DE896042C - Process for the desorption of loaded adsorbents - Google Patents

Description

Process for the desorption of loaded adsorbents To adsorbents such as Silica gel, aluminum hydroxide, charcoal, sugar carbon, bone charcoal, blood charcoal, etc., from the adsorbent, such as gas, liquid, dye, etc., to be freed again and again In order to make it active, the mostly created by capillary condensation is heated reversible surface connection. However, repeated heating is the adsorbents harmful.

The invention is that the loaded adsorbents one Force fields of the electromagnetic frequency spectrum are exposed in which the Surface tension. be balanced between adsorbent and adsorbendum.

In the case of coal types and their refined products, z. B. the short wave a frequency of 30,000 kHz corresponding to = 10 m applied.

In addition to the abolition of mutual surface plans, z. B. against water, there is a heating as a result of excited dipole moments and induced polarizations.

The adsorbent is heated here. from the inside out, starting at the end of the micro- and ultra-microcapillaries that are decisive for adsorption. The immediate consequence is the expulsion of the liquids trapped in the capillaries and vapors, gases, etc.

While adsorbents, the z. B. have sucked up a liquid, often have to be heated well above their boiling point, this is the case with the process according to the invention not required.

The invention can also be applied in all cases where from a solution that Solvent has been more strongly adsorbed than the dissolved body.

Experiments showed at the interface between adsorbent and adsorbent particularly rapid heating and evaporation. This is due to the Skin (skin) effect. The consequence of this is a preferential concentration on all bumps of electrical energy. In the experiments, this led to discharges and spontaneous ones Gas formation. The consequence of this, in turn, is the expulsion of the deposits and systems ments from the adsorbents.

A beneficial effect of the waves of the electromagnetic frequency spectrum is also the reduction of internal friction in the capillary-active system. This explains from the fact that the molecular complexes when reaching threshold values from the shift of the molecular charges z: must tear.

Tests have shown that the surface forces caused spatial orientation and grouping of the adsorbed molecules abolished is reached when, especially within active surfaces, threshold values are reached and the charges are reversed.

They should be used in particular within the electromagnetis In the frequency spectrum, the shortwaves, the ultra-shortwaves, the medium and the longwaves. The finer the structure of the adsorbents, the higher the frequency should be and the shorter the wavelength.

The invention is further characterized in that the adsorbents so moved in the force field of the waves of the electromagnetic frequency spectrum that vapors and liquids can escape easily and without reloading desorbed adsorption bodies can escape.

According to the invention, the adsorbent in the short wave fields etc. is low-frequency exposed to mechanical vibrations, so that. the individual components z. Am held a constant shaking movement and in the field back and forth or up and down to be moved. The same or similar movement is also achieved by falling or the adsorbents slide between vibrating walls.

The cascade can also be used in place of such vibrations become, part of which by trickling of the adsorbents from stage to stage dreary wave Wave a continuous reversal and rolling of the same takes place.

In the case of valuable adsorbents, circulation can also be used according to the invention done by means of compressed air.

A great advantage here is that the air with the dielectric constant I absorbs little energy from the shortwave field. The air also takes the dem Adsorbed moisture, etc. with away.

Oscillating walls, cascade falls and air turbulence can be used depending on the purpose can be used individually or together.

- Vertical or horizontal rows can be used to increase performance be created side by side by oscillating walls and cascades. Rows can also are brought into effect on the adsorbent by vortices next to each other.

Oscillating walls, cascades and air eddies can be used at the same time to promote serve the adsorbents.

The speed of throughput through the shortwave field depends from the respective Bledbedingungen, z. B. on the size of the saturation value of the Adsorption.

Claims (6)

PATENT CLAIMS: 1. Process for the desorption of loaded adsorbents, characterized in that the same with waves of the electromagnetic frequency range from 300,000 MHz to 30 kHz. 2. The method according to claim 1, characterized in that the adsorbents be moved in the wave field. 3. The method according to claim I and 2, characterized in that the Adsorbents exposed to mechanical vibrations in the wave field will. 4. The method according to claim I to 3, characterized by vibrating Promotion of adsorbents in the wave field. 5. The method according to claim I to 4, characterized by air circulation of the adsorbents in the wave field. 6. Device for performing the method according to claim I to 5, characterized by the arrangement of rows of swinging vertical or ' horizontal floors with an intermediate adsorbent.