SU329866A1 - Magnetohydrodynamic machine - Google Patents

Description

The invention relates to devices that generate electrical energy, in particular, to liquid metal MHD generators, which are part of magnetohydrodynamic installations.

A known magnetohydrodynamic installation, in which the working medium — liquid metal is heated in a heat source to produce a vapor-liquid mixture, which through a nozzle enters the separator in a wide stream, where it is divided into phases. From the separator, the liquid is directed to the MHD generator, and the vapor through the diffuser and radiator after condensation in the form of a liquid is mixed with the main flow behind the MHD generator, after which the liquid through the diffuser is directed to the heat source.

A disadvantage of the known magnetohydrodynamic installation is the low efficiency, since the kinetic energy of the steamed vapor does not convert a. electrical energy. .

The aim of the invention is to create a magnetohydrodynamic installation of increased efficiency. Goal

This is achieved due to the fact that an injector-condenser, a second MHD generator and a diffuser are installed behind the cooler in front of the heat source, and the steam inlet of the injector-condenser is connected to the outlet of the vapor phase diffuser.

The drawing shows a block diagram of a magnetohydrodynamic installation.

The installation consists of (heat source 1, nozzle 2, separator 3, MHD generator 4 of the first stage, located behind the separator, diffuser 5 of the vapor phase, diffuser 6 of the liquid phase installed behind And DG generator 4, refrigerator 7, injector condenser 8 , MHD generator 9 of the second stage and the diffuser 1O, installed between the MHD generator 9, heat source 1,

In the heat source 1, the working fluid is heated to the vapor-liquid phase, which through the nozzle 2 enters the separator 3 in an expanded stream, where the liquid phase is separated from the vapor phase. From the separator 3, the flow of fluid at high speed enters the MHD generator 4 of the first stage, and from the output of the MHD-gwnerat (into the diffuser 6, in which the static pressure rises, and then to the cooler 7. Then the liquid enters the injector-condenser where it is accelerated and heated by the steam entering the vapor phase diffuser 5. Here the vapor phase also condenses.

The flow of the injector-condenser is directed to the MHD generator 9. of the second stage, where only part of the energy of the liquid flow is converted into electrical energy. Another part of the energy of the fluid flow in the diffuser 10 is converted to static pressure, after which the fluid returns to the heat source 1.

Formula; the invention

A magnetohydrodynamic installation using a single-component liquid metal working fluid, containing a gepla source, a nozzle, a separator, an MHD generator behind it, a vapor phase diffuser and a liquid phase diffuser, a refrigerator that differs from the condenser is installed in front of the heat source, the second MHD generator is mounted to the diffuser, and the steam inlet of the injector condenser is connected ... to the outlet of the vapor phase diffuser.