SU1533609A1 - Inverter installation diagram for mhd-generator - Google Patents

Abstract

The invention relates to the field of the invention relates to the field of electricity, namely to the schemes of inverter installations of power plants with a magnetic hydrodynamic generator (MGDG). The aim of the invention is to increase reliability. The drawing shows a diagram of an inverter unit with an MHD generator 1 of diagonal type. All branches 2 of the installation, containing converters 3 and reactors 4, are combined into groups 5. of electric power industry, namely to the schemes of inverter installations of power stations with magnetohydrodynamic generators (MGDG). The aim of the invention is to increase reliability. Inverter-installation with MGDG 1 diagonal type includes branches 2, containing converters 3 and reactors 4. All branches are combined into groups 5, the poles of the branches of one polarity in which are interconnected at one point 6, which through an additional reactor 7 is connected to a common for the group electrical output 8 MGDG. The converters 3 are connected to the secondary windings of the converter transformers 10, the primary windings of which are connected through the switches 11 to the AC buses 12. Improving the reliability is provided by eliminating the emergency effects on the MGDG from the N-line installation and disabling the emergency inverters without shutting down the MHD generator. 1 il. The connection of installation branches 2 to the MHD generator is connected in such a way that in each group the poles of the branches of one polarity are connected between themselves at one point 6, which through an additional reactor 7 is connected to the common electrical outlet 8 of the MGDG for the group, and the poles of the other pole They are connected to various electrical terminals 9. Transducers 3 are connected to the secondary windings of converter transformers (L U1 Ј0 with cr o with

Description

D) I, the windings of which are prio-single through switches 11 to AC-12 M AC.

The device operates as follows.

The power plant transforms the MGDG direct current into the alternating three-phase current of the receiving power system. The invertor installation is powered from the direct current side from the MGDG, and from the alternating current side from the valve windings of three-winding converter transformers, the network windings of which are connected to the AC buses. The operating modes of the inverters are provided by a quick-acting control system acting on the control angles of the inverters. In emergency modes, a special emergency control system is used, which transforms the working inverters into rectifier, mill mode by a signal exceeding the emergency control inverter of the automatic setting. If it is necessary to disconnect a separate inverter from work, the currents in the group of inverters containing the switchable inverter are redistributed by transferring the remaining inverters of the group to the rectifying mode with a small change in the load current of the MGDG, which is achieved by selecting the required ratio between reactors 4 and 7. Improving reliability MG D-generator is provided by eliminating the accidental effects on the MG Generator from the inverter installation and disabling emergency inverters in a minimum way using emergency control automation of the installation without a general shutdown of the MHD generator. These effects can be practically excluded under the condition that the rate of change of currents in the internal circuits of the inverter installation exceeds the rate of change of currents in circuits including the MHD generator.

A certain ratio between the inductances of the reactors corresponds to a certain ratio of the rates of change of currents in the internal circuits.

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35

40

45

50

 Inverter groups and in the circuits, including the channel of the MHD generator.

The inductances of the reactors (in DC circuits of inverters are limited from below by the fact that in normal established pulsation modes the currents of inverters must be smoothed to a predetermined level, and for short-term disturbances in normal operation the inductance must ensure the switching stability of the inverters. Restriction of inductors of reactors is dictated from above condition limiting the time course of emergency processes in case of elimination of accidents in the inverter installation.

The specific ratio of inductances of the main and additional reactors, under which the conditions specified above are satisfied, is determined by technical and economic calculations. The method of connecting the poles of the branches of the other polarity among themselves and connecting them to one or another of the MGDG terminals is not essential for the operation of the device. In the case when the tensions of the branches in the group chosen according to the conditions of the MGDG operation are close, the poles of the branches of the other polarity can also be combined and connected to the general conclusion of the MGDG.

The invention can be implemented using MGDG diagonal, Faraday and Hall types,

Claims (1)

Invention Formula An inverter setup for a magnetohydrodynamic generator, comprising inverter converters and reactors, forming separate branches, the poles of which are connected to electrical terminals of the generator, characterized in that, in order to increase reliability, all branches of the installation are grouped into one group The polarities are interconnected and, via an additional reactor, are connected to the electrical output of the generator common to each branch group. - to 7 five FS - to n at / (7 for GO / f6 HE P