CS272038B1 - Method of industrial waste depreciation with arsenic compounds content - Google Patents

Abstract

Industrial waste disposal with the content of arsenic compounds lies in it treatment by mixing with plaster, cement and copolymers of vinylidene chloride and butadienetyrene or polyvinyl acetate latex and magnesium sulfate and curing the resulting mixture.

Description

The invention relates to the disposal of industrial wastes containing arsenic and arsenic sulfides, arsenites and arsenates by treatment to a resistant form under defined environmental conditions.

The disposal is effected by treatment of industrial waste by the addition of inorganic and organic additives, allowing the said arsenic compounds to be fixed in a solid block or granules resistant to water and the variable effect of acidity or alkalinity in soils and atmospheric natural conditions.

The fixation of soluble salts and arsenic oxides in the form of only insoluble salts, such as arsenic sulfides, calcium arsenate, ferric sulfide, etc., is insufficient since even a small pH variation under natural conditions converts these salts into a soluble or easily leachable form. Thermal fixation of arsenic to a silicate skeleton requires pure arsenic products and the technology is accompanied by a significant drift of arsenic oxides in glass furnaces.

The disadvantages of these processes are eliminated by a process which converts said arsenic compounds to insoluble arsenic or arsenic sulfide, characterized by considerable insolubility in an acidic, non-oxidizing environment, or into a slightly alkaline environment insoluble calcium, magnesium, ferric, copper or nickel salts. The reduction of leachability and the effect of significant variations in acidity or alkalinity under the original conditions is made possible by the use of inorganic or organic binders of a neutral or slightly alkaline reaction. The arsenic compounds can thus be maintained in a resistant form under varying environmental conditions. Jacket binders are used gypsum slow-setting, anhydrite binder further portland or aluminous cements. Among the organic binders, they are latexes allowing the formation of suitable modified cements with reduced porosity. Copolymers of vinylidene chloride and butadiene styrene or polyvinyl acetate latex were used.

The waste mixed with a suitable binder and processed into granules, in the case of particularly aggressive environments, may still be coated with another mechanically and chemically resistant binder.

Suitable salts, e.g. magnesium, may be added to the mixture ee to prevent the sudden increase in alkalinity in the soil.

Example

The waste containing arsenic compound has the following composition by weight: arsenic moss 5%, diatomaceous earth 50%, humidity 45%, pH 4.5

The 100 kg waste is neutralized with solid calcium carbonate (limestone) to a slightly acidic reaction to pH 6.5. Gypsum in water suspension is added to the mixed mixture in an amount of about 5-10% by weight, and the thin mixture is thoroughly mixed, for example, in a building mixer, the mixer content is spread over a surface to allow the formation of granules of various sizes. The solidification granules are coated with a fine sand cement paste with a vinylidene chloride copolymer suspension content of up to 2% by weight. mixing, eg in a building mixer.

Claims (2)

OBJECT OF THE INVENTION 1. A process for the disposal of industrial wastes comprising arsenic compounds comprising arsenic sulfides, arsenites and arsenates and their insoluble metal salts of calcium, magnesium, iron, copper and nickel, characterized in that the waste containing said compounds is mixed with gypsum, with cement and copolymers of vinylidene chloride and butadiene styrene or with polyvinyl acetate latex, and the resulting mixture is cured, with 0.5 to 1 part by weight of gypsum, 0.1 to 1 part by weight of cement, 0.1 to 0.2% by weight, per 1 part by weight of waste; part of a copolymer of vinylidene chloride and butadiene styrene or polyvinyl acetate latex. 2. A process as claimed in claim 1, wherein 0.02 to 0.05 parts by weight of magnesium sulfate per part by weight of the waste is added before curing of said mixture.