Abstract
When calculating short-circuit currents in the AC traction network, it is assumed that each of the traction substations receives power from uncoupled external power supply sources with known resistances. In some cases, especially when powering a group of traction substations from a high-voltage power line of a longitudinal power supply, the external power supply system affects not only the magnitude of short-circuit currents, but also their redistribution between adjacent traction substations of the interstation area where this circuit is considered. Such unrecorded redistribution can have a negative effect on short circuit protection. The article considers the equivalent circuit of the traction network, taking into account resistance of the external power supply system. Particular attention is paid to the fact that in replacement circuits of direct and negative sequence value of reduced resistance of one phase of a multiwinding transformer, calculated from the short circuit voltage, does not depend on the connection scheme of its windings. It is noted that in some cases it is difficult to obtain a complete scheme of an external power supply system. Considering that the short circuit in the traction network for the external power supply system is remote, it is proposed taking into account the reference network or traction substations as power sources, from which high-voltage transmission lines power the traction substations. Resistance of the supporting substations as power sources must takes into account connected equivalent power system.Such equivalenting should be carried out by known values of currents or short-circuit powers at the inputs of the reference substation or, if such information is not available, by the rated values of the switched-off currents or powers of the switches of high-voltage line connections.The following power schemes for traction substations are considered: each from its own supporting substation, which is part of an electrically uncoupled external power supply system; from the double-circuit high-voltage line of longitudinal power supply when it is powered from different supporting substations; from the supporting network substation, the traction substation receives power from two lines, and from this the traction substations receive power from two lines in a circle pattern.These three common cases cover all the most common power schemes for traction substations. For each of them formulas are given to determine the resulting equivalent resistance of the external power supply circuit, which should be taken into account in the replacement circuit of the traction network.
Highlights
Especially when powering a group of traction substations from a high-voltage power line of a longitudinal power supply, the external power supply system affects the magnitude of short-circuit currents, and their redistribution between adjacent traction substations of the interstation area where this circuit is considered. Such unrecorded redistribution can have a negative effect on short circuit protection
The article considers the equivalent circuit of the traction network, taking into account resistance of the external power supply system
Particular attention is paid to the fact that in replacement circuits of direct and negative sequence value of reduced resistance of one phase of a multiwinding transformer, calculated from the short circuit voltage, does not depend on the connection scheme of its windings
Summary
I и I , вычисляемые, например, в соответствии с [2, 3, 5]. По этим токам находят токи питающих линий контактной сети, значения которых используются для выбора уставок защиты от коротких замыканий. 1 схема подключения тяговых подстанций к системе внешнего электроснабжения не является единственной и в целом ряде случаев, например приведенном в [6], не обеспечивает требуемой точности. Эти обстоятельства в общем случае влияют не только на значения токов I и I , но и на их соотношения, что А В может негативно сказаться на обосновании выбора уставок защит от коротких замыканий, рассчитанных не для каждого из реальных случаев подключения тяговой подстанции к системе внешнего электроснабжения, а в предположении, что такое подключение осуществлено по схеме, приведенной на рис. Согласно [8] для любого короткого замыкания в общем случае требуется составлять три схемы замещения: прямой, обратной и нулевой последовательности. Обратной и нулевой последовательностей следует выполнять в однолинейном (однофазном) исполнении. В этом случае токи нулевой последовательности отсутствуют, а сопротивления прямой и обратной последовательностей учитываемых элементов одинаковы.
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