SU1490097A1 - Method of cleaning waste water from petroleum products - Google Patents

Abstract

The invention relates to methods for breaking a mixture of waste emulsions and soda solution used as coolant in metal processing and may find application in wastewater treatment in the engineering and metallurgical industries. The aim of the invention is to increase the degree of purification. In order to carry out the process, the wastewater is treated with a precipitate dissolved in acid, which is a waste of electrochemical purification of chromium-containing drains, at PH 6.1-6.7. The method allows to increase the degree of purification to 98.3-98.7% and reduce the content of oil products in water to 36-48 mg / l. 2 tab.

Description

The invention relates to methods for breaking a mixture of waste emulsions and soda solution using Ntjx as a cooling lubricant (coolant) in metal processing and may find application in wastewater treatment in machine building and metallurgy.

The aim of the invention is to improve the degree of purification of one-emulsified wastewater,

Example 1. Sewage water with waste emulsion prepared from emulsol EGT and soda ash, with an oil content of 2775 mg / l COD - 12305 mg / l and pH 11.9 is treated with coagulant - sulphate

sediment, which is a waste of electrochemical treatment of chrome-containing effluent, to a pH value of 4.5. The mixture is thoroughly stirred, settled for 6 hours and the precipitate is separated. The content of petroleum products in purified water is 69 mg / l, the purification effect for petroleum products is 97.5%, the COD value is 846 mg / l, the purification effect for COD is 93.1%.

Coagulant is obtained from a precipitate formed after electrochemical treatment of water taken from the washing baths of the electroplating plant. The initial concentration of chromium (VI) in the wash water is 50–200 mg / l. This drain is processed in an electrocoagulator with plate electrodes of soft steels until full recovery.

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chromium (VI) to chromium (III), and then sent to a sump. The precipitate deposited in the settling tank is dissolved with treated sulfuric acid. The dose of acid (in terms of 100%) is 17-25 g per 1 liter of sediment. The reagent obtained is characterized by the following indicators: chromium (VI) is absent, chromium (III) 1.2 + 0.31 g / l, iron (II) 0.93 ± 0.25 g / l; iron (III) 3,48 ± ± 1.07 g / l; total concentration of chromium (III) sulfates J iron (II and III) 18.95 ± 3.23; pH 1.44 + 0.50.

In tab. 1 shows the results of wastewater treatment according to the proposed method at different pH values.

Example 2. Sewage water of the same composition as in Example 1 is purified by a known method by coagulation with a mixture of iron (II) and (III) salts. The total iron concentration in the coagulant solution is 50 g / l. The introduction of α-coagulant into wastewater, sedimentation and separation of sediment are carried out as in Example 1.

In tab. 2 shows the results of wastewater treatment in a known manner at different pH values and

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mass ratios of iron (II) and iron (III).

Claims (1)

From tab. 1 and 2, it follows that only a set of distinctive features, namely, the use of sludge dissolved in acid as a coagulant, which is a waste of electrochemical purification of chromium-containing effluents, and the treatment of water from pH 6.1–6.7 allows It increases the effect of purification of soda emulsion waste water from petroleum products. Conducting water purification at a pH of less than 6.1 is impractical because it leads to an increase in reagent consumption without increasing the cleaning effect. A method of purifying wastewater from petroleum products, including treatment with coagulant - a mixture of salts of bivalent and trivalent iron, characterized in that, in order to increase the degree of purification of saline emulsion wastewater, the treatment is carried out at pH 6.1-6.7 A coagulant uses a precipitate — a waste from electrochemical purification of chromium-containing effluents dissolved in acid. Table 1 table 2