RU39232U1 - DEVICE FOR STABILIZATION OF CURRENT POWER CONVERTER SUBSTATION - Google Patents

Abstract

The utility model relates to electrical engineering, in particular, to current stabilization systems of powerful converter substations of the aluminum industry.

A useful model solves the problem of the aforementioned drawbacks, in particular: creating a device for stabilizing the current of a powerful converter substation, having operability and ensuring the operability of a powerful converter substation as a whole with changing input parameters, characterized by a multiple increase in the stabilization accuracy of the current of a powerful converter substation, as well as a significant improvement in the overall dimensions of the device itself.

To solve the problem, a device for stabilizing the current of a powerful converter substation containing a three-phase boost transformer having at least two windings, a phase-rotation transformer, reactive elements, which are a three-phase resonant reactor and three single-phase capacitor units, moreover, the phase windings of the first winding three-phase booster transformer, phase windings of a three-phase resonant reactor and single-phase capacitor units are connected in three three-phase cast stars; the input ends of the phase-shifting transformer are connected to the mains, the phase windings of the second winding of the three-phase boost transformer are connected to the load, it is proposed, according to this utility model, to introduce a three-phase autotransformer containing at least two windings, at least one of which must be connected one of the reactive elements; the phase windings of the first winding of a three-phase boost transformer are connected to the output ends of the phase-shifting transformer, and the phase windings of the second winding

boost booster transformer connected to the mains;

in addition, at least one switch for regulating the voltage can be introduced into the device for stabilizing the current of a powerful converter substation; and at least one of the windings of the autotransformer may include adjustment sections connected to at least one of the reactive elements, and with an inserted switch for regulating the voltage; in addition, at least one controlled three-phase reactor can be introduced into the device for stabilizing the current of a powerful converter substation, while an additional winding connected to the introduced controlled three-phase reactor can be introduced into the autotransformer.

Description

The utility model relates to electrical engineering, in particular, to current stabilization systems of powerful converter substations of the aluminum industry.

A device for stabilizing the current of a powerful converter substation comprising a three-phase booster transformer, reactive elements representing a three-phase resonant reactor and three single-phase capacitor units, as well as a phase-shifting transformer, while the phase windings of the first winding of the three-phase voltage boost transformer, phase windings of the three-phase resonant reactor and one capacitor units are connected in three three-phase stars, the input ends of a phase-shifting transformer are connected to the mains supply, the phase windings of the second winding of the three-phase boost transformer are connected to the load and the output ends of the phase-shifting transformer, all reactive (or resonant, as you have, however, this term was previously absent) elements and phase windings of the first winding of the three-phase boost transformer are connected to mains supply [L. 1].

The device for stabilizing the current of a powerful converter substation described in [L.1] is characterized by a minimum number of elements and allows achieving good performance under the following conditions:

- the constancy of the rectified current of the converter substation;

- the constancy of the voltage of the supply network;

- minor changes in the value of the load resistance.

The disadvantage of this device is the fact that if the above conditions are not met, the device for stabilizing the current of a powerful converter substation has to be executed with significantly increased mass and overall dimensions, if necessary, even a slight change in the output parameters of a powerful converter substation will become inoperative. Even if the parameters of a powerful converter substation are unchanged, this current stabilization device stabilizes the current of a powerful converter substation only with an insufficient degree of accuracy, since the current changes in proportion to the change in the supply network.

A useful model solves the problem of the aforementioned drawbacks, in particular: creating a device for stabilizing the current of a powerful converter substation, having operability and ensuring the operability of a powerful converter substation as a whole with changing input parameters, characterized by a multiple increase in the stabilization accuracy of the current of a powerful converter substation, as well as a significant improvement in the mass-dimensional parameters of the device itself.

To solve the problem, a device for stabilizing the current of a powerful converter substation containing a three-phase boost transformer having at least two windings, a phase-rotation transformer, reactive elements, which are a three-phase resonant reactor and three single-phase capacitor units, moreover, the phase windings of the first winding three phase

booster transformer, phase windings of a three-phase resonant reactor and single-phase capacitor units are connected in three three-phase stars; the input ends of the phase-shifting transformer are connected to the mains, the phase windings of the second winding of the three-phase boost transformer are connected to the load, it is proposed, according to this utility model, to introduce a three-phase autotransformer containing at least two windings, at least one of which must be connected one of the reactive elements; the phase windings of the first winding of the three-phase boost transformer are connected to the output ends of the phase-shifting transformer, and the phase windings of the second winding of the boost transformer are connected to the supply network; in addition, at least one switch for regulating the voltage can be introduced into the device for stabilizing the current of a powerful converter substation; and at least one of the windings of the autotransformer may include adjustment sections connected to at least one of the reactive elements, and with an inserted switch for regulating the voltage; in addition, at least one controlled three-phase reactor can be introduced into the device for stabilizing the current of a powerful converter substation, while an additional winding connected to the introduced controlled three-phase reactor can be introduced into the autotransformer.

The utility model is illustrated by the example of the drawing, Fig. 1, which shows a circuit diagram of the inventive device for stabilizing the current of a powerful converter substation.

A device for stabilizing the current of a powerful converter substation contains a three-phase boost transformer 1.

Three-phase booster transformer 1 contains two windings: the first winding 2 and the second winding 3. The first winding 1 has three phase windings: 4, 5,6, respectively; the second winding 3 also has three phase windings: 7, 8, 9.

The device also contains a phase-shifting transformer 10 and reactive elements: a three-phase reactor 11 with phase windings 12, 13, 14 and three single-phase capacitor units: 15, 16, 17.

The windings of phases 4, 5, 6 of the first winding 2 of the boost transformer 1, the windings of the phases 12, 13, 14 of the resonant reactor 11 and single-phase capacitor units 15, 16, 17 are connected in three three-phase "stars".

So, the first three-phase "star" is formed by: phase 5 winding of the first winding 2 of the three-phase boost transformer 1, phase winding 12 of the resonant reactor 11 and a single-phase capacitor unit 15.

The second three-phase “star” is formed by: a phase 4 winding of the first winding 2 of the boost transformer 1, a phase winding 13 of the resonant reactor 11 and a single-phase capacitor installation 16.

The third three-phase "star" is formed by: a phase 6 winding of the first winding 2 of the three-phase boost transformer 1, phase winding 14 of the resonant reactor 11 and a single-phase capacitor installation 17.

The input ends of the phase-shifting transformer 10 are connected to the supply network 18.

The windings of phases 7, 8, 9 of the second winding 3 of the boost transformer 1 are connected to a load 19, which is a converter substation that feeds a series of electrolysis, and to the supply network 18.

The structure of the device for stabilizing the current of a powerful high-power converter substation includes a three-phase autotransformer 20, comprising a winding 21 having phase windings 22, 23, 24, and also a winding 25 having phase windings 26, 27, 28.

The single-phase capacitor units 15, 16, 17 and the phase windings 12, 13, 14 of the resonant reactor 11 are connected to the phase windings 22, 23, 24, 26, 27, 28 of the windings 21 and 25 of the three-phase autotransformer 20. In particular, the single-phase capacitor unit 15 is connected to the windings of phases 22 and 26 of the windings 21 and 25 of the three-phase autotransformer 20, the single-phase capacitor installation 16 is connected to the windings of the phases 23 and 27 of the windings 21 and 25 of the three-phase autotransformer 20, and the single-phase capacitor installation 17 is connected to the windings of the phases 24 and 28 of the windings 21 and 25 of the three-phase autotransformer 20.

The winding phase 12 of the resonant reactor 11 is connected to the winding phase 26 of the winding 25 of a three-phase autotransformer 20; the winding of the phase 13 of the resonant reactor 11 is connected to the winding of the phase 27 of the winding 25 of the three-phase autotransformer 20; the winding phase 14 of the resonant reactor 11 is connected to the winding phase 28 of the winding 25 of a three-phase autotransformer 20.

The windings of phases 4, 5, 6 of the first winding 2 of the three-phase volt-auxiliary transformer 1 are connected to the output ends of the phase-shifting transformer 10, the windings of phases 7, 8, 9 of the second winding 3 of the volt-auxiliary transformer 1 are connected to the supply network 18.

This embodiment of the device for stabilizing the current of a powerful converter substation will significantly reduce the phase shift angle between the currents in the windings 4 and 7 of the boost transformer 1, which, in turn, will reduce the power of the reactive elements of the device, and, consequently, the total power of all elements of the device.

In addition, the device contains a three-phase switch for regulating the voltage 29. The winding 25 of the three-phase autotransformer 20 contains adjustment sections connected to the windings of the phases 12, 13, 14 of the resonant reactor 11 and a three-phase switch for regulating the voltage 29.

The introduction into the winding of a three-phase autotransformer 20 adjustment sections, as well as a three-phase switch for voltage regulation, will optimize the device and provide discrete adjustment to the required output parameters of the converter substation.

In addition to the discrete adjustment of the device, smooth, precise control can be carried out due to the additional winding 30 introduced into the three-phase autotransformer 20, connected to the additionally introduced controlled three-phase reactor 31. In each phase, the controlled three-phase reactor 31 has two branches, each of which is determined by the current in it control circuit. Thus, the transformation coefficient of the three-phase autotransformer 20 is determined including the ratio of the inductance of the branches of the controlled three-phase reactor 31.

As the calculations showed, the cost indicators of the claimed device for stabilizing the current of a powerful converter substation do not exceed the cost of the current stabilization system on saturation chokes. Compared with the latter, the stabilization system based on the claimed device allows using existing equipment to increase the yield of aluminum by several percent. This is due to the fact that saturation chokes reduce the voltage level in the series and only at the moments of the occurrence of anode effects raise it. When using the claimed technical solution constantly there is an increased voltage

on the series, and when anode effects occur, they are compensated. In turn, this will provide a tenfold increase in the accuracy of instantaneous current stabilization, bringing it to the level of ± 0.2-0.3%, and also increase the power factor from approximately 0.88-0.9 to 0.94-0 , 96.

Current stabilization with the indicated accuracy has already been achieved on aluminum electrolysis series based on parametric current sources (the claimed device is also a parametric current source) at the Sayan and Taishet aluminum plants.

Currently, a technical proposal is being prepared for Rusal to use the proposed solution in a number of aluminum smelters in Russia.

Literature:

1. Auth. testimonial. USSR No. 1173487 MKI ³ H 02 J 3/00, 1985

Claims (3)

1. A device for stabilizing the current of a powerful converter substation, comprising a three-phase booster transformer having at least two windings, a phase-shifting transformer, reactive elements representing a three-phase resonant reactor and three single-phase capacitor units, wherein the phase windings of the first winding of a three-phase booster transformer, phase windings of a three-phase resonant reactor and single-phase capacitor units are connected into three three-phase stars, the input ends are phase of the rotary transformer connected to the mains supply, the phase windings of the second winding of the three-phase boost transformer are connected to the load, characterized in that it contains a three-phase autotransformer containing at least two windings, at least one of the reactive elements being connected to one of them , the phase windings of the first winding of the three-phase boost transformer are connected to the output ends of the phase-shifting transformer, and the phase windings of the second winding of the boost transformer are connected to mains supply. 2. The device for stabilizing the current of a powerful converter substation according to claim 1, characterized in that it contains at least one switch for regulating the voltage, at least one of the windings of the autotransformer contains adjustment sections connected to at least one of the reactive elements, and with the introduced switch to regulate the voltage. 3. The device for stabilizing the current of a powerful converter substation according to claim 1, characterized in that it contains at least one controlled three-phase reactor, while an additional winding connected to the introduced controlled three-phase reactor is introduced into the autotransformer.