RU2023673C1 - Method of sewage treatment from iron ions and nonferrous metals - Google Patents

Abstract

FIELD: sewage treatment. SUBSTANCE: sulfuric acid sewage are subjected for treatment with defecated juice - a waste of sugar production at the ratio liquid:solid = 100:1-5. Purification degree as iron, lead and antimony is 99.3; 99.995 and 99.5%, respectively. EFFECT: improved method of sewage treatment. 1 tbl

Description

 The invention relates to methods for purifying industrial sulfuric acid wastewater from salts of heavy non-ferrous metals and can find application in enterprises of the electrical industry, as well as in non-ferrous metallurgy.

 The problem of neutralization and wastewater treatment in a modern industrial enterprise arises in connection with the need to address the issue of environmental protection. Wastewater of electrical and metallurgical plants contain a significant amount of sulfuric acid, lead compounds and other non-ferrous metals, it is obvious that such waters require the organization of its purification from harmful impurities.

The closest in technical essence and the achieved result is a method of treating wastewater from iron and non-ferrous metals, including treatment with a reagent containing calcium oxide with subsequent separation of the precipitate formed. As a reagent containing calcium oxide, epichlorohydrin production wastes are used in an amount of 1-3 wt.% Of the following chemical composition, wt.%:
Calcium Oxide 0.5-1.0
Calcium Chloride 2.5-3.0
Sodium Chloride 2.5-3.0
Glycerin 0.05-1.00
Dichlorohydrin 0.05-1.00
Water is the rest.

 The proposed method is used for wastewater treatment from iron, copper and zinc.

 The disadvantage of this method is not sufficiently complete wastewater treatment from iron. When the initial concentration of iron in wastewater is 34 mg / l, the residual concentration ranges from 0.45-4.6 mg / l, which significantly exceeds the value of the residual concentration when using the proposed method.

 The aim of the invention is to increase the degree of purification of sulfuric acid wastewater from compounds of lead, antimony and iron.

 Sulfuric acid wastewater is treated with a calcium-containing reagent-precipitant, which is used as a defect-waste sugar production containing 0.5-6.0% sucrose, and the precipitation is carried out at a ratio of W: T = 100: (1-5).

During the process of wastewater treatment from harmful impurities using defecate, sucrose decomposes into glucose and fructose. Sulfuric acid has a catalytic effect on this process, in addition, it intensifies the formation of calcium gluconate. The harmful impurities present in the wastewater PbSO ₄ , FeSO ₄ , H ₃ SbO ₃ interact with calcium gluconate and precipitate in an insoluble precipitate.

 After treating the wastewater with a defecate, the resulting insoluble precipitate is separated from the solution by filtration.

 When implementing the proposed method increases the degree of wastewater treatment from lead, antimony and iron. In addition, defecate waste from sugar production, material stored in dumps, occupying large areas, which leads to environmental pollution, is involved in the process.

 When carrying out the purification process with a ratio of W: T less than 100: 1, i.e., the consumption of one part of defecate per 100 parts of wastewater supplied with sucrose defecate is not enough to form a sufficient amount of calcium gluconate, necessary for the precipitation of harmful impurities, which leads to a decrease the degree of purification of sulfuric acid wastewater from lead, antimony and iron.

 The purification process with a ratio of W: T of more than 100: 5 is also undesirable, since in this case there is an accumulation of organic compounds in the treated waters, which will require an additional purification operation.

 The starting materials for the experiments were sulfuric acid wastewater of metallurgical and electrical plants and a defect obtained at a sugar factory, containing, wt.%: Calcium carbonate 75.0-80.0, sucrose 0.5-6.0, nitrogen-free organic substances 9 , 0-10.0, lime in the form of salts of various acids 2.0-3.0 wt. %, other minerals 3.0-4.0.

PRI me R 1. Wastewater containing 480 mg / l SO ^-2 ₄ , 65 mg / l Pb, 12 mg / l Sb, 50 mg / l Fe is fed for purification. Purification was done defecate with sucrose content of 0.5 wt% at a ratio of W:. T = 100: 3 and a temperature of 40 ^C. The duration of treatment 10 min.

PRI me R 2. Wastewater containing 100 mg / l SO ^-2 ₄ , 55 mg / l Pb, 10 ml / l Sb, 65 mg / g Fe, purified defecate with sucrose content of 6.0 wt.% at a ratio of W: T = 100: 5 and a temperature of 20 ^° C 7 min cleaning time.

PRI me R 3. Wastewater containing 250 mg / l SO ^-2 ₄ , 70 mg / l Pb, 15 mg / l Sb, 40 mg / l Fe, purified by defecate with a sucrose content of 3.0 wt.% at a ratio of W: T = 100: 1 and a temperature of 30 ^C. The duration of treatment 12 min.

PRI me R 4. Purification of wastewater containing the same amount of harmful impurities, as in the above example 1, is carried out by a defect with a sucrose content of 0.3 wt. % At a ratio of W: T = 100: 9 and a temperature of 30 ^C. The duration of treatment 15 min.

PRI me R 5. Wastewater containing the same amount of harmful impurities, as in example 2, is purified by defecate with a sucrose content of 9 wt. % at a ratio of W: T = 100: 0.5 and a temperature of 30 ^about C. The duration of the cleaning 15 minutes

 The results of chemical analysis are summarized in table.

 Thus, the proposed method for the purification of sulfuric acid wastewater, including the treatment with a calcium-containing reagent, which is used as a defecate waste from the production of sugar, and the separation of the resulting sludge allows you to: increase the degree of wastewater treatment from lead, antimony and iron, in particular iron, to 99.3 % against 98.6% in the prototype; 99.995% lead; antimony to 99.5%; to preserve the environment through involvement in the production of defecate - a waste of sugar production previously stored in dumps occupying large areas.

Claims (1)

 METHOD FOR WASTE WATER PURIFICATION FROM IRON IONS AND NON-FERROUS METALS, including treatment with a calcium-containing reagent-precipitant and separation of the precipitate formed, characterized in that, in order to increase the degree of purification of sulfuric acid wastewater from lead, antimony and iron, a calcium-containing reagent-precipitate reagent is used - waste sugar production and processing are carried out with a ratio of W: T = 100: 1 - 5.

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