SU1181991A1 - Electrogasodynamic device - Google Patents

Abstract

1. ELECTRO-GAS DYNAMIC: A device for obtaining a radio-electronic device containing electrodes connected to a high-voltage 4-volt alternating current source, one of which is made in the form of an impeller rotatably, characterized in that in order to increase the ozone output by increasing the barrier capacitance and ensuring optimum energy a single discharge, the edge was made with flat blades, and the second electrode was made in the form of a grid of conductive material, covered with a dielectric, and installed in front of the impeller in parallel loskosti its rotation. (I'm with

Description

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2. A device for producing ozone, characterized in that the ratio of the working area of the Invention relates to devices intended for the electrosynthesis of substances, in particular ozone, and can be used in agriculture, as well as in chemical and food industry. The purpose of the invention is to increase the ozone yield by increasing the barrier capacitance and providing optimum single-discharge energy. FIG. 1 shows a diagram of an electrogasdynamic device; in fig. 2 shows section A-A in FIG. 1. The device contains an electrode 1 in the form of a grid of conductive material coated with a dielectric, an impeller electrode 2 with a flat profile mounted in the housing 3. The electro impeller 2 is seated on an axis 4, which rotates in bearings 5 and 6. The device operates as follows . A high AC voltage from the IVN source is applied to the electrodes 1 and 2, and it is advisable that the housing 3 and the impeller electrode 2 be grounded. The arising as a result of the discharge of the electric wind drive the electrode-blade 2 and rotate from it normally to (Tops of electrode 1. The gas charged by the impeller is electrically discharged in the discharge gap and enriched with ozone. The laboratory sample EGD- The device consists of a grid electrode with a diameter of 106 mm, made of a wire coated with a dielectric (glass) with a diameter of 1.5 mm (the grid window area was 9 mm, which, for the specified wire sizes, provides the ratio the working surface, occupied by the grid, to the full surface, occupied by an electro-grid, –l l 0.65), electrode — krish

The spacing of the grid electrode to the total area of the grid electrode is 0.65. Caps with a diameter of 103 mm, with eight blades made of stainless steel with a thickness of 0.8 mm, and cases with an internal diameter of 106 mm made of aluminum. At a voltage of 10 kV, the specified sample of an EHD device provided an ozone productivity of 1.4-1.6 g / h, which is almost twice the performance of a known EHD device. Electric ozone output was more than 200 g / kWh, which indicates the high efficiency of the device. It should be noted a significant increase in power on the impeller shaft, which can be used to perform additional work. - With this electrode system, the barrier capacitance is increased by using the entire end surface of the blades of the rotating impeller. When the impeller rotates, the discharge occurs over the entire surface of the grid electrode, i.e. the effective area of the discharge increases. This leads to an increase in the number of single impulses of discharges, as well as to a decrease in the energy of a single impulse, the optimal value of which should be 1-0.5-10 J / mm. When using an impeller electrode, there are no conditions for localizing the discharge. The characteristics of the electrical grid cell depend on the aerodynamic drag as well as on the barrier capacitance. Aerodynamic resistance and barrier capacitance increase with an increase in the surface occupied by the grid. In addition, the aerodynamic resistance depends on the thickness of the wire coated by the dielectric from which the electric grid is made. The coefficient of heterogeneity of the electric field strength in the discharge gap depends on this parameter. It was established experimentally that the ratio of the working area of the grid electrode to the total area of the grid electrode is 0.65. At the same time, the diameter of the wire of the grid with the dielectric should not be less than the thickness of the end of the blade of the electrode impeller ... The electrode grid of this design of the EHD device is actually one of the plates of the capacitive system consisting of this electrode and the turntable itself. systems does not depend on the area they occupy (i.e., the total fictitious area), but on the area that is actually (i.e., the effective working space occupied by the conductive part of the electrode,

in this case, the area is occupied by wires, forming a grid. The ratio of the effective working surface to the fictitious (full), i.e. including the area of wires and voids, is 0.65. With an area ratio of 0.65, the spinner will not rotate. If the grid electrode has large cells, i.e., the area ratio: 0.65, the system capacity will be greatly reduced. The electrical selection of the parameters of the grid electrode showed that the best ratio in terms of performance is - O (55.

Claims (2)

1. ELECTROGAS-DYNAMIC DEVICE for producing ozone containing electrodes connected to a high-voltage source of alternating current, one of which is made in the form of an impeller with the possibility of rotation, characterized in that, in order to increase the ozone yield by increasing the barrier capacity and ensuring optimal single discharge energies , the impeller is made with flat blades, and the second electrode is made. in the form of a grid of conductive material coated with a dielectric, and is installed in front of the impeller parallel to the plane its rotation. (L s 2. A device for producing the shielding of the grid electrode to full ozone, which differs in the area of the grid electrode equal to the ratio of the working plane of 0.65.