DE3620666C2 - - Google Patents

Description

It is known that by ozonization and / or ionization Bacilli, viruses, fungi and germs are made harmless can. Furthermore, it is known that by ionization an additional agglomeration of aerosol particles and / or dust particles are also caused. The disadvantage of this combina tion technology lies in the fact that traces of ozone are broken down can adversely affect humans and animals and the arrangement in small separating devices is not without problems is.

DE-OS 34 05 142 is a method for elimination of smells and germ reduction in hospitals, where a hospital bed suction in a mobile Carriage is housed, the suction smelling, bak  Intake air containing serum and germs via a pre-filter is passed to a downstream fan. The ventila gate presses the air drawn in via an ozonizer and / or a UV tube system, several times recirculating, whereby this by a further downstream fan and / or via a partial delivery by chemical sorption masses odor-free and germ-free in the atmosphere in the room the.

The invention has for its object a method for Separation of dusts, fungi, viruses, germs, bacilli and gaseous and / or aerosol pollutants from air create with which not only kills bacilli, Kei men, fungi, viruses etc. and their separation is possible, but also neutral torn ozone phase strands be settled.

This task is accomplished by those listed in the main claim Features solved.

Those used for the advantageous embodiment of the invention Features are the subject of the subclaims.

Different from the prior art mentioned at the beginning the inventive method detects itself by an additional  Ionization section behind the fan and through a de Finished structure of the multi-layer chemical sorption filter.

The invention is explained in more detail with reference to the drawing, which a sectional view of an apparatus for performing of the procedure.

With 1 the intake manifold of a clean air suitcase device, with 2 the coarse separation filter and with 3 the ozonization section, which is connected upstream of a fan 4 . Through this arrangement in front of the fan 4 , an intensive contacting of the ozone in the fan 4 is generated, with an ionization section 6 of the ozonization section 3 being additionally connected in a flow-through space 5 on the outlet side of the fan 4 , so that agglomeration of the bacilli in this area , Germs, fungi, viruses, etc., which were previously killed by ozonization, take place with the dust particles and in the agglomerated (= enlarged) grain spectrum the number of particles in the subsequent chemical sorption filter 7 is bound sterile with the greatest possible effect. The chemical sorption filter 7 is not only designed for the separation of sterile bacteria, fungi, viruses and dusts, but at the same time also has to fulfill a safety function by neutralizing strands of ozone phases that have been torn through.

This effect is achieved in that in chemisorption filter package among other known chemical sorption layers, such as activated carbon, soda lime, iron (II) and / or iron (III) salts or and / or turf iron ore, preferably in a concentra tion of 80% Fe (OH) 3, as a bed system for ozonization and ionization are connected downstream.

The order of the chemical sorption filter technique is like follows:

• 1. An alkaline chemical sorption layer 7 a , consisting of turf iron ore, pH 11-12, perlite impregnated with sodium potassium carbonate, pH also 11-12, or soda lime, also pH 11-12.
• 2. There follows a layer 7 b , consisting of expanded bodies, preferably expanded calcium aluminum silicate and / or perlite, impregnated with iron III / iron II salts, iron ammonium sulfate salts also being able to be used.
• 3. The layer 7 c consists of a neutralizing layer, preferably activated carbon; layer 7 b is set in a pH value sequence of 1-2, and layer 7 c is in the form of a neutral bed material.

Layer 7 c is a high-performance fine dust filter layer 7 d downstream.

Claims (5)

1. A method for separating dusts, fungi, viruses, germs, bacilli and gaseous and / or aerosol-like pollutants from air by following them in the following order through a coarse separation filter, an ozonization section, a fan, an ionization section and a multi-layer chemical sorption filter, which consists of superimposed bulk beds separated from each other by dust-filtering layers, is passed through, the multi-layer chemical sorption filter used having the following layers in succession as seen in the direction of flow:

• a) first an alkaline layer, then an acidic layer or vice versa, the acidic layer consisting of a bulking agent with a large capillary structure, which is impregnated with iron III, iron II salts or ammonium iron sulfate;
• b) a neutralizing layer and
• c) a fine dust-repellent layer.

2. The method according to claim 1, characterized in that the alkaline layer has a pH of 11-12 and from Soda lime and / or expanded calcium aluminum silicate or Perlite or a similar, porous bulk material with a large ß capillary surface, soaked with a sodium potassium  carbonate solution, and / or turf iron ore (approx. 80% iron III Hydroxide). 3. The method according to claim 1 or 2, characterized in that the acidic layer has a pH of 1-2. 4. The method according to any one of the preceding claims, characterized characterized in that the neutralizing layer of active coal exists. 5. The method according to claim 1, characterized by the following sequence of the chemisorption filter layers:

• 1. an alkaline chemical sorption layer ( 7 a) with pH 11-12, consisting of grass iron ore, perlite impregnated with sodium carbonate, or soda lime,
• 2. an acidic layer ( 7 b) , with a pH of 1-2, consisting of expanded bodies, preferably expanded calcium aluminum silicate and / or perlite, impregnated with iron (III) / iron (II) salts or iron ammonium sulfate salts ,
• 3. a neutralizing layer ( 7 c) of activated carbon and
• 4. a high-performance fine dust filter layer ( 7 d) .