SU1066427A1 - Inverter substation of power station with magnethydrodynamic generator - Google Patents

Abstract

THE INVERTER SUBSTATION OF THE ELECTRIC POWER STATION WITH A GERMAN-HYDRODYNAMIC GENERATER The apparatuses, to the channel electrodes of which, by their poles, are connected inverter converters connected to the secondary windings of transformers, the primary windings of which are connected via switches to the AC network, one of the inverter converters connected to one AC voltage transformers connected to one AC transformer, each one of the inverter converters connected to the AC network; that 5 in order to increase the reliability of the power plant, between the electrodes to which the poles of one polarity are inverted The transducers connected to one transformer are located along the channel dpine electrodes to which the poles of the same polarity of the inverter converters connected to other transformers are connected.

Description

The invention relates to the field of electrical engineering, in particular, to inverter substation circuits for parallel supplying one AC network from several inverter converters connected to a magnetohydrodynamic (IGD) generator of a power station.

Known inverter substation MHD power plants, formed from the converter units, which have independent connection to the AC buses and on-. multiwinding trans

formator and inverters connected to its windings,

The inverter substation of a power station with a magnetohydrodynamic generator is also known,

the electrodes of the channel whose poles are connected to the inverter

converters connected to the secondary windings of transformers, the primary windings of which are connected via switches to the AC network, and at least two inverter converters are connected to one transformer. Inverters connected to one transformer are connected to the pairs of electrodes of the MHD generator located further along its length. The purpose of the invention is to increase the reliability of the power plant. The goal is achieved by the fact that in an inverter substation of a Power Station with an MHD generator, to the channel electrodes of which, by their poles, are connected inverter converters connected to the secondary windings of transformers, the primary windings of which are connected through switches to an AC network, and at least two inverter converters,. electrodes to which the poles of one polarity of the inverter converters connected to one transformer are connected, along the length of the cable: and there are electrodes to which the poles of the same polarity of the inverter converter connected to other transformers are connected. FIG. 1 is a diagram of an inverter substation for a Faraday type MHD generator; Fig. 2 is a diagram of an invert substation for a diagonal type MHD generator. V. in both cases, the connection of inverters 1, receiving power from the ventilator windings of the multiwinding transformer 2, to the electrodes of the MHD generator 3 is carried out in such a way that between the connection points of the inverter poles of one converter unit formed by the transformer 2 and the inverters 1 of the same polarity the channel length is the connection point of the poles of the same polarity of the inverters that are part of other units. Transformers 2 are connected via switches 4 to AC buses 5, the device works as follows. If necessary, the planned or emergency output for repair of the converter unit by unlocking vypatochatel 4, which the unit is connected to AC current 5, stops the power takeoff at several from each other, small sections of the MHD generator kakapa corresponding to the connection points of the inverters 1 of the disconnecting transducer unit, this adverse effect on the flow mode The e11 and plasm-s of the channel of the MHD generator are not concentrated on one section of the channel, but are dispersed along its length and can be partially or fully compensated for by overloading the current of the blocks remaining in operation, Technical Efficiency of the Invention in comparison with the basic prototype object, the conditional condition of the maintainable inverter substation and the reliability of the entire MHD power station due to the reduction of the adverse effect of the switch-off preamp; MHD channel power with 1agnitogidrodinamicheskim 1eneratoro.m,

IG

Claims (1)

INVERTER SUBSTATION POWER C MAGNITOGIDRODINAMICHESK1Y1 generator to the electrodes of the channel which its poles connected inverter converters connected to the secondary windings of transformers, the primary windings of which are connected via switches to AC power, wherein a single transformer is connected to at least two inverter converter, characterized in that , in order to increase the reliability of the power plant, between the electrodes to which the poles of the same polarity of the inverter are connected -forming attached to the same transformer, the channel length of the electrodes, which are connected to the poles of the same polarity inverter transformers connected to other transformers. formator and inverters connected ι its valve windings.