DE4012982A1 - Removing harmful (in)organic substance from gases - by addn. of finely divided substance with active surface and filtration - Google Patents

Abstract

In freeing gases and waste gases from harful (in)organic substances by addn. of surface-active substances to the gas stream and sepn. on a filter, finely powdered activated Al2O3, SiO2 gel, kieselguhr, finely powdered zeolite and/or similar inorganic substances are blown into the gas stream, gas and solid are mixed, the solid is collected on a flat filter, is left on the filter as a renewable, loose, adsorption layer of adequate depth, and the solids loaded with harmful substances are removed mechanically. USE/ADVANTAGE - Sepn. of Hg, Cd, As, Sb, Tl and other volatile heavy metals, and/or of PCBs, CKWs, dioxines/furans and/or PAKs is claimed. The inorganic adsorbent is non-combustible and thermally stable, and may be loaded with reactive catalysts, e.g. heavy metals, without danger of self-ignition. The hot exhausted adsorbent does not calcify on storage or action of air. Residual contents of the conventional harmful substances are removed.

Description

The invention relates to a process for the purification of gases and exhaust gases of inorganic and organic pollutants by adding surface-active Substances in the gas stream and their deposition on surface filters.

Thermal processes provide release with inorganic and organic Pollutants. Known thermal processes are the incineration of waste from the household and from the industry. Here are the classic ones Pollutants HCl, SO₂ and HF and the ecotoxic pollutants Hg, PCB, CHC, PAH and the chlorinated dioxins and furans (abbreviated hereafter to dioxins / furans).

Compliance with the limit values is not a problem with classic pollutants Problem. Significant difficulties, however, prepare ecotoxic pollutants, especially Hg and the dioxins / furans.

Possible separation methods for the ecotoxic pollutants are the Activated charcoal towers dar. Here, the gas to be cleaned in the last stage passed through a bed of activated carbon form. They are voluminous and vulnerable to fire.

The use of mixtures of Ca (OH) ₂ and activated carbon also leads to good separation rates for the mentioned pollutants. A problem However, this process is the fossilization of the hot used Mass during long storage and air at higher temperatures.

So there is a need for a method that the ecotoxic Pollutants from the exhaust gases accomplished without the mentioned disadvantages. Furthermore, it should also residual levels of classical pollutants be deposited. In addition, a method is sought that the Use of substances with catalytic loading for oxidations, reductions and conversions of all kinds.

The solution of the object of the invention is characterized in that finely powdered activated alumina, silica gel, kieselguhr, pulverulent zeolites and / or similar inorganic substances injected into the gas stream, gas and solids mixed, the solids applied to a surface filter, as a renewable, loose, sufficiently deep adsorption layer leave the filter and the solids from there mechanically with pollutants  be removed laden. Thus, according to the invention non-combustible, thermally stable inorganic Substances used which have a high active surface area. These properties are especially true for activated alumina. It has a widely adjustable active surface, which can range from 20 μm to 1000 μm. Besides, it can be in a fineness be prepared that the grain distribution to 100% less than 22 microns is. Active surface and fineness are adjustable over a wide range.

Preferred areas of the active surface are 40 to 500 m², in particular the area from 50 to 250 m².

The same applies to silica gel, kieselguhr and finely powdered Zeolites. You can by the way of their production and / or by subsequent treatment be conditioned so that they are the claims 2, 3 and 4 of the present invention suffice. With a grain distribution 100% <100 μm gas and solids can be sufficiently good and fast swirl and also deposit on surface filters again.

Tissue filters have proven their worth as surface filters. Depending on the temperature of the exhaust gas are halogen-free plastics, Teflon or at temperatures over 250 ° C metallic or ceramic filters in question.

The inorganic surfactants still have the special Advantage that they are charged with reactive catalysts without the risk of spontaneous combustion. As catalysts the heavy metals vanadium, tungsten, molybdenum, manganese, iron, Nickel, cobalt, copper, tin, zinc and / or titanium as elements or compounds in question. The heavy metals are on the surface active before use Applied substances. There are known methods for this. It is also possible to incorporate heavy metals during production the surfactants, eg. B. in the precipitation of Al (OH) ₃ or silica gel.

With this combination of catalyst and surfactant can be worked multifunctional. Thus, the listed ecotoxic pollutants can be deposited, but at the same time perform reactions. Known reactions are the oxidation of NO to NO₂ or SO₂ to SO₃. Of particular importance is the reduction of NO _x to N₂ with the aid of NH₃. Since reaction surfaces of any size can be offered, the latter reaction is also in the temperature range of 70 to 350 ° C, well below the temperature range of the prior art. This also applies to the high space velocities according to the method.

Should residual contents of HCl or SO₂ be safely separated, Then, according to the inventive method, the inorganic surface-active Substances still pulverulent basic substances, eg. Calcium hydroxide, Calcium carbonate, sodium carbonate and / or sodium bicarbonate, added in such amounts that their content is less than 50%.

In this case, there is a trifunctional sorbent when the surface-active substance is acted upon with catalysts and  basic substances are present at the same time.

The sorption of volatile heavy metals can be significantly enhanced, if the surface-active substances still contain sulfur in fine distribution, sulfides and / or sulfur donors. Sulfur is used as a so-called sulfur flower. It is expediently mixed with the surface-active substances and then to Use brought. The sulfides include H₂S, NaHS, Na₂S, trimercapto-s triazine u. Likewise, instead of the sodium compounds, the potassium and use calcium compounds.

Among the sulfur-donating compounds is mainly sodium thiosulfate, when sulfur or in the presence of acids sulfur in gives fine distribution.

The sulfides and the sodium thiosulfate are preferred as solutions applied the surface-active substances and then dried the mixtures. The addition to the solutions that make up certain surface active Substances are produced, is also possible with success.

Another form of addition is the soluble salts in water dissolved in the exhaust gas flow and bring the solids together with to blow the surfactants against the filters.

The amount of sulfur compounds depends on the concentration the volatile heavy metals in the gas stream and also after the gas temperature. They are usually used in a clear stoichiometric excess. The stoichiometric factor is 1 to 1000, preferably 10 to 100. The higher the temperature the higher the stoichiometric Factor.

When using sulfur or sulfur compounds, it is advisable to add as much Ca (OH) ₂ that all oxidation products in the form of SO₂ can be included. Also oxidation of NO to NO₂ is the presence of basic substances for the binding of NO₂ favorable. The amount of basic substances depends on the temperature and the concentration of NO _x . At low temperatures (eg 20 ° C) and low NO _x no basic substance is required.

Mercury and cadmium are among the volatile heavy metals, then arsenic, antimony and thallium. They can be in elementary form or be deposited as compounds.

Among the most ecotoxic pollutants are the chlorinated dioxins and furans. Furthermore belong the polychlorinated biphenyls and the low volatility chlorinated hydrocarbon, eg. B. hexachlorobenzene and hexachlorocyclohexane, to this group. Finally, too the polycyclic aromatic hydrocarbons, such as benzo (a) pyrene, included as well.

Advantageously, the inventive method for the purification of gases and exhaust gases of inorganic and organic pollutants in the way be applied, that in a first stage essentially a deposition  the acidic ingredients with conventional cleaning methods, eg. B. dry sorption, conditioned dry sorption, spray sorption or wet scrubbing carried out and then in a 2nd stage the further purification of the Exhaust gas takes place according to the claimed method.

Pre-cleaning is part of the state of the art. It serves the distance of dust, the acidic pollutants and proportionately the ecotoxic pollutants. The "fine cleaning", d. H. the removal of the Ecotoxic pollutants can then be advantageous for the invention Procedure done.

The inventive method preferably operates in the temperature range of 20 to 250 ° C, the upper limit of Teflon filters. If ceramic or metallic filters are used, higher temperatures up to 800 and 1000 ° C are possible. This is of considerable interest in particular when operating the NO _x removal process with catalyst-loaded surfactants in the presence of basic species.

The inventive method is used to remove the ecotoxic Pollutants from the waste gases of waste incineration plants, hazardous waste incineration plants, Sewage sludge incinerators. industrial furnaces, Blast furnaces, plants for the smelting of ores and metals, chemical plants, Equipment for surface treatment of metals, for wood treatment (eg drying of chips for chipboard production) as well as of plants the food industry.

In addition to the already mentioned in detail ecotoxic pollutants also the carcinogenic substances of all listed in the TA Luft 1986 Classes and MAK List III and Class I organic substances, II and III are deposited. Highly separable are also the steam and gaseous inorganic compounds of class I, II and III.

Example 1

Over 250 mg of activated alumina (active surface 190 m², particle size distribution 100% <25 μm) at 188 ° C, 10.4 liters of an exhaust gas of the following Conducted composition:

- Nitrogen 80% by volume - oxygen 20 vol.% - humidity 290 mg / l HCl 12.1 mg / l - HgCl₂ 0.72 μg / l

Of a total of 7.5 μg HgCl₂, 6.6 μg were precipitated. This matches with a separation efficiency of 88%.

Is instead of Al₂O₃ silica gel with an active surface area of 320 m² / g used, then the degree of separation is 86%.

Claims (8)

1. A process for the purification of gases and exhaust gases of inorganic and organic pollutants by adding surface-active substances in the gas stream and their deposition on filters, characterized in that finely powdered activated alumina, silica gel, diatomaceous earth, finely powdered zeolites and / or similar inorganic substances in the gas stream blown gas and solid mixed, the solids applied to a surface filter, as a renewable, loose, sufficiently low adsorption on the filter and the solids are removed from there mechanically laden with pollutants. 2. The method according to claim 1, characterized in that the surface-active inorganic substances as finely pulverulent material can be used, the grain distribution is 100% less than 100 microns. 3. Process according to the preceding claims 1 and 2, characterized characterized in that substances are used whose particle size distribution 100% smaller than 50 microns. 4. Method according to the preceding claims, characterized in that that surfactants are used, their active surface 20 to 1000 m² / g, preferably 40 to 500 m² / g, but especially 50 to  250 m², amounts to. 5. The method according to the preceding claims, characterized in that the surface-active substances with sulfur, sulfides or sulfur-emitting substances for binding volatile heavy metals and / or with heavy metals or heavy metal compounds, for. As vanadium, tungsten, molybdenum, manganese, iron, nickel, cobalt, chromium, copper, tin, zinc and / or titanium, to accelerate oxidation or reduction reactions, such as the oxidation of SO₂ to SO₃ or NO to NO₂ or Reduction of NO _x with NH₃ to N₂, are acted upon. 6. Method according to the preceding claims, characterized in that that it is for the deposition of mercury, cadmium, arsenic, antimony, thallium and other volatile heavy metals from the group of inorganic Pollutants and / or PCB's, CHC's, dioxins / furans and / or PAH's is used. 7. Method according to the preceding claims, characterized in that that the surfactants for the binding of acidic pollutants, such as HCl and / or SO₂ solid basic substances such as calcium hydroxide, Calcium carbonate, sodium carbonate, sodium bicarbonate and the like. Like., In such Amounts are added so that their content is less than 50%. 8. Process for the purification of gases and exhaust gases of inorganic and organic pollutants, characterized in that in a 1st stage essentially a separation of the acidic components with conventional cleaning methods, eg. B. dry sorption, conditioned Dry sorption, spray sorption or wet scrubbing and then in a second stage, the further purification of the exhaust gas by the method the preceding claims.