RU2710023C2 - Method for protection of power transformer of ac traction substations from internal damages - Google Patents

Abstract

FIELD: electrical equipment.

SUBSTANCE: invention relates to the electrical equipment. According to method of protection of power transformer of traction substations of alternating current from internal damages it is provided determination of serviceability by numerical value of unbalance of power of transformer. Power balance takes into account, on the one hand, power consumption of power transformer from power transmission line and, on the other hand, power of electric energy consumers connected to transformer, as well as loss of power in steel and copper. Use of invention allows minimizing damage at internal destructions of power transformer.

EFFECT: improved accuracy of operation of relay protection and reduction of operating time of damaged power transformer from technological violation at AC traction substation with voltage of 25 kV.

1 cl

Description

A method of protecting a power transformer of AC traction substations from internal damage relates to the field of electrified railways, and can be used to reduce damage in case of damage to the transformer.

It is well known that relay protection (gas, differential, etc.) is used to protect against internal damage to the power transformer of traction substations.

For power transformers of traction substations of alternating current, the problem of false operation (failure) of relay protection with internal damage to the transformer is known.

A known method of protection against internal damage (gas protection) power transformer traction substation AC [Bay Yu.M. Traction substations / Yu.M. Bay, P.P. Mamoshin, V.N. Pupynin / textbook for universities railway transport. - Moscow: Transport, 1986 - 319 s; Figurnov E.P. Relay protection / E.P. Figurnov / textbook. In 2 hours, Part 1. 3rd ed., Rev. and add. - Moscow: State Educational Institution “Educational and Methodological Center for Education in Railway Transport”, 2009. - 415 s]. A method of protection against internal damage to a power transformer of an AC traction substation comprising a power transformer with voltage regulation under load (RPN) and a relay protection and automation device (RPA).

A known method of protection against internal damage to the power transformer of a traction substation of alternating current is as follows.

Internal damage to the power transformer leads to gas generation, increased pressure in the power transformer and the destruction of glass, which protects the tank from destruction of the transformer. If damaged, oil and gas are ejected from the transformer and create a fire hazard. Gas protection of power transformers is triggered by the flow of transformer oil and (or) gas during gas formation in the transformer tank as a result of decomposition of oil and insulating materials, as well as when the oil level is lowered. The gas protection trigger is the gas relay contacts. The design provides for the closure of the circuit when gas appears and to lower the oil level. When gas generation occurs and (or) a decrease in the oil level, the power transformer of the traction substation is switched off by relay protection and automation devices using switching devices.

The advantage of the method of protection against internal damage (gas protection): tripping circuit breakers to protect the power transformer in case of damage. The flow of oil and (or) gas to the transformer expander is a criterion for damage. This triggers gas protection.

The disadvantage of the method of protection against internal damage (gas protection) is that the protection does not provide for the response to damage that precede the formation of gas and can lead to serious consequences (up to fire). Delayed tripping (failure) of the protection leads to the development of damage and increased damage from internal damage to the transformer.

A known method of protection against internal damage (differential protection) power transformer traction substation AC [Bay Yu.M. Traction substations / Yu.M. Bay, P.P. Mamoshin, V.N. Pupynin / textbook for universities railway transport. - Moscow: Transport, 1986 - 319 s; Figurnov E.P. Relay protection / E.P. Figurnov / textbook. In 2 hours, Part 1. 3rd ed., Rev. and add. - Moscow: State Educational Institution “Educational and Methodological Center for Education in Railway Transport”, 2009. - 415 s]. A method of protection against internal damage (differential protection) of a power transformer of a traction substation of alternating current, which includes a power transformer with an on-load tap-changer, measuring current transformers, relay protection and automation devices (RPA).

A known method of protection against internal damage to the power transformer of the traction AC substation is to measure currents from the side of the higher, traction and district voltage of the power transformer, determine the current balance, which is the criterion for disconnecting the relay protection device (differential protection) of the power transformer.

The protection method is as follows.

Differential protection responds to current imbalance with internal damage to the power transformer. The secondary windings of the measuring current transformers on the side of the higher and traction voltage are interconnected so as to determine the balance of the currents of the secondary currents reduced to the same voltage. With a current balance (the sum of the currents is less than the setpoint), there is no damage in the transformer. With internal damage to the transformer (for example, insulation damage to one of the windings), the current of the higher voltage windings increases with a constant current of the traction winding and current imbalance occurs. Differential protection is triggered when the accepted unbalance setting is exceeded to disconnect the voltage from the damaged transformer.

Advantage of the method of protection against internal damage (differential protection): protection is triggered before the appearance of gas generation and (or) the flow of oil and (or) gas through the gas relay. Shutdown occurs without a time delay, which eliminates the further destruction of the transformer and reduces the consequences of damage from damage to the transformer.

The disadvantage of the method is protected from internal damage (differential protection) is that when changing the transformation ratio, for example, the on-load tap-changer of the power transformer to bring the currents of the secondary windings of current transformers to the same voltage, the actual transformation coefficient is not taken into account.

The known method of operation of differential protection provides for the setting of unbalance currents, which can lead to false operation (failure) of the protection. The way the differential protection of the power transformer of traction substations is based on the unbalance of currents does not take into account the effect of actual power loss in steel and copper on the current balance.

The problem solved by the claimed invention is to develop a method of protection against internal damage to the power transformer, which reduces the likelihood of false triggering (malfunctioning) of relay protection under conditions that can lead to severe technological disruptions and further destruction of the power transformer.

To solve this problem, in a method for protecting a power transformer of AC traction substations from internal damage, based on measuring currents in windings of higher, traction and regional voltage, voltage of windings of higher, traction and regional voltage is additionally measured using measuring voltage transformers and power unbalance is determined. Power imbalance is a criterion for internal transformer damage.

The presence in the claimed method of protection against internal damage to the power transformer of additional measurements of indicators of electric energy - voltage and the determination of the power imbalance distinguishes the claimed solution from the prototype. The presence in the claimed method of significant distinguishing features indicates the conformity of the proposed solution to the patentability criterion of the invention of "novelty."

The use of additional voltage measurements in the method of protecting a power transformer of AC traction substations from internal damage and determining the unbalance of power can reduce the likelihood of false triggering (failure) of relay protection, exclude the development of emergency situations, leading to further destruction of the power transformer and creating a threat to environmental safety and significant economic damage.

This is because the method is based on the analysis of the power balance, which takes into account the actual transformation coefficients of the power transformers of the traction substations and the power loss in the transformer, which eliminates the false operation (failure) of the relay protection and the further development of the negative consequences of damage to the transformer.

The causal relationship “Method of protecting the power transformer of AC traction substations from internal damage”, based on a completely different principle of analysis of power unbalance, is not found in the prior art and does not explicitly follow from it, therefore, it is new. The novelty of the causal relationship “significant distinguishing features - a new result” indicates the conformity of the proposed solution to the patentability criterion of the invention “inventive step”.

The method of protection of the power transformer of traction substations of alternating current from internal damage is illustrated in the drawing.

The inventive method is proposed for traction substation of alternating current, as a new method of protection against internal voltages of a power transformer, based on the analysis of power imbalance by a relay protection and automation device including measuring currents and voltages of windings of higher, traction and regional voltage of a power transformer using measuring current transformers and voltage measuring transformers.

The balance of consumption of active power and consumption, losses in copper and steel of a power transformer is determined by the formula.

where R _B , R _T , R _P is the active power consumed by the power transformer, the consumption of switchgear traction and regional voltage, respectively, kW;

ΔР _СТ , ΔР _М - losses in steel and copper of the power transformer, kW.

Losses in steel depend on the actual voltage on the windings of the power transformer and are determined by the formula [Instruction for the organization in the Ministry of Energy of the Russian Federation of work on the calculation and justification of standards for technological losses of electricity during transmission through electric networks - approved. by order of the Ministry of Energy of the Russian Federation dated December 30, 2008 No. 326].

where ΔР _x.x - nominal idle losses, kW;

U _nom - rated voltage, kV;

U _valid - actual voltage, kV.

The power loss in copper is determined by the formulas [Grigoryev, N.P. Management of electric energy losses in power transformers of traction substations / N.P. Grigoryev, A.P. Parfianovich, A.A. Vukotich // Mathematical and experimental modeling of physical processes: Sat. Mater, int. correspondence science - prakt. conf. / under the scientific. ed. M.V. Kandeli (Birobidzhan, December 20, 2016) - Birobidzhan: Priamur Publishing House. state University of them. Sholom Aleichem, 2017. - S. 132-139].

where I _AX , I _BY , I _CZ - currents of the windings of the higher voltage of the power transformer, A;

I _ax , I _by , I _cz - currents of windings of traction voltage of a power transformer, A;

P _P , Q _P - active and reactive power of the district load of the power transformer, kW, kVAr;

R _B , R _T , R _P - the active resistance of the windings of the higher, traction, regional voltage of the power transformer, Ohm.

The reactive power balance is determined by the following formula

where Q _B is the reactive power consumed by the transformer, Q _T is the reactive power consumption for traction loads, and Q _P is the reactive power consumption for district loads with voltage respectively kVar;

ΔQ _CT , ΔQ _M - reactive power loss in steel and copper of the power transformer, kVar.

Accordingly, a power unbalance exceeding the power unbalance setting adopted for relay protection and automation devices triggers the relay protection of the differential power of power transformers, switching devices of switchgears of higher, traction and regional voltage are disconnected. The method takes into account the influence of the actual transformation ratios of power transformers and the loss of power in it, which reduces the likelihood of a false positive (failure) of the relay protection under conditions that can lead to severe consequences of a technological violation.

Claims (1)

The way to protect the power transformer of an AC traction substation from internal damage to reduce the damage caused by a faulty power transformer is to measure currents from the higher, traction and district voltage of the power transformer by current measuring transformers, to determine the unbalance of the currents of the windings of the power transformer, for this the secondary windings of measuring transformers current installed on the side of higher and traction voltage are connected in such a way that from The unbalance of the currents of the secondary windings, which are reduced to the same voltage, is checked, and the unbalance of the current less than the current of the setpoint for the protection trip is a sign of the absence of internal damage to the power transformer, exceeding the unbalance of the current of the adopted setpoint is a sign of internal damage of the power transformer, while the differential protection is triggered, and the voltage from the damaged transformer is turned off, characterized in that in addition voltage measuring transformers measure voltage a coil of higher, traction and regional voltage of the power transformer, and the balance of the power consumption by the power transformer from the power line of the high voltage windings and the power to power the loads of consumers that are connected to the medium and low voltage windings, as well as the power loss in the power transformer in steel, is determined - determined by the readings of measuring transformers of voltage and idle losses, as well as in copper - by the readings of measuring current transformers and resistances of drain, power unbalance less than the power unbalance setting is a sign of the absence of internal damage to the transformer, excess power unbalance the power unbalance setting is a sign of internal damage of the power transformer, differential protection is activated, and the voltage from the damaged power transformer is turned off, which increases the accuracy of determining internal damage and reduces damage from internal damage to the power transformer.