RU2008267C1 - Method for purifying oil wastes - Google Patents

Abstract

FIELD: purification of oil tankers ballast waters. SUBSTANCE: oil wastes are fed to flotator simultaneously with an organic flocculant polydimethylallylammonium chloride introduction. Coalescencing is carried out on a filter with a charging framework. Adsorption with a powdered active carbon is conducted upon mixing the suspension by an air introduced in an airlift regime. At the last stage the water is passed through the powdered layer of granulated active carbon. EFFECT: improved quality of purification. 2 cl

Description

 The invention relates to methods for treating water from oil and petroleum products and can be used to treat ballast water of oil tankers.

The closest in technical essence and the achieved result to the proposed one is a method of treating wastewater from petroleum products, including treating water with activated carbon (AC), supplying it with coagulant Al ₂ (SO ₄ ) ₃ , alkalizing, feeding flocculant polyacrylamide and flotation (Aut St. USSR N 887474, class C 02 F 1/58, 1981).

 The disadvantages of the method are the high consumption of coagulant and powdered activated carbon to achieve 100% purification from petroleum products, the formation of a large amount of sludge after the water purification process and high losses of AU with it, as well as the low degree of purification of water from low molecular weight water-soluble compounds.

 The aim of the invention is to reduce the number of reagents and powdered activated carbon while maintaining a high degree of purification.

 The goal is achieved by a method of purification of oily wastewater, including reagent pressure flotation in the presence of VPK-402 flocculant, passing water through a frame-filling filter with simultaneous introduction of VPK-402 into the filtration, adsorption of powdered activated carbon by mixing coal pulp with water with air supplied with using airlift with a flow rate that ensures upward circulation through the airlift channels of the pulp at a speed of 80-100 m / h, filtering through granular activated carbon, while flotation is carried out by and flocculant dose 4-9 mg / l, and filtering - flocculant at a dose of 1-3 mg / l.

 The difference between the proposed method and the prototype is the described sequence of process steps, introduction of the VPK-402 flocculant into the flotation and filtration stage in the indicated amount, adsorption by active carbon when air is supplied in the specified mode, and an additional filtration step through granular activated carbon.

 If the sequence of stages is changed, the degree of purification decreases and the volume of the precipitate formed sharply increases.

 The dose of flocculant was selected experimentally for ballast water of oil tankers, in which the usual level of oil pollution is about 20-100 mg / l. This range of doses of flocculant VPK-402 provides the maximum cleaning effect. The claimed interval of the speed of the suspension in the airlift channels provides intensive mass transfer at which the maximum capacity of PAH0 is achieved, which ensures a reduction in the dose of PAHs relative to the prototype. When going beyond the proposed interval, either the required dose of PAHs increases, or its losses increase.

 PRI me R. The ballast water of tankers containing petroleum products in an amount of 20 mg / l is fed to a flotator operating in pressure flotation mode, with the VPK-402 flocculant being supplied thereto in an amount of 5 mg / l. The concentration of oil after flotation was 7 mg / L. Next, water at a speed of 10 m / h is passed through a frame-filling filter, into which VPK-402 flocculant is also introduced at a dose of 2 mg / L. After filtration, water contains 1 mg / l of petroleum products. Next, the water is treated with powdered activated carbon at a dose of coal of 40 mg / L. The processing is carried out with stirring of the pulp with the air supplied to the pulp by airlift. At the same time, the pulp speed in the airlift channels is maintained at 90 m / h. After cleaning with powdered activated carbon, the content of petroleum products decreased to 0.1 mg / L.

 After purification of PAHs, water at a speed of 10 m / h is passed through a stationary coal layer 2.5 m high. The oil content after purification was 0.04 mg / L.

 Other examples of the method carried out in a similar manner. The results are tabulated.

 From a comparison of the proposed method with the prototype, it follows that a high degree of purification of water from oil products in the proposed method is achieved with a significantly lower consumption of reagents for coagulation and flocculation and a significantly lower consumption of powdered activated carbon. In addition, in the known method, PAH losses are high, because, firstly, it is difficult to separate it from the sludge containing aluminum hydroxide, and, secondly, when settling incomplete deposition of PAH particles occurs. In the known method, the concentration of PAHs in purified water is 15-20 mg / L. In the proposed method due to the retention of PAHs by a layer of granular coal, its concentration in purified water is 1-2 mg / L.

 It should also be noted that during PAH regeneration in the known method, its capacity is restored only by 70-80% due to the presence of inorganic impurities (coagulants) in the coal, and the coal used in the proposed method restores the capacity almost completely.

 (56) Copyright certificate of the USSR N 887474, cl. C 02 F 1/58, 1981.

Claims (2)

 1. METHOD FOR CLEANING OIL-CONTAINING WASTE WATERS, including reagent pressure flotation and adsorption of powdered activated carbon, characterized in that, in order to reduce the amount of reagents and powdered activated carbon while maintaining a high degree of purification, as well as reducing losses of activated carbon and eliminating the formation of sludge, flotation lead in the presence of a flocculant - polydimethyldiallylammonium chloride, after which the purified water is passed through a frame-charge filter, in which a polydimetric flocculant is simultaneously introduced ldallylammonium chloride, adsorption is carried out with powdered activated carbon in the presence of air supplied by an air lift at a flow rate that ensures upward circulation of pulp through airlift channels at a speed of 80-100 m / h, and after adsorption, the pulp is filtered through granular activated carbon. 2. The method according to p. 1, characterized in that the flotation is carried out in the presence of a flocculant taken in an amount of 4 to 9 g / m ^{3 of} purified water.

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