SU585582A1 - Electric hydrodynamic gas-liquid pump - Google Patents

Description

one

The invention relates to the field of electrical energy to mechanical converters and concerns devices for moving gas-liquid dielectric media by means of electrostatics.

Electrostatic (ion) pumps are known for pumping liquid and gaseous dielectric media, the action of which is based on the ionization of the medium and its transfer by the forces of the electrostatic field 1.

Electrohydrodynamic gas-liquid pumps are also known, using the well-known physical effect of drawing a dielectric into an area with an increased electric field strength of 2. This type of pump contains electrodes connected to a power source, immersed in a floating medium. To increase the efficiency, the working environment is repeatedly affected, for which the electrodes are sectioned and the sections are connected to a power source via a step switch, which creates a traveling wave of a non-uniform electric field along the path.

The known electrohydrodynamic gas-liquid pump contains a cylindrical conductive pipeline, a partitioned electrode located coaxially inside the pipeline, and a power source connected to the electrode sections via a step switch 3.

The flow of the liquid phase at the exit of this pump is not ordered, the liquid is mixed with the gas, there is no jet flow for it.

The aim of the invention is to provide an ordered jet flow of the liquid phase at the outlet of the pump.

This is achieved by the fact that in an electro-hydrodynamic gas-liquid pump containing a cylindrical conductive pipe, a partitioned electrode located coaxially inside the pipeline, and a power source connected to the electrode sections through a step switch .

The drawing is a schematic diagram of the pump.

The pump consists of a cylindrical channel

1 of a conductive material, an axial partitioned electrode 2, fixed in a channel on insulators 3 and the last section 4 along the medium motion. The cylindrical channel and the axial partitioned electrode are connected to a high-voltage source 5 through

step switch b. Last section

The axial electrode is connected to the power supply directly (by a switch).

When the power is turned on, an electric ponderomotive polarization force acts on the gas-liquid medium in the pump channel, dragging the liquid in the direction of the potential wave. At the site of the last elongated section, the flow of the medium is arranged: the liquid — the more polarized component of the medium — is drawn by the radial electric field into the central region of the channel, displacing the less polarized component — the gas volumes. As a result of this, the liquid component of the medium leaves the pump in the form of an ordered cylindrical jet, and the pressure pulsations in the working fluid are smoothed out after leaving the pump.

Claims (3)

1. US patent number 3135207, cl. 417-48, 1964. 2. US patent number 3267859, cl. 417-48 1966. 3. “ASME Papers, HT / spT -24, 1970, p. eight.