SU626786A1 - Heat-mass-exchanging apparatus - Google Patents

Description

The invention relates to heat and mass transfer apparatus for gas (liquid) - liquid interaction processes and can be used, for example, for absorption, rectification processes, as well as in the chemical, food and other industries. A heat and mass transfer apparatus is known, containing a perforated container with a spaced one; above it is a perforated movable disk, and a drive in the form of a float ij. In this apparatus, the process does not proceed efficiently enough, which is explained by the absence of intense oscillations in the liquid-gas medium. The aim of the invention is to intensify the process of heat and mass transfer by creating in the gas-liquid reactor a device of intense oscillations and the action of a magnetic field. The essence of the invention lies in the fact that the drive is made in the form of flat inductors placed between the plate and the disk. The drawing shows the proposed device. Inside the cylindrical body 1 of the apparatus between the sleeves 2 are perforated plates 3, over which are mounted movable discs 4. Flat inductors 5 are placed between each plate and movable disc. The inductors and disc are made of a material, such as copper, with low electrical resistance. The inductor is insulated by wires 6 connected to the energy storage 7 and the charging and switching device 8. The charging device consists of a step-up transformer and a rectifier. Dischargers or ignitrons are used for switching. The energy storage device consists of a capacitor bank. The device works as follows. A gas (light liquid) is fed into the apparatus from below, and a liquid from above. When a pulse current passes through the inductor 5 between it and the disk 4, a high-intensity magnetic field is created. During a short pulse, the electromagnetic field of the inductor 5 and induced currents in the disk 4 interact. As a result of this interaction, the piston first moves upwards with an acceleration of about 10 m / s, which creates a sharp pressure increase in the bubbling zone above the piston and a sharp decrease in pressure in the ion below piston, which contributes to. gas suction from the bottom up, i.e. the loss of gas pressure on the plate is partially compensated for and conditions for the formation of cavitation, highly turbulent processes are created. In the zone above the disk, gas and liquid interact at high peak instantaneous pressures. After the current impulse stops, the disk, reaching the top lifting point, is lowered by gravity down onto the inductors, after which the process is repeated. Voltage pulses are applied to the inductors at certain time intervals.

Claims (1)

1. USSR author's certificate 453163, cl. B 01 D 3/30, 1972. / (At JiVpvspch,  I№udiioernt