UA15736U - Device for protecting an earthed neutral power transformer and a voltage transformer for testing insulation - Google Patents

Abstract

The proposed device for protecting an earthed neutral power transformer and a voltage transformer for testing insulation contains a discharger, which is inserted in the circuit of the neutral wire, a switch, and additionally, a unit for testing insulation, a control unit for the switch, and a time relay. The control unit is connected to the terminals of the additional winding of the voltage transformer, which is connected according to an open delta circuit. The contacts of the time relay are inserted in the input circuit of the control unit. The output of the control unit is connected to the control input of the switch.

Description

Description of the invention

The useful model refers to the field of high-voltage electrical networks, namely to the protection of step-down 2 transformers and voltage transformers of 110-220kV.

A well-known device for the protection of step-down transformers (Gohychaishvili P.F. Substations without switches at higher voltage M., Higher School, 1965, P.20-21), which has an isolated neutral of high-voltage windings tightly connected to power transmission networks, which have a coefficient grounding up to 0.8, which has a valve arrester in the neutral, and a switching device. 70 In normal operating mode, the switchgear is open in neutral. Before the scheduled switching of a network that does not have any transformer with a tightly grounded neutral, the neutral grounding of one of its transformers is provided. Earthing of the neutral of the transformer is mandatory and is provided for the protection of arresters in incomplete phase modes during commutations with non-simultaneous operation of the circuit breaker or its failure. Carrying out this operation leads to complications in power systems. With 12 automatic emergency network switching, this operation is impossible. It should be noted that incomplete phase modes occur during emergency switching, as well as when phases of power transmission networks are interrupted.

The relay protection of the power transmission network based on the current of the reverse sequence (which should unlock the network in the event of phase interruptions) has a weak sensitivity and does not respond to partial phase operation of part of its transformers at a load that is 2-4 times less than the nominal one.

In the case of incomplete phase operation of transformers with an isolated neutral, in the form of a sharp violation of phase and network voltages at the consumer, motors are disturbed, which leads to their shutdown or breakdown. Due to the disconnection of the motors of the voltage consumers, on the interrupted phases of the higher voltage of the transformer, the current can increase to values greater than the nominal, which leads to an increase in the magnetizing current of the voltage transformers, and, accordingly, leads to overheating and damage to their windings as a result of the occurrence of ferroresonance processes that can destroy and valve arresters in neutral. in

The closest to the proposed solution is a device for protecting the AC step-down transformer. with. USSR Mob04075, IPC НО2Н7/04, 1978 | which contains an arrester and a switching device in the neutral of the high-voltage winding of the power transformer, a resistor located in parallel with the specified elements, in the circuit of which a protection unit with a time relay is inserted, the output of which is connected to the control unit of the switching device. co

The disadvantage of the device is the impossibility of protecting the voltage transformer from thermal damage to the insulation of high-voltage windings as a result of the occurrence of ferroresonance processes, electrical breakdowns of the insulation in all electrical equipment and the destruction of arresters, especially the magnetic valve type with reduced breakdown characteristics, which are installed on bus systems of soldering substations, in as a result

Due to the influence of resonance-type overvoltage. --

The disadvantage of the device is that any modes of neutrals of high-voltage windings of power transformers, in contrast to blind grounding, reduce the reliability of localization of emergency circuits, which leads to large economic losses for consumers. "

The disadvantage of the device is the disproportionately lower technical efficiency of using resistors in the neutrals of high-voltage windings of power transformers as sensors for the operation of relay protection, in particular, the action of protection and control blocks from the secondary circuits of a current transformer, the primary winding of which is connected in

From" the resistor circuit in comparison with the efficiency of using voltage measuring transformers.

The disadvantages of the device include the mode of permanently switched-on resistors in the neutrals of the high-voltage windings of power transformers connected to main power transmission lines with the help of soldering, which leads to the need to isolate part of the neutrals of the specified windings in power transformers at feeder substations, which additionally complicates ensuring the required selectivity of the relay operation sl of protection in critical situations.

Disadvantages of resistors in the neutrals of high-voltage windings of power transformers on unsoldered and transformers include the possibility of deviation from the regulatory efficiency of the grounding mode with 20 neutrals, equal to the grounding coefficient of 0.8 for 110-220kV networks, on emergency circuits of networks in the direction of increasing or decreasing the specified coefficient, which leads to an unacceptable increase in internal overvoltages or the appearance of single-phase short-circuit currents, which in turn reduces the reliability of operation of electrical networks of the specified voltage.

The useful model is based on the task of developing a power transformer protection device with 29 isolated neutral and insulation control voltage transformer, which by additional input from the current transformer to the grounded neutral of the high-voltage windings of the voltage transformer, to the secondary winding of which the protection unit, control unit and switching unit are connected output to the circuit of the switchgear, and the protection unit in the open triangle of the additional secondary winding of the voltage transformer with output to the time relay, the contacts of which are connected to the input circuits of the control unit 60, allows preventing the operation of transformers with an isolated neutral in incomplete phase mode, excluding the appearance of dangerous currents and overvoltages of ferroresonance and resonance processes, as well as increasing the reliability of relay protection based on the stabilization of the grounding mode of the neutral of high-voltage windings of power transformers in normal and emergency states, which is in the set si ensures the necessary reliability of operation of electric networks 110-220kV. because The proposed step-down power transformer with isolated neutral and voltage transformer without circuit breakers on the high voltage side, which has an arrester in the neutral and a switching device, additionally contains a current transformer in the grounded neutral of the high-voltage windings of the voltage transformer, to the secondary winding of which protection, control units are connected in series and

Switching on with an output to the switching circuit of the switchgear and the protection unit in the open triangle of the additional secondary winding of the voltage transformer with an output to the time relay, the contacts of which are connected to the input circuits of the control unit.

In comparison with the prototype, significant distinguishing features are the use of the current of the ferroresonance process - Ir in the neutral of the high-voltage windings and the zero-sequence voltage - ZOo in the open triangle 7/0 of the additional secondary winding of the voltage transformer, respectively, with the effect on the protection blocks, which in turn act on the series with connected control and switching units, with the action of the latter on switching on the switching device in the neutral of the high-voltage windings of the power transformer.

Fixation of the occurrence of the ferroresonance process in the high-voltage and resonant process in the low-voltage windings of the voltage transformer ensures timely blind grounding, the neutral of the high-voltage windings of the 7/5 ball transformer, which previously had to be isolated in its incomplete phase mode.

Figure 1 shows the proposed device.

Figure 2 shows the control unit of the proposed device.

The device has an isolated neutral 1 of the high-voltage winding 2 of the power transformer tightly connected to the transit power network Z, which is connected to the arrester 4, and a switching device 5. 8, to the secondary terminals of which are connected in series the logic unit 9, the control unit 10, the switching unit 11 of the switching device 5, the additional secondary winding 12 of the voltage transformer, the protection unit 13, the time relay 14.

The device works as follows: in the event of an incomplete phase mode as a result of the interruption of the phases of the power transmission network With the unsuccessful operation of the circuit breakers on the side of the power source at the isolated neutral 1 of the high-voltage winding 2 of the power transformer, a ferroresonance process may occur with the appearance of o, in the dead-grounded neutral 6 of the high-voltage winding 7 of the ferroresonant current (If) voltage transformer, which flows through the primary winding of the current sensor 8, which leads to triggering, connected to the secondary circuits of the current sensor 8, and connected in series, the logic unit 9, the control unit 10, the Hezo Switch-on unit 11 , which leads to switching on the switching device 5 and blind grounding of the neutral 1, which prevents the occurrence of ferroresonance processes and the possibility of thermal destruction of the insulation of the high-voltage winding 7 of the voltage measuring transformer. uh-

Switching on the switching device 5 in the presence of a ferroresonant current (I f) of the neutral 6 of the high-voltage winding 7 of the voltage transformer without delay prevents the appearance of increased voltage on the interrupted phases of the power transmission network З and in the neutral 1 of the high-voltage winding 2 of the power transformer, which prevents - where the arrester is destroyed 4, and arresters located on the side of the high-voltage winding 2 of the power transformer. In addition, the blind grounding of the neutral 1 of the high-voltage winding 2 of the power transformer due to the switched-on time delay switching device 5 ensures the timely appearance in the neutral 1 of a zero-sequence current 31 o, which in turn ensure the effective operation of the relay protection in incomplete phase "modes in comparison with the relay protection , the operation of which is based on the reverse sequence currents in the power transmission network 3, because the specified protection has a weak sensitivity and does not respond to incomplete phase operation of a part of its transformers or all transformers at a voltage lower than the nominal one. ;" Incomplete phase modes on the power transmission network C with the isolated neutral 1 of the high-voltage winding 2 of the power transformer can be the cause of resonance processes with increased voltage on the insulation of electrical equipment, which exceeds the permissible norms during their long-term action on interrupted phases, which - leads to the appearance of voltage in the specified cases zero sequence (ZO 5) on the open additional secondary winding 12 of the voltage transformer. Taking into account the appearance of the indicated voltage in case of asymmetrical short-circuits, switching on the switching device 5 is carried out after the operation of the time relay 14, which is connected -I between the terminals of the protection unit 13, connected to the terminals of the additional secondary winding 12 of the voltage transformer, and the input of the control unit 10. Operation the time relay 14 ensures the inadmissibility of switching on the switching device 5 until the elimination of short circuits in the electrical network.

Ф Instant switching on of the switching device 5 to the neutral 1 of the high-voltage winding 2 of the power transformer in the initial period of the occurrence of the ferroresonance process according to the factor of the appearance of the ferroresonance current (1ф) in the blindly grounded neutral b of the high-voltage winding 7 of the voltage measuring transformer and switching on the switching device 5 to the neutral 1 of the power transformer directly after the minimum necessary time for disconnection of possible short-circuit currents at the initial moment of the development of resonance processes by the factor of the presence of a certain amount of voltage (ЗО 5), as well as the functional dependence of the operation of the control unit 10 and the switching unit 11 of the switching device 5 on the complex and simultaneous interaction of ferroresonance and resonance processes significantly increases the reliability of operation of high-voltage electrical networks.

The use of the proposed device avoids the need for premature grounding of the neutral of the step-down transformer during scheduled switching in supply voltage networks.

Thus, the limitation of ferroresonance and resonance processes, the functional influence of the parameters of the ferroresonance current (If) and zero sequence voltage (ZO) on the operation of relay protection and automation 65 of the high-voltage electrical network provides an economic effect that is from 100 to 150u.0. for 1 million kilowatts.

Thus, the proposed solution meets the criteria of a useful model.

Claims (1)

The formula of the invention is a device for protecting a power transformer with an insulated neutral and an insulation control voltage transformer, containing an arrester located in the neutral, and a switching device, which is characterized by the fact that it additionally contains a current transformer in the grounded neutral of the high-voltage winding 70 of the voltage transformer, to the secondary winding to which the protection unit, the control unit and the switching unit are connected in series with the output to the switchgear switching circuit, the protection unit in the open triangle of the additional secondary winding of the voltage transformer with the output to the time relay, the contacts of which are connected to the input circuit of the control unit. that 2 (Se) (ze) in iv) є - and? - 1 - and (95) 4) 60 b5