RU2516853C2 - Method for oil sludge decontamination - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention is related to the method for oil sludge decontamination; it can be used in technology of integrated processing for oil-containing wastes and soils formed, in particular, in result of operation of oil-trunk pipelines. The method for oil sludge decontamination includes receipt of decontaminating compound by removal from oil sludge of heavy fraction containing high-molecular hydrocarbons, mixing of the above fraction with the reagent based on oxides of alkali-earth metals, performance of exothermal reaction with receipt of granules containing high-molecular hydrocarbons and use of the above granules for filtration of water fraction from oil sludge with further decontamination. Granules of decontaminating compound are obtained with high content of high-molecular hydrocarbons in quantity of at least 15-25 wt %; for filtration of water fraction from oil sludge the above granules are used in a mixture with an expanded-clay aggregate; thereafter the granules contaminated after filtration and mixed with the expanded-clay aggregate and remaining fractions of oil sludge are mixed with the reagent based on oxides of alkali-earth metals and reactions of hydratation and carbonisation are performed with receipt of the decontaminated product.

EFFECT: improving productivity of filtration process by 15-20%, providing higher bearing force of the final product when using it as construction material, coefficient of sorbent end capacity is equal to 1,2-1,4.

8 cl, 1 tbl, 1 ex

Description

The invention relates to the field of environmental technologies and can be used for the disposal of oil-contaminated waste products of various phase composition, emergency oil spills. Mostly the claimed method of neutralizing oil sludge can find application in the technology of integrated processing of oil-contaminated waste and soil, resulting from the production activities of enterprises of main oil pipelines.

A comprehensive technology for the processing and disposal of oil-contaminated production waste is known, which consists in the separation of contaminated materials into 3 phases (water, oil and solid), processing and disposal of these phases to the conditions required by the consumer or environmental safety. Moreover, each of the fractions is subjected to different methods of disposal. (See Kiriya V.V., Kondratenko V.M. “Integrated technology for the extraction, processing and disposal of oil sludge with the remediation of contaminated soils.” - Abstracts of the International Conference “New Technologies for the Purification of Oil-Polluted Water, Soils, Processing and Utilization of Oil Sludge”. December 10-11, 2001, M. 2001, p.134-135).

The implementation of this technology requires the implementation of a multi-unit technological process using complex technical means, high costs of water, energy, various special materials for washing the soil, including a significant amount of surfactant. At the same time, a new volume of by-product contaminated substances, for example, waters used for washing the soil, the disposal of which requires additional costs.

A known method of decontamination of oily sludge, comprising mixing an oily sludge with a disinfecting composition containing quicklime (calcium oxide) as a main component, followed by the introduction of water reacting with quicklime, characterized in that the waste composition is additionally introduced into it to produce a neutralizing composition silica gel, which is a waste of the gas industry at the stage of drying natural gas, in the following ratio of components, (wt.%): quicklime l 70-75; spent silica gel 25-30. Moreover, both components are preliminarily crushed to a finely dispersed state, the resulting neutralizing composition is mixed with an oily sludge in a proportion of (1.5-2) ÷ 1, the required amount of water is determined taking into account the water present in the oily sludge, and the water absorption of spent silica gel, and the resulting product disposal of oily sludge is maintained for 3 days until the end of the formation of calcium silicate structure. (See patent RU 2395466, published July 27, 2010). To implement this method, spent silica gel is required, which is a waste of the gas industry at the stage of drying natural gas, the acquisition and delivery of which in the right amount can be difficult when implementing environmental technology.

The closest analogue of the claimed invention is disclosed in the application RU 2003136926 dated 06/10/2005 “Method for the comprehensive disposal of liquid, paste-like and solid oil-contaminated production waste, including the separation of contaminated materials into solid or paste-like materials and oil-contaminated water, mixing paste-like and solid oil-contaminated waste with a reagent for based on alkali metal oxides and filtering oil-contaminated water through a sorbent, followed by disposal of the contaminated sorbent. " The disadvantage of this method is the separate operations of encapsulation of residual contaminated solid or pasty materials and the process of secondary encapsulation of the sorbent contaminated during water treatment, which complicates the technology. In addition, the product of this method is not subjected to carbonization, which reduces its bearing capacity and does not allow use in the construction of the roadway.

The invention is aimed at solving the problem of providing an effective process for the disposal of contaminated materials represented simultaneously by solid, pasty and liquid substances to obtain a building material with high bearing capacity.

The technical result is the simplification of environmental technologies by reducing the cost of reagents and water by using secondary products formed at the site of the work on disposal, as well as increasing the load-bearing capacity of the product of the claimed method when using it as a building material.

To solve this problem, a method for neutralizing oil sludge is claimed, which includes obtaining a neutralizing composition by extracting a heavy fraction containing high molecular weight hydrocarbons from oil sludge, mixing the specified fraction with a reagent based on alkaline earth metal oxides, conducting an exothermic hydration reaction to obtain granules containing high molecular weight hydrocarbons, and using these granules for filtering the aqueous fraction of oil sludge during their subsequent disposal. At the same time, the granules of the neutralizing composition are obtained with a high molecular weight hydrocarbon content of not less than 15-25 wt.%, And for filtering the aqueous fraction of oil sludge, these granules are used in a mixture with expanded clay, then the granules contaminated after filtering in a mixture with expanded clay and the remaining oil sludge fractions are mixed with reagent based on alkaline earth metal oxides, carry out a hydration and carbonization reaction to obtain a neutralized product.

Note that to obtain a neutralizing composition as a fraction containing high molecular weight hydrocarbons, mainly oil-paraffin paste containing high molecular weight hydrocarbons in an amount of 40-50 wt.% Is used.

In another embodiment, to obtain a neutralizing composition, a sediment of oil storage tanks is used as a fraction containing high molecular weight hydrocarbons.

To obtain a neutralizing composition, a reagent based on alkaline earth metal oxides is added with stirring to a fraction containing high molecular weight hydrocarbons in an amount of at least 30 wt.%.

The hydration reaction to obtain a neutralizing composition is carried out at a temperature of 70-100 ° C.

As a reagent based on alkaline earth metal oxides, predominantly use is quicklime hydrophobized lime. For example, as a reagent based on alkaline earth metal oxides, you can use a mixture containing (in wt.%):

Magnesium oxide no more than 5 Water repellent 5-20 Calcium oxide rest

The neutralization of oil sludge is mainly carried out with its transfer to the work site with the subsequent disposal of the final product of reagent neutralization. In this case, the final product of reagent neutralization is obtained in a form convenient for disposal during road and construction works, in particular in the form of powder or granules.

Studies have shown the effectiveness of using hydrated granules of oil-contaminated waste for the primary treatment of oily water. Moreover, granules containing not less than 15 ... 25% hydrocarbons with high molecular weight carry out more efficient sorption. Preferably, in the preparation of the neutralizing composition, use sludge fractions containing high molecular weight hydrocarbons in an amount of not less than 30 wt.% For mixing with the reagent based on alkaline earth metal oxides.

It is these granules that are sufficiently hydrophobized, do not quickly saturate with water, and have acceptable sorption properties, given that they are a secondary free product that is formed at the place of work. In addition, highly viscous high molecular weight hydrocarbons are firmly held in capillaries on the surface of the granules, are not washed out by water and do not pollute the water again.

When encapsulating hydrocarbons, they are not only covered with a strong carbonate shell, but when heated during an exothermic reaction, they penetrate the capillary channels of this shell and are subsequently reliably held there. An exothermic reaction with heating a mixture of contaminated material and a reagent to a temperature of 70 ... 100 ° C occurs with sufficiently large (more than 30%) additives of the reagent, which is typical for the disposal of waste with a high content of hydrocarbons (more than 25 ... 30%).

To exclude secondary pollution of treated water with liquid hydrocarbons contained in granules, it is necessary that the contaminated waste contains predominantly high molecular weight hydrocarbons. A certain content of liquid oil in hydrocarbon components (up to 25 ... 35%) is acceptable, because during the exothermic reaction, this oil is mixed with molten heavy hydrocarbons and a pasty mixture is difficult to wash out from the capsules at a temperature of up to 30 ° C.

The affinity of hydrocarbons located in the capillary channels on the surface of porous granules with petroleum products contributes to the active sorption of hydrocarbons by granules of a neutralizing composition when filtering water contaminated with petroleum products. To increase the efficiency of the primary purification of the aqueous fraction of oil sludge, the granules of the neutralizing composition in the claimed technical solution are used in a mixture with a material with a developed contact surface, for example, expanded clay. This significantly increases the consumption of contaminated water per unit time. A marked increase in the productivity of the filtration process by 15-20%.

The claimed method can significantly reduce the cost of expensive sorbents. Subsequently, the contaminated granules of the neutralizing composition together with the contaminated expanded clay and the remaining oil sludge fractions are mixed and treated with the same calcium-containing reagent, i.e. secondary coated with a calcite crust, while the reaction zone is enriched with carbon dioxide for effective carbonization of the obtained granules. The final products of the disposal of oil sludge, presented in the form of liquid, paste-like or solid oil-contaminated waste, are disposed of by adding to the dumping sites of industrial sites or in the layers of road surfaces. The addition of expanded clay to the composition of the neutralizing composition further increases the bearing capacity of the final product of the neutralization when using it as a building material.

Example.

When cleaning the capacity of the oil storage tank, it is required to remove and neutralize the sludge containing oil-contaminated wastewater, oil-contaminated sedimentary sludge and bottom sediment of heavy fractions of hydrocarbons.

To obtain a neutralizing composition, part of the heavy fraction containing high molecular weight hydrocarbons is extracted from the oil sludge, for example, in the form of an oil-paraffin fraction. Then the specified fraction containing high molecular weight hydrocarbons is mixed with a reagent taken in an amount of 35 wt.%, And an exothermic hydration reaction is carried out at a temperature of approximately 70 ° C. As a result of the hydration reaction, granules of a neutralizing composition are obtained containing high molecular weight hydrocarbons in an amount of up to 40 wt.%.

As a reagent used quicklime hydrophobized lime with the addition of magnesium oxide containing (in wt.%):

Magnesium oxide no more than 5 Water repellent 5-20 Calcium oxide rest.

The granules of the neutralizing composition were mixed with expanded clay taken in an amount of approximately 25 vol.%. The resulting mixture was used to filter the aqueous fraction of oil sludge. After completion of the sludge water purification process, the granules contaminated after filtration in a mixture with expanded clay and the remaining oil sludge fractions were again mixed with the same reagent based on quicklime hydrophobized lime, water was added to the resulting mixture, and a hydration reaction was carried out. In this case, the reaction zone was sparged with carbon dioxide to carbonize the neutralized product.

Table 1 shows the research data on the sorption properties of granular oil-contaminated waste mixed with expanded clay additives.

From table 1 it is seen that the sorption ability of hydrated granules of oil-contaminated waste increases. The coefficient of the final capacity of the sorbent, calculated by the ratio of the mass of trapped petroleum products to the mass of the sorbent, amounted to 1.2-1.4. The bearing capacity of the final product of neutralization when using it as a building material when filling the roadway was 1.5-1.8 kg / cm ² .

Claims (8)

1. A method of neutralizing oil sludge, including obtaining a neutralizing composition by extracting from the oil sludge a heavy fraction containing high molecular weight hydrocarbons, mixing said fraction with a reagent based on alkaline earth metal oxides, conducting an exothermic hydration reaction to obtain granules containing high molecular weight hydrocarbons, and using these granules for filtering the aqueous fraction of oil sludge during their subsequent neutralization, characterized in that the granules are neutralized her compositions are obtained with a content of high molecular weight hydrocarbons in an amount of at least 15-25 wt.%, and for filtering the aqueous fraction of oil sludge, these granules are used in a mixture with expanded clay, then the granules contaminated after filtering in a mixture with expanded clay and the remaining oil sludge fractions are mixed with a reagent based alkaline earth metal oxides, carry out a hydration and carbonization reaction to obtain a neutralized product. 2. The method according to claim 1, characterized in that to obtain a neutralizing composition as a fraction containing high molecular weight hydrocarbons, oil paraffin paste is used. 3. The method according to claim 2, characterized in that the use of oil-paraffin paste containing high molecular weight hydrocarbons in an amount of 40-50 wt.%. 4. The method according to claim 1, characterized in that for the preparation of a neutralizing composition as a fraction containing high molecular weight hydrocarbons, sediment of oil storage tanks is used. 5. The method according to claim 1, characterized in that in order to obtain a neutralizing composition, an alkaline earth metal oxide reagent is added with stirring to a fraction containing high molecular weight hydrocarbons in an amount of at least 30 wt.%. 6. The method according to claim 1, characterized in that the hydration reaction to obtain a neutralizing composition is carried out at a temperature of 70-100 ° C. 7. The method according to claim 1, characterized in that as a reagent based on alkaline earth metal oxides, quicklime hydrophobized lime is used. 8. The method according to claim 7, characterized in that as a reagent based on alkaline earth metal oxides, a mixture containing (in wt.%) Is used:
Magnesium oxide no more than 5 Water repellent 5-20 Calcium oxide rest