RU97111794A - SERIAL COMPENSATOR INTRODUCING REAL AND REACTIVE IMPEDANCE TO THE POWER SUPPLY SYSTEM FOR SUPPRESSING POWER VIBRATIONS - Google Patents

Claims (18)

1. The device (11) sequential compensation in the line with improved ability to suppress fluctuations in the line (5) transmitting electric power of alternating current with a selected value of the transmitted line voltage and fundamental frequency, containing
compensation means (13) connected in series with the transmission line and introducing into the transmission line (5) compensation voltage of the fundamental frequency with adjustable amplitude and phase angle relative to the current of the transmission line,
power exchange means (27) connected to the transmission line (5) via compensation means (13), and
a control unit (21) that regulates the adjustable amplitude and phase angle of the compensating voltage for introducing the selected reactive and virtual active resistance into the transmission line to suppress vibrations and connecting power exchange means (27) with compensation means (13) for virtual active resistance using means ( 13) compensation.  2. The device according to claim 1, characterized in that the power exchange means (27) contains at least a positive active resistance (37).  3. The device according to claim 2, characterized in that the positive active resistance (37) contains resistive means.  4. The device according to claim 1, characterized in that the power exchange means (27) contains positive and negative active resistance, and the control unit (21) connects the positive and negative active resistance with compensation means (13) for supplying a virtual positive to the transmission line active resistance and virtual negative active resistance.  5. The device according to claim 1, characterized in that the power exchange means (27) comprises at least negative active resistance means.  6. The device according to claim 1, wherein the power exchange means (27) comprises storage means (31) that alternately accumulates active power taken from the transmission line (5) by compensation means (13) during positive half-periods of power in the transmission line ( 5), and gives active power to the transmission line (5) through compensation means (13) during negative half-periods of power, during power fluctuations in the transmission line (5). 7. A serial compensation device in a line with improved ability to suppress vibrations in a transmission line (5) of alternating current electric power with a selected value of the transmitted line voltage and fundamental frequency, comprising
switching means (13) for converting power, connected in series with the transmission line (5), and introducing into the transmission line (5) a compensating voltage of the fundamental frequency with adjustable amplitude and phase angle relative to the alternating current of the transmission line (5);
power exchange means (27 '), including at least positive active impedance means (37), and
a control unit (21) that regulates the adjustable amplitude and phase angle of the compensating voltage for introducing the selected reactive and virtual active resistance into the transmission line (5) to suppress vibrations, and the virtual active resistance is supported by the power exchange means (27 ') and the reactance is generated inside the switching power conversion means.  8. The device according to claim 7, characterized in that the means (37) of positive active resistance contains resistive means.  9. The device according to claim 7, characterized in that the power exchange means (27 ″) contains positive and negative active resistance means (47, 43).  10. The device according to claim 9, characterized in that the control unit (21) is designed to alternately connect means (47, 43) with switching means (13) for converting power.  11. The device according to claim 9, characterized in that the power exchange means (27) comprises storage means (31) which is designed to absorb active power from the transmission line (5) through the power conversion switching means (13) to provide positive active resistance during positive power surges in the transmission line (5) and supplying active power to the transmission line (5) through the power conversion switching means (13) to create a negative active resistance during the negative power surges in the transmission line (5).  12. The device according to claim 9, characterized in that the storage means (31) comprises a storage battery.  13. The device according to claim 1, characterized in that the storage means (31) comprises a superconducting magnet.  14. A method of sequential compensation in a line with improved ability to suppress fluctuations in an AC electric power transmission line (5) with a selected line voltage and fundamental frequency, characterized in that the compensation means (13) are connected in series with the transmission line (5) for introducing to the transmission line (5) of the transmission of the compensating voltage of the fundamental frequency with adjustable amplitude and phase angle relative to the alternating current in the transmission line (5), selectively connect the power exchange means (27) to the line (5) only through compensation means (13), and adjust the adjustable amplitude and phase angle of the compensating voltage to introduce selective reactive and virtual resistance into the transmission line (5) to suppress vibrations, and selectively connect the power exchange means (27) to means (13) compensation to provide means (13) compensation of virtual active resistance.  15. The method according to 14, characterized in that at the stage of selective connection of the power exchange means (27) selectively connect the resistive means (37) to the line (5) only through the means (13).  16. The method according to 14, characterized in that at the stage of selective connection of the specified means (27) power exchange selectively connects the means (47, 43) of positive and negative active resistances with means (13) of compensation, so that the means (13) of compensation provided virtual positive active resistance and virtual negative active resistance for transmission line (5).  17. A method of sequential compensation in a line with improved ability to suppress vibrations in an AC electric power transmission line with a selected line voltage and fundamental frequency, characterized in that the compensation means (13) are connected in series with the transmission line (5) for insertion into the line ( 5) transmitting the compensating voltage of the fundamental frequency with adjustable amplitude and phase angle relative to an alternating current in the transmission line, use the power exchange means (27), which contains means active resistance, and adjust the adjustable amplitude and phase angle of the compensating voltage to introduce the selected reactive and virtual active resistance into the transmission line (5) to suppress vibrations, and the virtual active resistance is supported by the power exchange means (27) and the reactance is generated inside the switching means ( 13) power conversion.  18. The method according to 17, characterized in that at the stage of using the means (27) for exchanging power use the means (31) of energy storage, while at the stage of regulation, the amplitude and phase angle of the compensating voltage are regulated so that the means (31) absorb active power from the transmission and supply line (5) to the active power transmission line (5) by switching the power exchange means (27) to provide negative active resistance during negative power surges in the line AI (5) transmission.