RU1820491C - Plasma generator - Google Patents

Abstract

The invention relates to power engineering and can be used to produce plasma in magnetodynamic generators. The purpose of the invention is to increase efficiency when operating in variable modes. The goal is achieved in that in a plasma generator containing a housing with a flame tube 1 installed therein with an axial oxidant supply, on the lateral surface of which there are uniformly placed nozzles 2 in communication with the fuel manifold 3, and nozzles 9 connected to the ionizing additive collector 10, each the nozzle 2 is made in the form of a cup facing the collector 3 with tangential holes 4 in its side wall and is provided with a sleeve 5 in contact with it, mounted to move along the axis of the nozzle 2. 3 ill.

Description

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The invention relates to power engineering and can be used to produce plasma in magnetohydrodynamic generators for power plants.

The purpose of the invention is to increase the efficiency of the process in variable modes.

Figure 1 shows a plasma generator, a longitudinal section; figure 2 - cross section aa in fig. 1; on figs - section bb in fig. 1.

The plasma generator consists of a housing with a flame tube 1, on the lateral surface of which nozzles 2 are made, which communicate with the collector 3, nozzles 2 are plugged. At the end from the side of the collector, and on the lateral surface contain tangential slots 4, and nozzles 2 are provided with bushings 5, rigidly fastened to springs b communicating with the axial displacement mechanism 7. The position of the sleeve is fixed by the mechanism 8. Nozzles 9 are mounted on the housing, communicating with the collector of ionizing additive 10.

The plasma generator operates as follows.

The oxidizing agent moves in the flame tube 1, and the fuel from the collector 3 through the slots 4 enters the nozzles 2, and from there flows into the flame tube 1, where it mixes efficiently, ignites and burns out in the nominal mode, i.e. with a fixed position of the sleeve 5. In the products of combustion from the collector 10 through the nozzles 9 serves an ionizing additive and receive a plasma of the required density.

When the operating mode changes, it changes and, as a consequence, c. In order to provide & when changing the operating mode of var const, dy should be changed in such a way as to obtain h const.

In the inventive generator a, they are changed by moving the sleeve along the axis of the nozzle. The movement is carried out by the mechanism 7 through the spring 6, Position

the bushings are fixed by mechanism 8.

Studies carried out in the Hydrogasdynamics laboratory over a wide range of changes in geometric and operational parameters 0 0-0.80, p 1.0-2.65.

(j 0.01-0.10, FT var, showed that for each value there is a unique optimal FT value at which the mixing quality is maximum.

Claims (1)

The claims A plasma generator comprising a housing with a spherical tube installed therein with an axial oxidant supply, on the lateral surface of which are evenly placed nozzles in communication with the fuel manifold, and nozzles connected to the ionizing additive collector, characterized in that, in order to increase efficiency by improving qualities mixing in variable modes, in it each pipe is made in the form of a cup facing the collector with tangential holes in its side wall and equipped with a sleeve in contact with it, mounted for movement along the axis of the nozzle. / - / 0-s Fie.Z