RU2475514C1 - Method of producing hydrocarbons from hydrocarbon-containing sand - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to mining and specifically to methods of producing hydrocarbons from hydrocarbon-containing sand. The invention relates to a method of producing hydrocarbons from hydrocarbon-containing sand using an aqueous solution of a reagent which is capable of emulsifying hydrocarbons in an aqueous medium, involving mixing sand with said aqueous reagent solution to obtain a mixture of sand and a water-hydrocarbon emulsion, wherein the reagent used is a composition which contains a polyelectrolyte, a nonionic surfactant and an alkaline agent which is capable of emulsifying hydrocarbons in an aqueous medium to obtain an unstable emulsion; an aqueous solution of said composition with concentration of 2-6 wt % is used in amount of at least 1.0 m³ per ton of sand, wherein the mixture obtained from mixing sand with the aqueous solution of the composition undergoes gravitational settling with separation of said mixture into an organic phase which contains hydrocarbons, an aqueous phase which contains aqueous solution of the composition and a solid phase, followed by extraction of the organic phase as the end product.

EFFECT: simple method of producing hydrocarbons from hydrocarbon-containing sand.

2 cl, 2 ex

Description

The invention relates to the field of mining, and in particular, to methods for producing hydrocarbons from sand containing them.

One of the promising raw oil sources is the so-called tar sands (oil, tar).

There are a number of known methods for producing hydrocarbons from tar sand, based on the extraction of these hydrocarbons using liquid phase agents of various chemical nature.

So, in particular, there are known methods for producing hydrocarbons from tar sand, in which low-boiling low-polar organic solvents are used to extract them (see, for example, RU 2408652, RU 96115462, US 2008169222).

According to these methods, tar sand is treated with an organic solvent, during which hydrocarbons are converted to an organic solvent. After separation from sand of a liquid-phase product containing an organic solvent and hydrocarbons extracted from sand, the organic solvent is distilled off from the aforementioned liquid-phase product to obtain oil hydrocarbons in the residue of the target product.

The need to perform the operation of distillation of the organic solvent determines the complexity of the considered methods and leads to additional energy costs for the operation of distillation. In addition, the disadvantage of these methods is that the organic solvents used in them are explosive and flammable substances.

A known method of producing hydrocarbons from tar sand [RU 2337938], in which to extract them from the sand using water.

This method involves mixing tar sand with water to form a suspension containing hydrocarbons and sand particles extracted from sand, and then separating the hydrocarbons from the suspension in two successive stages using one of the known methods (precipitation, flotation, etc.).

The advantage of the method is that it does not use flammable or explosive chemicals, but this method is complicated, because for the separation of hydrocarbons it is necessary to apply special techniques and carry out the separation of the target products in two stages.

As the closest analogue, the authors chose a method for producing hydrocarbons from sand containing them [CA 2009144], in which an aqueous solution of a reagent capable of emulsifying hydrocarbons in an aqueous medium to form a stable emulsion, in particular an aqueous solution of n-butanol or isopropyl alcohol, is used to extract them. , or acetone.

The considered method involves mixing sand with an aqueous solution of the specified reagent to obtain a mixture of sand with a water-hydrocarbon emulsion. Then, a special emulsion-destroying agent (demulsifier) is added to the mixture obtained in the step of mixing sand with an aqueous reagent solution. After adding the demulsifier, phase separation of the obtained emulsified product is carried out by one of the known methods, in particular by flotation, gravity sludge, etc.

As the target product, a phase containing hydrocarbons extracted from sand is used.

This method provides a fairly complete extraction of hydrocarbons from tar sand, however, the need for the operation of introducing into the emulsion of a special destructive agent complicates the method.

The task of the invention is to simplify the method of producing hydrocarbons from sand containing them.

The essence of the invention lies in the fact that in a method for producing hydrocarbons from sand containing them, using an aqueous solution of a reagent capable of emulsifying hydrocarbons in an aqueous medium, comprising mixing sand with said aqueous solution of a reagent to obtain a mixture of sand with a water-hydrocarbon emulsion according to the invention in as a reagent, a composition containing a polyelectrolyte, a nonionic surfactant and an alkaline agent capable of emulsifying hydrocarbons in an aqueous medium with the formation of unstable emulsions is used only an aqueous solution of the composition is used in an amount of not less than 1.0 m ³ per ton of sand, while the gravitational sediment of the mixture obtained at the stage of mixing sand with an aqueous solution of the composition is carried out, with the separation of the mixture into an organic phase containing hydrocarbons into an aqueous the phase containing the aqueous solution of the composition, and the solid phase, as well as the subsequent selection of the organic phase as the target product.

In the particular case of the invention, the solid phase obtained after gravitational sedimentation of the mixture is mixed with an aqueous solution of the above composition, taken in an amount of not less than 1.0 m ³ per ton of the specified solid phase, gravitational sediment of the newly obtained mixture is carried out with its separation into the organic phase, aqueous phase and solid phase, while taking the organic phase as an additionally obtained target product.

Essentially important in the inventive method is that to obtain hydrocarbons from the sand containing them, a composition is used whose aqueous solution emulsifies the hydrocarbons contained in it while mixing with sand with the formation of an unstable water-hydrocarbon emulsion, i.e. an emulsion capable of rapidly breaking apart spontaneously.

Due to this, in the inventive method it is possible to carry out the separation of the organic phase containing hydrocarbons from a mixture directly obtained at the stage of mixing sand with an aqueous solution of a composition containing sand and a water-hydrocarbon emulsion by gravitational sedimentation of this emulsion without its forced destruction using special destructive agents or technological operations aimed at breaking the emulsion.

This leads to a simplification of the proposed method.

The properties of an aqueous solution of the composition to form an unstable emulsion with hydrocarbons, that is, to quickly emulsify and quickly demulsify hydrocarbons, are ensured through the use of a combination of three components in its composition - a polyelectrolyte, a nonionic surfactant and an alkaline agent.

The use of a polyelectrolyte in the composition causes a high emulsifying effect of its aqueous solution in the absence of a negative effect on the speed and completeness of the separation of the organic and aqueous phases during gravitational sedimentation of the mixture.

As the polyelectrolyte, in particular, polymers of acrylic acid, or its sodium salts with a molecular weight of 50,000-120000, or the sodium salt of carboxymethyl cellulose (Na-CMC) can be used.

The use of a nonionic surfactant in the composition provides good wettability of sand particles with an aqueous solution of the composition and its high solubilizing effect with respect to hydrocarbons contained in the sand.

As nonionic surfactants, in particular, condensation products of alkyl phenols or higher fatty acids and ethylene oxide, condensation products of propylene glycol and ethylene oxide or propylene oxide and other similar compounds, for example, nonyl phenylethylene oxide with the number of oxide groups from 9 to 12 propylene glycol ethylene ether, can be used.

The use of an alkaline agent in the composition contributes to the effective washing out of the composition of the sand mass of hydrocarbons by an aqueous solution of the composition and the balance of emulsifying - demulsifying properties of the aqueous solution of the composition.

As the alkaline agent, in particular, sodium carbonate or sodium carbonate in combination with urea and / or sodium metasilicate can be used.

In the claimed invention can be used, in particular, an aqueous solution of the composition, the composition of which corresponds to various modifications of the technical means "SIDE", in particular the modifications described in RU 2132367.

The above amount of an aqueous solution of the composition per ton of sand was experimentally selected by the authors. When using less than 1.0 m ³ per ton of sand, a sufficiently complete extraction of hydrocarbons from the sand is not provided.

As shown by experimental tests, the inventive method provides a high degree of hydrocarbon extraction from sand, as well as a high completeness of phase separation.

This makes it possible to use the aqueous solution of the composition obtained after gravitational separation of the mixture to extract hydrocarbons from another portion of sand. Moreover, the frequency of use of the specified aqueous solution is almost unlimited, which eliminates the need for disposal of the spent solution or its cleaning.

Thus, the technical result achieved by the implementation of the claimed invention is to simplify the method of producing hydrocarbons from sand containing them.

In addition, the inventive method does not have a harmful effect on the environment, since it does not use toxic chemicals and does not generate hydrocarbon-contaminated waste.

The advantage of the proposed method is also its cost-effectiveness, including due to the possibility of multiple use of an aqueous solution of the composition.

In the case when the sand containing hydrocarbons includes an admixture of clay, a certain amount of hydrocarbons remains in the solid phase obtained after the gravitational sedimentation of the mixture. In this situation, it is advisable to re-extract the hydrocarbons from the specified solid phase, for which it is mixed with an aqueous solution of the above composition, taken in an amount of at least 1.0 m ³ per ton of the specified solid phase, gravitational sediment of the newly obtained mixture is carried out with its separation into an organic phase, an aqueous phase and a solid phase, and the organic phase is selected as an additionally obtained target product. This allows you to increase the yield of the target product.

The inventive method is implemented as follows.

To obtain hydrocarbons from sand containing them, an aqueous solution of a composition capable of emulsifying hydrocarbons in an aqueous medium to form an unstable emulsion and containing a polyelectrolyte, a nonionic surfactant and an alkaline agent is used.

Prepare an aqueous solution of the specified composition, the concentration of which in practice is from 2 to 6 wt.%.

Sand placed in the tank is mixed with the specified aqueous solution taken in an amount of at least 1.0 m ³ per ton of sand. As practice shows, it is economically feasible to use an aqueous solution of the composition in an amount of up to 4 m ³ .

The temperature of the aqueous solution of the composition is 40-80 ° C. Mixing time is from 15 to 30 minutes. As a result of mixing, a mixture of a water-hydrocarbon emulsion with a solid phase is obtained.

Then carry out the gravitational sedimentation of the specified mixture for 1-3 hours, resulting in its phase separation with the formation of a layer representing an organic phase containing hydrocarbons extracted from sand, a layer representing an aqueous phase containing an aqueous solution of the composition, and settled on the bottom of the tank is a solid phase.

The upper layer of hydrocarbons is removed from the tank, for example, by decanting and sent to the collection of the target product. The remaining aqueous solution of the composition is separated from the solid phase, for example, by pumping. The aqueous solution of the composition separated from the solid phase can be reused to produce hydrocarbons from another portion of sand.

The possibility of implementing the method is shown in examples of specific performance.

Example 1

Hydrocarbons were obtained from tar sand without clay admixture, in which the oil content was 16 wt.%.

Used an aqueous solution of the composition of the following composition:

Polyelectrolyte - Na-CMC with a degree of polymerization of 400 in an amount of 2.5 wt.%.

Nonionic surfactant - ethylene ALM-10 in the amount of 10.2%

Alkaline agent - soda ash according to GOST 5100-85 - the rest.

1 ton of tar sand and 2.0 m ^{3 of an} aqueous solution of the above composition with a concentration of 2 wt.% Were placed in a container. The contents of the container were mixed for 20 minutes at a temperature of 60 ° C. At the end of mixing, phase separation of the mixture was carried out by its gravitational sludge for 1 hour. Obtained after gravitational sludge, the upper layer, which is hydrocarbons extracted from tar sands, was removed from the tank to the collection of the target product by decantation.

The amount of hydrocarbons produced was 155 kg.

The remaining aqueous solution was separated from the solid phase by pumping.

The hydrocarbon content in the specified aqueous solution was less than 0.01 wt.%. The amount of hydrocarbons in the remaining solid phase was less than 0.5 wt.%.

Example 2

Hydrocarbons were obtained from tar sand mixed with clay, in which the oil content was 14 wt.%.

Used an aqueous solution of the composition of the following composition:

Polyelectrolyte - sodium polyacrylate with a degree of polymerization of 400 in an amount of 5.0 wt.%.

Nonionic surfactant - ethylene in an amount of 8.0 wt.%,

Alkaline agent - soda ash according to GOST 5100-85 - the rest.

1 ton of tar sand and a 1.5 m aqueous solution of the above composition with a concentration of 6 wt.% Were placed in a container. The contents of the container were mixed for 20 minutes at a temperature of 60 ° C. At the end of mixing, phase separation of the mixture was carried out by its gravitational sludge for 2 hours. The upper layer obtained after gravitational sludge, which is oil hydrocarbons extracted from tar sand, was removed from the tank to the collection of the target product by decantation.

The amount of petroleum hydrocarbons produced was 130 kg.

The remaining aqueous solution was separated from the solid phase by pumping.

The content of petroleum hydrocarbons in the specified aqueous solution was less than 0.1 wt.%.

The amount of petroleum hydrocarbons in the remaining solid phase was 1.0 wt.%.

The specified solid phase was stirred for 30 min with an aqueous solution of the composition of the above composition with the same concentration taken in the same amount.

Gravitational sedimentation of the newly obtained mixture was carried out for 2 hours, at the end of which the organic phase was diverted to the collection of the target product.

The amount of additional oil hydrocarbons produced was 5 kg.

The remaining aqueous solution was separated from the solid phase by pumping.

The content of petroleum hydrocarbons in the specified aqueous solution was less than 0.1 wt.%.

The amount of petroleum hydrocarbons in the remaining solid phase was 0.5 wt.%.

Claims (2)

1. A method of producing hydrocarbons from sand containing them using an aqueous solution of a reagent capable of emulsifying hydrocarbons in an aqueous medium, comprising mixing sand with said aqueous solution of a reagent to obtain a mixture of sand with a water-hydrocarbon emulsion, characterized in that the composition is used as a reagent, containing a polyelectrolyte, a nonionic surfactant, and an alkaline agent capable of emulsifying hydrocarbons in an aqueous medium to form an unstable emulsion, an aqueous solution of the indicated position with a concentration of from 2 to 6 wt.% in an amount not less than 1.0 m ³ per tonne of sand, the sludge carried gravitational mixture obtained in the mixing step of sand with aqueous compositions, with separation of said mixture into an organic phase containing hydrocarbons, to the aqueous phase containing the aqueous solution of the composition, and to the solid phase, as well as the subsequent selection of the organic phase as the target product. 2. The method according to claim 1, characterized in that the solid phase obtained after gravitational sedimentation of the mixture is mixed with an aqueous solution of the above composition, taken in an amount of not less than 1.0 m ³ per ton of said solid phase, gravitational sediment of the newly obtained mixture is carried out with its separation into an organic phase, an aqueous phase and a solid phase, while the organic phase is selected as an additionally obtained target product.