SU1473819A1 - Device for preparing emulsion ,particularly, air/fuel emulsion for ic-engine - Google Patents

Abstract

Invention m. applied in chemical industry and fire engineering. The purpose of the invention is to increase the efficiency of emulsification. The cylindrical needle 12 is coaxially placed in the turbulator 4, made in the form of a body of rotation. The needle end is made in the form of a spherical thickening 13 and a cone 14. The collector 1 is made annular and connected to the turbulator with the help of tangential channels. Tubes for supplying mixable liquids are tangentially oriented relative to the collector. The spraying nozzle 6 is made in the form of a Lawal nozzle, in which the forming transition surface 7 of the narrowing 8 and the expanding 9 parts are made in the form of a hyperbola symmetry section, and the cone is placed in part 8. With this design, the mixture entering the channels in the form of jets twists. In this case, turbulence occurs with intense cavitation, which contributes to efficient emulsification. Capacity control is carried out by moving the needle and the cone by changing the gap between it and part 8. 2 cp ff, 2 ill.

Description

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1

The invention relates to mechanical engineering, in particular, to power systems for emulsions of internal combustion engines, and can also be applied in the chemical industry, fire engineering and other areas of the national economy.

The purpose of the invention is to exceed the emulsification efficiency.

FIG. 1 shows a diagram of the proposed device; in fig. 2 shows section A-A in FIG. one.

The device contains an annular collector 1 (Fig. 1 and 2), with which the pipe 2 for supplying one liquid and pipe 3 for supplying another liquid are tangentially connected. The turbulizer 4 is made in the form of a body of rotation, its end 5 (fig. 1) is connected to a spraying nozzle 6, made in the form of a Laval nozzle, whose tapering and expanding transition surfaces 7 and 9 in the form of a symmetric hyperbola. The annular manifold 1 is connected to the other end 10 of the turbulator 4 by means of tangential channels 11 (FIG. 2). Coaxially with the turbulator 4 (Fig. 1), a cylindrical needle 12 is installed with the possibility of its longitudinal movement, with the needle end made in the form of a thickening 13 and a cone 14, the latter is placed in the narrowing part 9 of the Lawal nozzle.

The device works as follows.

The tangential nozzles 2 and 3 in the annular manifold 1 are simultaneously supplied with water at a pressure of 2-3 kgf / cm2 and fuel at a pressure of 5-6 kgf / cm2. Here, due to the tangential supply of media and ring twisting, preliminary preparation of the mixture takes place. Then, through the tangential channels 11, the mixture in the form of jets enters the turbulator 4. Here, due to the tangential position of the channels 11, the flow is even more twisted. In this case, turbulence occurs with intense cavitation, which contributes to efficient emulsification. Then the entire flow of the emulsion through the Lawal nozzle enters the suction collector of the engine (not shown). The performance is controlled by moving the needle 12 and cone 14, respectively, by changing the gap between this cone and the tapering part 8 of the Laval nozzle.

Claims (3)

1. An apparatus for preparing an emulsion, for example, a fuel-water emulsion of an internal combustion engine, comprising a manifold with nozzles for supplying mixed liquids, a spray nozzle and a turbulator, made in the form of a rotating body, one of the ends of which is connected to the collector, and the other to the spray nozzle, The fact that, in order to increase the emulsification efficiency, the device additionally contains a cylindrical needle coaxially placed in the turbulator, and its end face is made in the form of a spherical bulge and a cone, the collector is made annular and connected to the turbulator with tangential channels, and the nozzles for supplying liquids are oriented relative to the collector tangentially. 2. A device according to claim 1, characterized in that the spray nozzle is made in the form of a Laval nozzle, in which the tapering and expanding parts of the junction surface are made in the form of a portion of a symmetric hyperbola, and the cone The needle is located in the narrowing part of the Lawal nozzle. 3. The device according to PP. 1 and 2, characterized in that, in order to regulate productivity, the needle is mounted for movement along the axis nozzles. Figg