DE968846C - Process for reactive power control in line networks fed on one or more sides by means of adjustable phase shifter - Google Patents

Description

The patent 943 963 relates to a method for reactive power control in single or multi-sided fed Line networks by means of adjustable phase shifters, especially capacitors. With schwaeher or normal active and / or reactive load in the network stations or the overall network the stations or power supply units to be compensated by the individual controllers assigned to them smallest compensatory reactive power and / or <üe

Network groups to be compensated for by group controllers to the lowest compensation reactive power requirement and / or the best voltage support can be regulated. At the same time there is a central control device provided by the in particular for the

In the area of strong active and / or reactive load, the entire line network is regulated to the smallest Compensation reactive power requirement takes place. The facility used for the procedure is im the rest designed so that the central control

ao processing only after a period that is sufficient for control by the individual and group controllers has elapsed Time comes into effect and, when it becomes effective, the individual or group controllers continue to work locks.

as It is known in devices for self-acting Voltage regulation of AC trunk lines along the transmission line to the individual Branch offsets to provide compensation devices that operate synchronous slides.

If a station fails, an or several of the usual compensation devices can be used for compensation. It finds here a compensation in the event of a station failure

via the other stations via their associated display devices.

According to the invention, the method according to the main patent can still be designed in such a way that the central control device as a voltage regulator

is trained and used for this purpose, when their response value is exceeded, those in the network stations phase shifter that has not yet been used to regulate the voltage. The controls in the Network stations themselves can be reactive power regulators or voltage regulators.

There is thus the advantage of voltage fluctuations that occur for whatever reason centrally on the overhead line despite the individual compensation devices in the course of the long-distance line to regulate.

In the drawing, a device according to the invention for a ring network with stations A, B and C is illustrated as an exemplary embodiment. Each of the stations is assigned a number of capacitors C ₁ , C ₂ , C ₃ , etc., the use of which is controlled by the station regulators a, b and c , which are assumed to be reactive power regulators. The central controller causes d _b by closing its contacts e _a, e or e _c a reallocation of the contactor relays f _a, f b and f _c such that the station controller is stopped and regulated by that capacitors are now being used by the central controller d, insofar as this has not already happened through them. The various stations are used by the central controller as required. In the exemplary embodiment, the capacitors of station C are switched on by closing contact e _e and, if this is still necessary, those of station B are switched on by closing contact e _b and, if necessary, by closing contact e _a, finally also those of the Station A. The contacts e _c and e _b are assumed to be already closed in the embodiment shown in the drawing, while the contact e _{a is} still open.

If the capacitors are already switched on by the station controller a, b or c, the central control device d naturally only results in a connection of the. Capacitors not yet used. For example, in the stations B and C, only the capacitor C _1, .4 station nor the capacitor C ₃ would be to switch on, respectively. Since it is generally to be expected that some of the capacitors will already be switched on by the station controller when the central control device d responds, the auxiliary contactors can also be designed from the outset so that they can only cause some of the station capacitors to be switched on. These capacitors will then suitably be those whose activation would only be brought about by the station controller at a later stage, i.e. capacitors C ₂ and C ₃ for station A _{, and capacitors C 2} , C ₃ and C ₄ for stations B and C, respectively .

Claims (2)

PATENT APPLICATIONS: 1. Procedure for reactive power control in single or multi-sided fed line networks by means of adjustable phase shifters, in particular capacitors, according to patent 943 963, thereby characterized in that the central control device is a voltage regulator through which when exceeded of its response value the phase shifters not yet used in the network stations can be used for voltage regulation. 2. Device for performing the method according to claim 1, characterized in that the central control device switches only part of the capacitors of each station, preferably those assigned to the later stages of the station controllers themselves.