SU1076406A1 - Sorbent for cleaning surfaces from petroleum products - Google Patents

Abstract

The use of waste from the production process of alkylation of phenol with olefin in the presence of a catalyst of aluminum phenolate as a sorbent for cleaning oil products from surfaces. (L

Description

GSP)

The invention relates to a method for cleaning surfaces of petroleum products and can be used in environmental protection, in particular, liquid, and solid surfaces, such as sea water, wastewater, ponds, decks, racks. etc., it is oil and oil products.

Known methods of cleaning surfaces from petroleum products include the use of reagents with hydrophobic properties and chemical means for petroleum products. However, the effectiveness of the known methods is low due to the low absorption capacity of the reagents used.

The closest in technical essence to the present invention is a method of cleaning the surface of water from oil and oil products using pearl as a sorbent. 1..

However, the effectiveness of the proposed method is not high enough (for example, the amount of adsorbed vefti per 1 g of perlite is 1-1.1 g with a fractional composition of 0.25 mm and 0.4-0.5 g with a fractional composition of 2.0-5. 0 mm).

In order to increase the efficiency of the process of cleaning surfaces contaminated with oil and oil products, it is proposed to use the waste of the process of alkylation with phenol with olefin in the presence of a catalyst of aluminum phenol and phenol. This waste is formed in the process of alkylation of the phenol of olefin in the presence of a catalyst of aluminum phenol, in particular, in the production of 4-methyl-2,6-ditert-butylphenol at the stage of treatment of the latter with water or steam at a temperature more followed by filtration, extraction and drying.

The waste is an expanded material, the chemical composition corresponding to the aluminum oxide monohydrate of boehmite structure (AUON) with the content of O, 3-0,9 may,% (in terms of carbon) alkylphenol resins. Granulometric composition of products,%: 5 mm 1.15, 2-5 mm 26.43., 0.5-2 mm (66.96). 0.25-0.5 mm 3.84, 0.25 mm 1.62. Bulk weight is 0.36 g / cm, specific surface area 210-280, pore volume 1.1-1.4.

The proposed sorbent has a HIGH absorbing ability of 1, 6-3.4 g / g of sorbent with a fractional composition of 0.25 mm and 1.6-2.2 g / g of sorbent with a fractional composition of 2.0-5.0 mm, buoyancy and hydrophobicity. Sorbent with absorbed oil

or fuel oil is regenerated by extraction with toluene at, and then heated to remove 150 ° C to remove the residue of toluene.

A decrease in sorption capacity and hydrophobic properties is not observed with repeated use.

To test the proposed sorbent, the latter is dispersed in the form of a powder into an oil-contaminated or

With oil products, a solid or liquid surface, mix, stand for a short time (on the order of 5-30 minutes), then sorb, using known methods. After collecting the sorbent

5 is recovered by extraction with suitable solvents (toluene, gasoline, kerosene), followed by heating at an appropriate temperature. Sorben is used repeatedly.

0 Example 1. Use crude oil, pour it on a hard surface with an area of 80 cm, pour 5 g of the proposed sorbent containing 99.5% A100H and 0.5% alkylphenolic

5 resins, mixed with oil, incubated for 30 minutes, sorbent with sorbed oil is collected, excess oil is removed by keeping the sorbent in a grid in suspension for 1 day. The overhang of strongly sorbed oil is determined. The sorbent absorbs 3 g of oil per 1 g of its own weight.

Example 2. Use crude oil, pour it to the surface

sea water taken from the Caspian

the sea, with an area of 0.66 m, pour out 5 g of the proposed sorbent, containing 99.1% A100H and 0.9% alkylphenol resins, stirred, withstand

0 10 min, collect the sorbent with the sorbed net, determine its weight gain.

In tab. 1 shows the results of testing the proposed sorbent when cleaning surfaces from oil.

5 Example 3; 6 g of fuel oil is used, it is poured onto the surface of fresh water with an area of 0.2 m, 3 g of sorbent containing 99.7% LUON and 0.3% alkyl of phenolic resins are poured in, mixed, incubated for 5 minutes, the sorbent is collected, are weight gain. The sorbent absorbs 2 g of fuel oil per 1 g of its own weight. Petrol glitter on the surface of the water

5 do not observe.

Example 4. Toluene in the amount of 15 g is used, poured onto the surface of fresh water with an area of 0.2 m, 3 g of sorbent is poured out, containing 99.5% A100H and 0.5% alkylphenol resins, the sorbent is collected, and the weight gain is determined. The sorbent absorbs 5 g of toluene per 1 g of its own weight. Petrol gloss is not observed

5 on the surface of the water (in the examples, the content of alkyl-phenolic resins is in terms of carbon).

In tab. 2 shows the results, characterized by the dependence on the absorption capacity of the proposed sorbent from the fractional composition.

As can be seen from the presented data, with a decrease in the fractional composition of the sorbent from 5.0-2, iO to 0.25 mm and below, its adsorption capacity increases from 1.2 to 3.8 per 1 g of sorbent.

Residual amount

The amount of oil oil on the surface, g on the surface, g

Absent

0.5

2.5

The technical and economic effect of using the proposed waste from the production of phenol alkylation by olefin is due to its higher absorbency which provides an increase in the efficiency of the process of cleaning surfaces from oil and oil products by 3.0-3.5 compared to the base object, use pumice.

Table 1

The amount of sorbed oil, g / g of sorbent

0.5 1.0 1.5 2.0 2.4 2.9 3.0

Visually - by the absence of gasoline shine.

Table. 2

Claims (2)

The use of waste production of the process of alkylation of phenol with olefin in the presence of a catalyst of aluminum phenolate as a sorbent for cleaning surfaces from petroleum products. one 1076406 2