RU1779743C - Method for supplementary of oil from clayey oil-bearing sands - Google Patents

Abstract

SUMMARY OF THE INVENTION; oil-bearing clay sands are sequentially treated with a 5% aqueous solution of sodium silicate and a 3-4% solution of calcium chloride in produced water at a flow rate of solutions of 1 m3 per 1 ton of sand. 1 wpp, 3 tab.

Description

The invention relates to the oil industry, in particular to methods for producing oil from tar sands.

A known method of washing oil from tar sands, comprising mixing tar sands with an aqueous solution of trialoselepide or a solution of organic solvents miscible with water at a temperature of 363 K.

The disadvantage of this method is the low degree of oil recovery. Clay particles contained in tar sands, upon contact with water, swell and adsorb oil particles, which prevents complete washing out of the oil.

A method is known for washing oil from tar rocks, comprising mixing tar sands with an aqueous solution of sodium silicate and rosin.

The disadvantage of this method of washing is that the rosin is softened at a temperature of 343 K,

It is soluble in organic solvents and acetic acid.

Closest to the proposed technical solution is a washing method comprising treating the feedstock with an aqueous solution of sodium silicate and water.

The disadvantage of this method is that a sodium silicate solution is prepared in fresh water, while the clay in tar sands, when it meets with water, swells and adsorbs oil, which is then difficult to separate from the clay surface.

A positive effect from the application of the proposed method is obtained due to the adsorption of oil from clay, where the amount of washed oil increases.

The essence of the method is that an aqueous solution of sodium silicate in contact with tar sands reduces the surface tension between the oil and the solid surface of the sand to a minimum, therefore, the adhering oil is separated from the surface of the sand and is immediately absorbed by the swollen clay. Further processing is carried out with an aqueous solution of calcium chloride, which allows the replacement of ions, i.e. cations, to cations of higher valency Ca. In this case,

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VI XI

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deadsorption of oil parts from clay is in progress.

In the proposed method, formation water is used to prepare aqueous solutions of sodium silicate and calcium chloride.

The formation water is mineralized, the type is sodium carbonate, in its composition it contains in the dissolved form a certain amount of oil fractions, as well as alkaline salts of naphthenic acids and surfactants.

Total mineralization is 55.2 mg / equiv, chlorine content of 27.2 mg / equiv and Na + K of 15.9 mg / equiv. Salinity is not more than 2.4 °. The presence of these substances gives the prepared solution properties that contribute to better ion exchange.

When preparing an aqueous solution of sodium silicate and calcium chloride with this water, a positive result is obtained when the oil is washed from the sands.

Preparing aqueous solutions of sodium silicate in non-mineralized water, washing it off does not make sense, since clay swells on non-mineralized water.

Example. At the end of the grinding of fine tar sand in a chemical refractory cup, they were first filled with 100 cm of a 5% aqueous solution of sodium silicate and stirred with a mechanical stirrer for 10 minutes at 363 K, and then they were filled with 100 cm3 of a 1% aqueous solution of calcium chloride and - Chali to wash out oil adhering to clay. In this case, the washed oil was measured; it amounted to 81%.

Examples 2, 3, 4, and 5. Similar to Experiment 1, but only the concentration of calcium chloride was 2, 3.4, and 5%. The oil yield, respectively, was 87; 95; 94.5; 95.1%.

The results of all experiments are given in table 1.

The results of experimental studies show that experiment No. 3 was adopted as the best result, a further increase in the amount of reagents has little effect on the percentage of oil washing from tar sands.

Therefore, the optimal option for the proposed method is considered to be a 5% aqueous solution of sodium silicate and 3-4% aqueous solution of calcium chloride,

In other experiments of washing oil from sand, temperature ranges were studied. For this, the concentration of aqueous solutions of sodium silicate and calcium chloride was taken constant, and the temperature of the experiment was changed each time.

According to Table 2, the optimum temperature range for washing is considered to be from 353-363 K.

In the experiments, concentration ranges of an aqueous sodium silicate solution were also determined. The temperature of the experiment and the concentration of the aqueous solution of calcium chloride were kept constant.

The results of the experiments are given in table.3. It can be seen from Table 3 that the best washout occurs with a 5% aqueous solution of sodium silicate. A further increase in the concentration of sodium silicate does not affect the increase in the amount of oil washing from oil sand.

Washed oil by the proposed method was analyzed by component composition.

Density, g / cm30.9404

Component composition,%

Oil28.23

Petroleum ether 50.23

Benzene resins 6.41

Alcohol benzene resins 12.42

Carbenes 0.13

Asphaltenes 2.59

As can be seen, the extracted oil from Kirmakinsky sands corresponds, i.e. requirements for crude oil.

In the proposed method, the calcium chloride used is manufactured in enterprises of the chemical industry and meets the requirements of GOST-77. Dehydrated calcium chloride is delivered in airtight metal drums.

The proposed method has been tested under laboratory conditions. To carry out the proposed method under production conditions, it is necessary:

load the installation with oil sand;

pour an aqueous solution of sodium silicate and stir at 363 K for 10 minutes; then, a 3% aqueous solution of calcium chloride is introduced into the installation and the process of washing out oil sand is carried out;

Transfer the washed oil with an aqueous solution to sedimentation tanks to separate the water from the oil.

In the proposed method, the sand remaining after washing the oil is dried and used as a building material.

The easy availability and low cost of the components used in the proposed method eliminates any limitations on its use.

The economic effect of using the proposed method is formed from the savings resulting from a larger percentage of washed oil and the sale of solid residue (washed sand) as building materials.

Claims (2)

SUMMARY OF THE INVENTION 1. A method for additionally washing oil from clay oil sands, including treating them with a 5% aqueous solution of sodium silicate, distinguishes and so that, in order to increase the oil wash-off coefficient by preventing the adsorption of oil by clay, after processing the clayed oil sands with a sodium silicate solution, they are treated with a solution of calcium chloride in produced water of 3-4% concentration. 2. The method according to claim 1, characterized in that the processing of clay oil sands is carried out with solutions of sodium silicate of calcium chloride at the rate of 1 m3 of solution per 1 ton of sand. Table 1 table 2 Table 3