and the energy losses from the induced currents are eliminated.

When current flows through the working;

0 core 4 phase In the first circuit of the line in the metal sheath 10 is induced EMF, which causes the flow of current directed oppositely to the operating current in the circuit formed

5 metal sheath 10, wire 16, common wire 21, wire 19, metal sheath 13, wire 23. When current flows through the working conductor 7 of phase B of the second circuit of the line

30 metal sheath 13 is induced by an electromotive force (EMF) that causes current to flow in a direction opposite to the current in the working core in the circuit formed by the metal sheath 13,

 wire 19, common wire 21, wire 16, metsshlicheskaya sheath 10, wire 23.

As a result of this flow of induced currents in the shells 10 and

40 3 entering the common circuit, they are opposite in direction, equal in magnitude, and therefore, are mutually compensated, and the energy losses from the induced currents

5 are eliminated.

When current flows through the working conductor 5 of phase C of the first circuit in the metal sheath 11, an electromotive voltage is induced, which causes current to flow in the circuit formed by the metal sheath 11, the wire 17, the common wire 21, the wire. house 20, {metal shell 14,

J5 wire 24. The current flowing through the working conductor 8 of phase C of the second circuit of the line induces an emf in the metal sheath 14, which causes current flowing oppositely to the working current in the circuit formed by the metal sheath 14, wire 20, common wire 21, wire 17, metal sheath 11, wire 24,

As a result of this flow, the induced currents in the shells 11 and 14, which are part of the common circuit, are opposite in direction and equal in magnitude, and therefore, are mutually compensated and the energy losses from the induced currents are eliminated.

Thus, due to the original connection of the metallic sheaths of the cable phases, the energy losses in them are reduced and, as a result, the economy is improved.

double circuit cable works

power lines.

Formula iaobob eni

: A double-circuit cable transmission line connecting three-phase networks containing insulated working conductors and metal shells, the metal sheaths of the three phases of each circuit being connected at one of the ends into a star, characterized by the fact that efficiency by reducing energy losses in the metal shells, at one of the ends of the point the connections of the shells of each chain into a star are interconnected, and at the other end the metal shells of like phases of different chains are interconnected.

Claims (1)

The formula is invented by a double-circuit cable transmission line connecting three-phase networks, containing insulated working conductors and metal sheaths, the metal sheaths of the three phases of each circuit being connected at one end to a star, characterized in that, in order to increase efficiency by reducing energy losses in metal shells, at one end of the connection point of the shells of each circuit in a star are interconnected, and at the other end of the metal shell of the same phases of different chains are connected between a.