SU928508A1 - Device for overvoltage protection of transformer with insulated neutral wire - Google Patents

Description

(5) DEVICE FOR PROTECTING A TRANSFORMER WITH INSULATED NEUTRAL VOLTAGE

one

The invention relates to relay protection and can be used to protect transformers with insulated neutral against overvoltages in networks with effective neutral grounding.

A device for protection against overvoltages of multiphase circuits is known, which improves the protective characteristics of interphase overvoltages and contains highly linear resistors connected between the phase-wires and the ground, each made in the form of two series-connected parts, the midpoints of which are interconnected through spark gaps that are connected along a star with an isolated neutral circuit, with the breakdown voltage of the spark gaps chosen by a large voltage, the arrival of a spark in a long operating time The press on the parts of the resistors connected to ground, and the breakdown voltage of two series-connected spark gaps were chosen not to exceed the limit of interfacial overvoltages.

Claims (2)

The disadvantages are that in high-voltage networks with effective neutral earthing at high levels of internal overvoltages, the presence of two highly linear resistors and spark gaps between the phase conductors connected in series, does not provide the necessary efficiency of limiting the interphase overvoltages, and each phase wire and ground high-linear resistors designed to work without spark gaps, also less effectively limit phase overvoltages by comparing With protective electrical characteristics of magnetic-emulsion arrays. In high-voltage networks with effective neutral earthing at high levels of short-circuit currents, the application efficiency of highly non-linear resistors is very limited due to the insufficient transmission capacity from the point of view of thermal effects and the necessary protective electrical characteristics. At the same time, large electrical equipment is required. overvoltages and short-circuit currents in modern, branched, high-voltage networks of high power with efficient The grounding of the neutral eliminates the possibility of the device operating in a function of emergency conditions in power systems. Closest to the invention is a device for earthing a neutral transformer, reducing dangerous internal overvoltages between phases to earth and in the neutral of a power transformer, as well as limiting short-circuit currents, which contains an arrester connected between the transformer neutral and earth, a saturated reactor winding the alternating current of which is included in the neutral winding of the power supply of the transformer, and the control winding is connected to a direct current source, a protective gap and a current transformer in During an alternating current winding, a fast-acting automaton, the closing contact of which is connected parallel to the spark gap, and the disconnecting contact is connected to the constant-current control winding circuit 2. The disadvantages of this device are the impossibility of ensuring the necessary efficiency of reducing internal overvoltages between phases due to the technical exclusion of their timely limitation in the initial period of development after phase overvoltages of regulated values, especially and emergency portions networks compartments with reduced the efficiency of the neutral grounding, lack of functional dependencies between the line and phase overvoltage E, contributing to lower overall level overvoltages resulting in insufficient reaction time between the operation of the device elements. The purpose of the invention is to provide a complex limitation of overvoltages on transformer elements. The goal is achieved by the fact that a device for protecting a transformer with an insulated neutral against overvoltages, containing a gaiter from series-connected sections, connected between the neutral of the transformer and the ground, is provided with gaps connected to the mains phases, and these gaps are connected to a star, neutral which is connected to the junction point of the sections of the said bit. The drawing shows a diagram of the device. The device contains a surge 1 connected between the neutral of the transformer 2 and the ground, the discharge 1 consists of sections, for example, two 3 and, each of which can include a spark gap and a nonlinear resistor, the disconnectors 5-7 are connected to the mains phases , respectively, 8-10, the connection to the star, the neutral of which is connected to the junction point of sections 3 and of the surge arrester 1, the transformer 2 is connected to the network. using the switch 11. The device operates as follows. If emergency conditions occur in networks of 110–150–220 kV with effective neutral grounding, there may be a loss of electrical communication with the power system of a number of power transformers with previously insulated neutrals of their high-voltage windings, which brings the separated part of the electrical network closer to the mode of networks with fully insulated neutrals. power transformers, similar to networks of 3-35 kV, and therefore dangerous, completely unacceptable, to isolate electrical equipment 110-150-220 kV of overvoltage to the result unbalance outages continuity wires electrostatic effect Nij winding high voltage on the low voltage winding, asymmetric short circuit current, peremeschayuschihs electric arcs, and ferroresonant phenomena kilometricheskih effects. To eliminate the likelihood of the above list of technical factors contributing to the development of accidents as a result of the separation of a single electrical network with effective neutral grounding into separate network areas that have the most power transformers with insulated neutrals of high-voltage windings, the operation of .kJ elements connected between phases and the earth provides simultaneously the actuation of the element 3, installed between the neutral of the high-voltage windings and the earth, at low voltage, because then, after the element k triggers, the entire voltage applied to the neutral acts on the remaining element 3, which works almost simultaneously with the element. Thus, under the influence of internal overvoltages, the operation of the arresters k-7 between the phases and the earth naturally reduces the resulting the installation of the triggering of the discharge 1 in the neutral of the high-voltage windings of the power transformer, and this just ensures the permanently deaf earthing of the previously insulated neutral of the power transformer The resultant trigger 1 at the same time as the workings of the arrays 5–7 ensured the complete elimination of the possibility of developing the possibility of emergency operation, the occurrence of resonant and especially ferroresonant processes, i.e. complex reduction of internal overvoltages of the linear, phase and neutral of the specified transformer based on precisely functional 6 communication between the elements of the arrays 5-7 and 1. The invention makes it possible to increase the reliability of electrical networks with effective neutral grounding both by limiting overvoltages and simultaneously automatically neutralizing the high-voltage winding of a power transformer, which limits the development of emergency processes. Apparatus of the Invention: Protecting a transformer with an insulated neutral against overvoltages, containing a discharge switch from series-connected sections, connected between a transformer neutral and earth, characterized in that, in order to provide a comprehensive limitation of overvoltages on transformer elements, the device is equipped with dischargers connected to the phases of the network, and these arresters are connected in a star, the neutral of which is connected to the junction point of the sections of the above mentioned arrester. Sources of information taken into account during the examination 1. USSR author's certificate No. 603029, cl. H 01 T 5/00, H 02 H 9/06, 1975. 2. USSR author's certificate number 550713, cl. H 02 B 1/16, H 02 H 9/02, 197 (prototype).