SU850178A1 - Adsorber - Google Patents

Description

(54) ADSORBER

The invention relates to the purification of gases from impurities (drying of gases) using solid sorbents and can be used in gas purification and sorbent regeneration. The adsorber is known, which includes a housing with VHV and gas outlet chambers, a heat exchange device located in the adsorbent layer. However, in the known device, the adsorbent remains stationary during regeneration, which causes the formation of stagnant zones, high flow rate of the purge gas, overheating of the adsorbent layers located near the working body of heat exchange devices reduces the efficiency of the process. The purpose of the invention is to increase the efficiency of regeneration and reduce consumption. purge gas. This goal is achieved by the fact that the adsorber, including the case with the gas inlet and gas outlet chambers, is a heat exchanging device, is provided with a magnetostrictor winding connected to a low frequency alternator and mounted on the outside of the dielectric body, and the heat exchanger is connected to a current source and made of magnetostrictive material. In this case, the camera output. made in the form of a gas-jet acoustic radiator. The drawing is; adsorber, general view. The adsorber includes a housing 1 made of a dielectric, such as fiberglass SPP-1OO. On the outer surface of the housing 1 is placed a winding of the magnetostrictor 2, electrically connected to a low-frequency alternator 3. The adsorber includes chambers 4 and 5 of the gas inlet and outlet made of a dielectric, one of which is made in the form of a nozzle (horn) of a gas-jet acoustic radiator and vibrator 6.

The working body of the heat exchanging device 7 (for example, a coil) is made of a magnetostrictive material, for example nickel, and is electrically connected to the source 8 of a current of industrial frequency. The pipelines for the supply and removal of coolant are made of dielectric. Inside the adsorber contains adsorbents 9, for example silica gel, zeolite, and temperature sensors.

The winding of the magnetostrictor 2 serves to create a low frequency (5-15 kHz) gas inside the adsorber, due to which the working body of the heat exchanging device 7 vibrates. The working body of the heat exchanging device 7 serves to cool the adsorbents in sorption mode, which is necessary to improve their capacity and improve kinetic characteristics, and for heating and vibration of sorbents in the regeneration mode, which leads to a decrease in the time and amount of purge gases per regeneration behavior.

The gas outlet chamber 5, in addition to its direct purpose, also serves to modulate the flow of purge gas by acoustic oscillations,

The adsorber works as follows.

In the mode of sorption, the adsorbent 9 is preliminarily cooled by supplying and circulating coolant through the working body of the heat exchanging device 7.

The gas to be cleaned (dried), is fed through the valve 11 to the adsorber. With the passage of gas through the adsorbents 9, the gas is purified by the sorption of impurities (water) and discharged through the valve 12. At the same time, the vibrator of the gas-jet acoustic radiator 6 does not work.

In the regeneration mode, the coolant from the working body of the heat exchanging device is removed and powered from the source 8. When the adsorbent reaches a predetermined temperature, the heating of the device 7 stops.

Power is supplied to the winding of the magnetostrictor 2 and the purge gas through the valve 12 and the vibrator 6. When power is applied to the winding of the magnetostrictor 2, a low-frequency electromagnetic field occurs inside the adsorber, in which the working body of the heat exchanger 7 vibrates. With the passage of the vibrator 6 and the chamber 5, the gas flow is modulated by acoustic oscillations, and when moving through the adsorbents 9 it heats up to a predetermined temperature evenly along the length of the housing {eber from the working body 7 - the heat source. When the temperature drops below the set point, the source 8 is again connected, when it is reached, it is turned off, etc.

The efficiency of sorbent regeneration in the proposed adsorber rises by 10–20% compared with the known value.

Formula Invention

Claims (2)

1. Adsorber, inclusions housing with gas inlet and outlet chambers, heat exchanger device located in the adsorbent layer, characterized in that, in order to increase regeneration efficiency and reduce the purge gas consumption, it is provided with a magnetostrictor winding connected to a low-frequency alternator and installed on the outer part of the housing made of dielectric, and the heat exchanger device is connected to the current source and made of magnetostrictive material. 2. An absorber according to claim 1, in connection with the fact that the gas inlet chamber is designed as a gas-jet acoustic radiator. Sources of information taken into account in the examination 1. Japanese patent Ni 52-22755, cl. O1 1 53/04, 1977. I Regeneration