SU447808A1 - The method of automatic control of booster unit with transverse emf - Google Patents

Description

This invention relates to the toning of energy sources.

It is known that in order to increase the efficiency of operation of heterogeneous networks for the purpose of redistributing the active power fluxes, which are distributed almost in accordance with the inductive resistances of the grid sections, use of booster units of transverse E.D.S. These units can be connected to the neutral of communication transformers of networks of various voltages, and can also be included directly in the circuit of electric networks.

The control of these booster units is carried out manually, however, in this case, the efficiency of the electrical networks is not sufficiently high, as the emf is necessary. not aligned with the flow distribution in electrical networks (mainly transit flow).

The purpose of the invention is to improve the efficiency of operation of heterogeneous networks.

This is achieved by measuring the voltage of one of the networks and the active currents of each of the networks, E.D.S., proportional to the measured currents, collinear with voltage and opposite to each other in phase, with proportionality coefficients that take into account the required distribution of active currents between non-uniform grids, are summed up and, depending on the received signal, they regulate the aggregate with transverse

E.D.S.

The proposed method is illustrated in the drawing, where I is the autotransformer of communication of networks of two voltages; 2 - booster unit, introducing into the circuit the cross-section of the E.D.C .; 5 - a network of one degree of heterogeneity; 4 - a network of a different degree of heterogeneity; 3 - automatic voltage regulator of the transformer of booster aggregate with transverse emf; 6 a device that compensates for the change in voltage in the electrical network at the measuring body of the regulator; 7 - device forming emf with a certain coefficient of proportionality with respect to the active current of one of the networks; 8 - the device forming the second emf, proportional to the active current of the second network; 9 device, forming the emf, proportional to the active current of the local load; 10 - software device that takes into account the daily change in intermediate loads. Automatic regulation of the flash booster unit is performed as follows. If the current TI of the network 5 increases beyond the desired one, the voltage regulator 5 perceives this as an increase in voltage, since the phase emf, formed by element 7, is proportional to this active current, c With the phase of the voltage supplied to the measuring unit of the regulator 5, the voltage regulator will act and change the regulating unit 2 in the direction of decreasing the current Pi and increasing the O network 4- New equilibrium state TC for a given ratio between the currents 3 a For the corresponding optimal mode in When deviation 7) 2 for example, its increase, the regulator yap. 5 and the booster unit L will take it as a decrease in voltage, as the Evd.s. opposite to the voltage applied to the measuring body of the regulator 5. The regulator will act in the opposite direction. The change in voltage in the network is compensated by the emf generated by element 6, and the effect of intermediate loads of a heterogeneous network on its mode is taken into account either by introducing a special emf proportional to the active currents of intermediate loads (device 10) or by software task (device 9) "The proposed method is simple to implement and does not require special equipment. PREV1-1T TREATMENTS A method of automatic control of a bolt-breaker unit with a transverse electromotive force that serves to connect heterogeneous networks, characterized in that, in order to increase the efficiency of network operation, the voltage of one of the networks and the active currents of each of the networks are measured , and EvD.s, proportional to the measured currents, colinear with non-contraction opposite to each other in phase, with proportionality coefficients that take into account the required distribution of active currents between non-uniform networks, sum up and B dependently from the received signal, the unit is controlled with a transverse emf.