SU1718319A2 - Device for melting of ice on the leads of power transmission air lines - Google Patents

Abstract

The invention relates to electrical engineering, in particular to devices for conducting overhead transmission lines (LEPs) on wires of ice melting or preventive heating. The purpose of the invention is to increase efficiency by reducing the required power and voltage of the frequency converter for a given transmission line length. The device comprises a melting circuit comprising power lines 1 with high-voltage windings of power transformers 2 and 3 connected at its ends, connected in a star, frequency converter 5 and ground. The converter is powered from buses connected to the low voltage winding of the transformer 6. The output of the frequency converter is shunted by switch 7. The terminals of the power transmission lines include capacitors 10 that provide resonance of the voltages in the melting circuit at the frequency of the output voltage of the converter. 1 il.

Description

The invention relates to electrical engineering and can be used to conduct ice melting on the wires of power lines (power lines) or for their preventive heating. 5

Basically the invention by ed. St. No. 1229876 to a transformer with a high voltage winding connected to a star, a power transmission line and an industrial frequency voltage source are connected. Between the transformer neutral 10 and the ground terminal, the output of the frequency converter is turned on, and its input is connected to the output of the industrial frequency voltage source. The current from the frequency converter is superimposed on 15 load currents of the phase wires, and when choosing the frequency of the converter voltage less than the industrial one, the same melting current is provided in all phases of the power transmission line. 20

The disadvantage of this device is that with the growth of a heated power line, the required power and voltage of the frequency converter also increase and can, in specific cases, reach values 25 that cannot be implemented in practice. This reduces the efficiency.

The aim of the invention is to increase efficiency by reducing the voltage and power of the frequency converter 30.

The figure shows the proposed, _railway apparatus.

The device contains a heated power line 1 connected to the high voltage windings of transformers (T) 2 and 3, connected to a star. T 2 is connected to the system 4, Between the neutral T 2 and the output of its grounding, the output of the frequency converter 5 is turned on, and its input is connected to the output 40 of the matching T b. The primary winding T 6 is connected to the low voltage windings T 2 connected in a triangle through the switch 7. In parallel with the output of the converter 5, the switch 8 and the arrester 9 are connected. Capacitors 10 are included in the cut-off of the phase wires of the power transmission line.

In normal operation, the switch 7 is turned off, the switch 8 is turned on, the output of the converter 5 is bridged, and the 50 neutral T 2 is deafly connected to the ground output. When melting ice or preventive heating of the wires of power lines 1, switch 8 is turned off, and switch 7 is turned on. 55

The frequency in of the output voltage of the converter 5 can be selected from a few hertz to values close to the industrial frequency. In this case, the capacitance values of the capacitors 10 are selected so that a ratio reflecting the resonance of the stresses in the melting circuit is satisfied.

2Trf _n Lo ⁼ 2πί _η 3Ο 'where Lo is the inductance of the zero sequence of the melting circuit.

The voltage U and power S of the converter in this case are obtained from the expressions

U = 1pGoE. ' S = 1п ² ГОЭ, where Гп is the converter current required for melting or heating, superimposed on the load currents of 1 _ng power transmission line:

Goe ~ equivalent resistance of the zero sequence of the melting circuit.

To determine the number of capacitor banks, from which the capacitor blocks are assembled 10. it is necessary, in addition to the capacitance value, to know the voltage drop across the capacitors 10 from the simultaneous flow of the power line load current and the frequency converter current. It is determined by the formula

2n fnC-e.

) ² where f is the industrial frequency of 50 Hz.

Capacitor units 10 must be isolated from earth by the magnitude of the phase voltage of the power lines, and the capacitors themselves are protected by spark gaps. When using the invention, the required converter power, frequencies and, accordingly, its output voltage are reduced, ceteris paribus

where Khoz and Goe are the equivalent inductive and active resistance of the zero sequence of the melting circuit at the frequency of the converter f _n .

With real values of the parameters of households, Goe, the value of n can average 2-6. _h

Thus, by reducing the required power and voltage of the frequency converter for a given power line length, the efficiency of the device is increased. At the same time, the dimensions and cost of the converter are reduced, which ensures an economic effect.

Claims (1)

Claim A device for melting ice on the wires of overhead power lines according to ed. St. No. 1229876, with the proviso that, in order to increase efficiency by reducing the voltage and power of the frequency converter, capacitors are inserted into it having terminals for connecting the corresponding phase conductors of the line into the cut, the value of the capacitive - 5 resistance of each of which is three rg for the value of the inductive resistance of the zero sequence of the ice melting circuit at the frequency of the output voltage of the frequency converter.