RU2557617C1 - Sorbent for purification and neutralisation of petroleum pollution - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: claimed sorbent, containing quick lime in amount 81.1-83.3%, diatomite in amount 7.4-12.5% and water repellent. As water repellent sorbent contains saturated highly molecular hydrocarbons in amount 6.4-9.3%.

EFFECT: increase of sorbent capacity.

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Description

The invention relates to environmental protection and can be used for cleaning and neutralizing various surfaces from oil and petroleum products.

A known method of cleaning various surfaces from spills of oil and oil products, a sorbent for cleaning surfaces and a method for its production (see patent RU 2107034, publ. 20.03.98). Sorbent - hydrophobized aluminosilicate material, which is a hollow xenosphere of the following composition, wt.%: SiO ₂ 60-63; Al ₂ O ₃ 25-29; Fe ₂ O ₃ 2.2; Na ₂ O + K ₂ O 2-3; CaO 1.78; MgO 0.3, the average density of the sorbent material is 0.550-0.750 g / cm ³ . As a hydrophobizing component, various wastes containing saturated hydrocarbons are used with a mass ratio of aluminosilicate material and water repellent 1: (0.001-0.30), respectively.

The disadvantage of this sorbent is its low efficiency. The process of sorption of oil and oil products is carried out only by its surface.

Known sorbent for cleaning oil and oil contaminants containing quicklime and animal fat in the amount of 0.4-3.0 wt.% (See patent RU No. 2160758, publ. 20.12.2000).

The disadvantage of this invention is the low quality of the products of the neutralization of oil and oil pollution.

Closest to the proposed invention is a sorbent for the disposal and disposal of toxic oil and oil contaminants formed, for example, during the cleaning of oil or gas pipelines. The sorbent consists of quicklime, activated carbon and a surfactant in the composition of bone meal in the following ratio of components, wt.%: Bone meal - 0.4-3.0, activated carbon up to 10, quicklime - the rest (see patent RF №22281157, publ. 14.12.2004).

In the interaction of fatty acids, fat, amino acids contained in bone meal with quicklime, calcium triglycerides and calcium salts of amino acids are formed, which activate the surface of lime particles for subsequent hydrophobic interaction with oil hydrocarbons.

Sorbent is cheap and provides cleaning of various surfaces from oil pollution.

The disadvantages of this invention is the low sorption capacity and degree of purification, as well as the increased specific consumption of the sorbent. In addition, the modification of quicklime with bone meal does not effectively solve the problem of its hydrophobization.

The objective of the invention is the creation of a sorbent for purification and neutralization of oil pollution, providing increased sorption capacity, the efficiency of purification and neutralization of oil pollution.

The problem is solved in that diatomite is additionally added to the sorbent for cleaning and neutralizing oil contaminants containing quicklime and a hydrophobizing agent, and saturated high molecular weight hydrocarbons (from C ₁₇ H ₃₆ to C ₃₅ H ₇₂ ) are used as a hydrophobizing agent in the following ratio of components, wt.%: diatomite - 7.4-12.5 and saturated high molecular weight hydrocarbons - 6.4-9.3, quicklime - the rest.

In the claimed method using:

- quicklime according to GOST 9179-77;

- diatomite according to GOST R 51641-2000 or TU 10-05031531-378-94;

- a mixture of saturated high molecular weight hydrocarbons from C ₁₇ H ₃₆ to C ₃₅ H ₇₂ (oil paraffins) - waste treatment of distillation columns of gas and oil refineries.

When mixing the components of the sorbent, capsules of a mixture of lime and diatomite are formed, coated with a water repellent.

Quicklime in the proposed sorbent is a binding and adsorbing component.

Diatomite increases the degree of sorption of hydrocarbons due to its high porosity. Diatomite is the fossilized remains of diatoms and consists of more than 90% silica. It is characterized by a large number of large mesopores, r = 0.03-0.1 microns, and macropores, r = 0.1-0.15 microns. They account for up to 80 ~ 90% of the total sorption volume of V = 1-2.4 cm ³ / g.

The use of high molecular weight saturated hydrocarbons as a gyrophobizator makes it possible to obtain high-quality sorption material with high hydrophobic and physico-mechanical characteristics.

In the interaction of the proposed sorbent containing the estimated amounts of quicklime, diatomite and water-repellent agent - a mixture of saturated high molecular weight hydrocarbons with oil-contaminated waste, a number of reactions occur. Initially, the reaction of hydration of lime with water contained in oil-contaminated waste occurs, which takes place with the release of heat (1160 kJ per 1 kg of calcium oxide). Then the resulting finely divided calcium hydroxide adsorbs hydrocarbons on its surface. At the same time, the presence of silica in the system with increasing ambient temperature due to the heat of the lime hydration reaction leads to the formation of a small amount of calcium hydrosilicate, due to which the resulting product of neutralization of oil pollution is additionally lithified.

The product of the neutralization of oil-contaminated waste by the proposed sorbent is a powdery substance consisting of tiny granules. Each granule particle is a microcapsule, inside of which there is a hydrocarbon that has reacted with the components of the sorbent, which fill the entire internal volume of the granule, including the volume of diatomite mesopores. Outside, the granule is covered with a durable carbonate waterproof, biologically neutral for the natural environment shell. The products of neutralization of oil pollution are hydrophobic and can be used in road construction, as well as in laying pipelines to isolate them from the soil.

With a decrease in quicklime content below 81.1 wt.%, The quality of the resulting product decreases, and with an increase of more than 83.3 wt.%, The sorption capacity of the sorbent decreases. With a decrease in the content of diatomite below 7.4 wt.%, The sorption capacity of the sorbent decreases, with an increase of more than 12.5 wt.%, The quality of the resulting product deteriorates. The content of saturated high molecular weight hydrocarbons in the range of 6.4-9.3 wt.% Provides high hydrophobic and sorption properties of the sorbent and neutralization products.

The essence of the claimed invention is described by the following example.

To prepare the sorbent, quicklime is first fed to the mixer in an amount of 81.1 to 83.3 wt.%, Then diatomite is gradually added with stirring, bringing to a mass content of 7.4 to 12.5 wt.%. After that, a water-repellent agent preheated to 35 ° C is introduced into the system — a mixture of saturated high molecular weight hydrocarbons (oil paraffins) at a rate of 6.4–9.3 wt.%. The mixture is thoroughly mixed until a homogeneous mass. The prepared sorbent is unloaded and packaged in a special container.

To determine the optimal consumption of the sorbent and its sorption capacity after preparation of the sorbent, soil containing 50 wt.% Fuel oil was introduced into the mixer at the rate of 1.0-2.0 kg per 1 kg of sorbent. After that, water is supplied to the mixer to extinguish the lime and the mass is mixed until it is completely extinguished.

To assess the degree of neutralization, samples of samples of processed oil-contaminated waste after 48-hour exposure were treated with water to obtain an aqueous extract, which was analyzed for chemical oxygen demand (COD) and hydrocarbon content. The maximum sorption capacity was determined when the hydrocarbon content in the aqueous extract of the neutralization products is less than 1.8 mg / L.

The research results are shown in the table.

As can be seen from the table, the sorption capacity of the proposed sorbent is almost 1.7 times higher compared to the prototype and reaches 833 g per 1 kg of sorbent. The hydrocarbon content in the aqueous extract according to the proposed option is significantly lower than in the aqueous extract obtained by the prototype, and does not exceed the maximum permissible concentration. The research results indicate the effectiveness of the cleaning and disposal of oil pollution using the proposed sorbent.

Claims (1)

Sorbent for cleaning and neutralizing oil contaminants, containing quicklime and a water repellent, characterized in that it additionally contains diatomite, and saturated high molecular weight hydrocarbons (oil paraffins) are used as a water repellent in the following ratio of components, wt.%:
Quicklime 81.1-83.3 Diatomite 7.4-12.5 Saturated high molecular weight hydrocarbons (oil paraffins) 6.4-9.3