SU152904A1 - - Google Patents

Description

Differential relays are widely used for differential protection of power double-winding transformers (for example, type РНТ-560, which give rise to detuning from aperiodic magnetizing current surge. However, when power transformers are turned on for idle and aperiodic surge of magnetizing current in two phases, in a third phase, a periodical surge is observed magnetizing current reaching the rated current or more. Detuning from the surges of the periodic current of the differential relays is carried out with appropriate choice of set point, which in some cases leads to a decrease in the sensitivity of the protection.

Methods are known for detuning from magnetizing current surges by blocking the protection of currents of the second harmonics, which, when throwing magnetizing current of all types, amount to about 20% of the first harmonic. Such protections have not been applied, as they are quite complex, require special filters, etc.) and have lower speed.

In the proposed device, the sensitivity of protection is increased by decreasing the setpoint chosen for detuning the magnetizing current from power transformers, the cores of the saturating transformers are made split, and the short-circuited windings are placed on the split parts of the rods.

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To tune off the magnetizing current surges, you can use the interlocking of all three phases of the saturating transformer to obtain an increase in the actuation current in any phase (experiencing a periodic inrush of the magnetizing current) when the current flows with the aperiodic component in the other two phases. To do this, additional windings can be placed on the split parts of the rods of each saturable transformer, consisting of two identical sections connected in series with each other and connected in parallel to the secondary windings of adjacent phases.

A single saturating transformer can also be used for tuning out the magnetizing current surge, each of the rods of which carries primary, secondary and short-circuited windings, the primary windings consisting of three sections, two of which are connected in parallel and dispersed into separated parts of the terminals, and a third included in series with them and covers both parts of the rod.

FIG. 1 shows the electrical circuit of the described protection; in fig. 2 is a simplified protection circuit with one saturation transformer.

The proposed device for differential protection of a power transformer consists of current transformers and saturable transformers with primary windings W divided into two, with partial covers W2, the output of which is connected to the operating relay T. The cores of the saturated transformers are split and split into x rods are placed short-circuited windings W ,. and additional WQ connections, consisting of two sections connected in series with each other and connected in parallel to secondary windings .i of adjacent phases.

As can be seen from FIG. The additional winding WQ of the saturating phase transformer .4 is connected in parallel with the secondary winding of the saturation of the transformer-phase B phase / the additional phase B winding is connected parallel to the secondary phase C winding and the additional phase C winding is connected parallel to the secondary phase winding A. The parameters of these windings are selected in such a way so that the inductive co-resistance of each of them significantly exceeds the resistance of the executive body-relay T, for which the ET-521 / 0,2 type relay can be used.

When one of the phases has a surge of magnetizing current with the aperiodic component of the magnetic core of the saturating transformer of this phase, the inductive resistance of the additional winding decreases sharply, as a result of which this winding sucks up a significant portion of the secondary current of the saturative transient scapula to the scapula scapula). an organ of this phase, which is how interlocking of the phases of the protection device is achieved. Since the inrush-magnetizing current with the aperiodic component is observed in at least two phases, the third phase of the 3au.utTbi device experiencing a surge in the periodic magnetizing current will always be blocked.

By changing the parameters to the winding winding, any increase in the detuning from the periodic magnetizing current surge can be obtained ...; .

The detuning from aperiodic magnetizing current surges is controlled in the same way as with conventional PHT-560 relays. In case of internal damage, x-protection works in the same way as conventional differential protection of the PHT relay.

To increase the multiplicity of the secondary current with three-phase internal damage, additional windings can be placed on the extreme rods with short-circuited windings, since the induction in these rods of the PHT relay is three times lower than in the secondary windings, and the effect aperiodic component is even stronger. As with the blocking between the individual phases of the protection device, mutual inductance is absent, the three-phase differential protection circuit J can be simplified and made in the form of a saturation circuit transformers and three executive bodies.

For simplicity, one three-rod saturating transformer can be used with a magnetic conductor divided into two equal parts (see Fig.2), on the rods of which primary phases Wi, secondary W2 and short-circuited windings (not shown) and three actuators are placed type ET-521 / 0,2, attached to the secondary windings. The primary windings are made of three sec. Two of which are connected in parallel and placed on separated parts of the rod, and a third is connected in series with them and covers both parts of the rod.

With through short circuits, two parallel sections of the primary windings of the saturable transformer create local saturation of the steel of the magnetic core and impair the transformation from the primary to the secondary winding of this rod (phase).

Kj) Moreover, such a device has an additional magnetic deceleration between the three phases of the relay, allowing an increase in the protection response current in the phase experiencing a periodic surge when the current flows with the aperiodic component in the other two phases.

Subject invention

Claims (2)

1. A device for differential protection of a power transformer, containing current transformers, saturable transformers with primary windings, divided into several parts, with short-circuited and secondary windings, to the output of which relays are connected, characterized in that, in order to separate from current surges, rods of magnetically conductive saturates transformers are made split, and short-circuited windings are placed on their split parts. 2. A device according to claim 1, characterized in that on the split parts of the rods of each saturable transformer additional windings are placed, consisting of two identical sections, connected in series and connected in parallel to the secondary windings of the adjacent.-Phases. 6. The device according to claim 1, characterized in that one saturated transformer is used, each of the magnetic cores of which carries primary, secondary and short-circuited windings, the primary windings being made of three sections, two of which are connected in parallel and placed on the split parts of the rod , and - the third is included in series with them and covers. Both parts of the BDT. -3- № 152901