RU2156225C1 - Method of cleaning waste waters containing emulsified petroleum derivatives - Google Patents

Abstract

FIELD: waste water treatment. SUBSTANCE: waste water containing petroleum derivatives, for example spent lubricating fluids, is passed through filter filled with adsorption complex. The latter consists of hard ferrite spheres with prevailing diameter 8-10 mm, which are constant magnets, granules, and powder of fired galvanic sludge (basically gamma-iron oxide) with particle diameter no larger than 100 mcm. Indicated components are mixed at weight ratio 8:2:1. Granules and powder of gamma-iron oxide are adsorbents and demulsifiers retained by magnetic field on surface of hard ferrite spheres. EFFECT: increased treatment efficiency and reduced power consumption. 3 cl, 1 tbl

Description

 The invention relates to methods for treating wastewater containing petroleum products, for example, spent cutting fluids, and can find application in the engineering and metalworking industries.

 A known method of treating wastewater from oils by demulsification with spent solutions of pickling baths, followed by electrocoagulation in an electrolytic cell with soluble iron electrodes. The disadvantages of the method is the low quality of the purified aqueous phase due to the lower activity of iron hydroxides obtained chemically (as a result of hydrolysis) in comparison with the electrochemical (a. S. USSR N 709566, MKP C. C 02 C 5/12, 1980. The cleaning method wastewater from oils / L.F. Kharchenko and Yu.A. Kovalenko, B.I. N 2, 01/15/80).

Closest to the proposed invention relates to a method of treating wastewater containing emulsified oil products, which consists in demulsifying the oils with a suspension based on iron and calcium hydroxides obtained in the wastewater treatment of galvanic production, taken in an amount of 0.5. ..10.0 parts of dry residue per 1 part of emulsified oil product, and subsequent electrocoagulation at a current density of 60-200 A / m ² for 10-15 minutes using soluble anodes or galvanic couple [RF patent 2093474, cl. C 02 F 1/46. The method of purification of wastewater containing emulsified petroleum products / Makarov V.M., Makaryin V.V., Melnikov G.M., Timrot S.D., B.I. N 29, 10/20/97].

 The disadvantages of this method are the energy intensity, iron consumption, the complexity of the equipment for obtaining the coagulant and technical operations for dehydration and use of the formed sludge, the single-cycle use of the coagulant.

 The purpose of the invention is to simplify the process of wastewater treatment, reducing energy consumption and iron consumption, obtaining water suitable for re-preparation of cutting fluids, coolant regeneration of the adsorption complex with the restoration of demulsifying properties.

 The inventive method consists in passing wastewater through a filter filled with an adsorption complex. The adsorption complex consists of spheres of magnetic hard material with a predominant diameter of 8 ... 10 mm, which are permanent magnets, granules and powder with a particle diameter of not more than 100 μm calcined galvanic sludge, which are mainly γ-iron oxides. These components are mixed in a ratio of 8: 2: 1 (parts by weight). Granules and powder of γ-iron oxide are adsorbents and demulsifiers, held due to the magnetic field on the surface of the balls of magnetic hard material.

An example of a prototype. In waste water containing 25000 mg / l of emulsified oil products (spent coolant of the Ukrinol brand), taken in an amount of 1 liter, add 1 liter of a suspension of sludge from the waste water treatment of galvanic production containing 50,000 mg / l of iron and calcium hydroxides (sediment ratio : emulsified oils 1: 1). After stirring for 10 minutes, the precipitate is filtered off, and the filtrate is treated in an electrocoagulator with a bulk iron rotating anode at a current density of 200 A / cm ² for 15 minutes. The quality indicators of the water obtained are given in table. 1.

Example 1. Galvanic sludge containing,%: Fe ₂ O ₃ - 40.9; Ni ²⁺ - 1.05; Cu ²⁺ - 0.38; Zn ²⁺ - 10.4; Cr ³⁺ - 0.5; with a humidity of 78%, according to the technology used in production, it was washed from water-soluble salts, dehydrated, dried, granulated and calcined at 900 ^° C for 1.5 hours. A portion of the calcined granules was ground to a complete sieve through a 100 μm sieve. Next, an adsorption complex was prepared by mixing spheres (balls) of barium ferrite, granules and calcined galvanic sludge powder in a ratio of 8: 2: 1 (by weight). The adsorption complex was placed in a filter with a volume of 1 dm ³ . The spent RATAK brand coolant containing 25000 mg / l of emulsified oil products in an amount of 0.5 l was passed through the filter at a speed of 1 ml / min three times. Indicators of water quality after treatment in comparison with the prototype are given in table. 1.

 As can be seen from table 1, the treated water can be put into circulation for the preparation of new batches of coolant. The adsorption complex must be regenerated to restore its adsorption capacity.

The regeneration was carried out by sequential drying of the adsorption complex at 105 ^o C to constant weight and further calcining at 400 ^o C for 0.5 hour. The adsorption complex regenerated in this way completely restored its properties (see table. 1).

 The proposed method allows high-quality demulsification and purification of waste water from oil products using an adsorption complex while reducing energy consumption and ensuring long-term use of the adsorption complex.

Claims (3)

 1. The method of purification of wastewater containing emulsified oil products, including demulsification with an iron-containing material and separation of the solution, characterized in that the demulsification is carried out by passing wastewater through a filter filled with an adsorption complex consisting of spheres of magnetically solid barium ferrite, granules and powder from γ-oxide iron taken in a ratio of 8: 2: 1 (mass.parts). 2. The method according to claim 1, characterized in that the demulsifier-γ-iron oxide deposited on the hard magnetic material is regenerated with the complete restoration of its demulsifying properties by calcination at a temperature not exceeding 450 ^o C (Curie point for barium ferrite).  3. The method according to claim 1, characterized in that as the γ-iron oxide is used washed, dried and calcined galvanic sludge obtained by purification by the electrocoagulation method of electroplating wastewater.

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