RU2031849C1 - Method of extraction of petroleum and petroleum products from water - Google Patents

Abstract

FIELD: petroleum industry. SUBSTANCE: petroleum and petroleum products were extracted by contacting of water with carbon-containing sorbent - buckwheat grains husk treated at 150-450 C for 10-20 min following by regeneration of sorbent with hydrocarbon or organic solvent or their mixture. EFFECT: improved method of extraction.

Description

 The invention relates to a method for removing oil and oil products from the surface of the water and from wastewater by adsorption with a carbon-containing sorbent and can be used in the field of environmental protection in various sectors of the economy.

 A known method of extracting oil and oil products from water, comprising contacting the water with a carbon-containing sorbent - a black walnut shell with subsequent regeneration of the sorbent by a liquid [1].

 The purpose of the invention is to increase the degree of extraction of oil and oil products from the surface of the water and from wastewater.

 The method is as follows.

PRI me R 1. 100 g husk of buckwheat grain is loaded into the crucible of a muffle furnace and subjected to heat treatment at 150 ^about C and atmospheric pressure for 20 minutes As a result of heat treatment, a carbon-containing sorbent of brown color is obtained in an amount of 89.0 g.

PRI me R 2. 100 g husk of buckwheat grain is loaded into the crucible of a muffle furnace and subjected to heat treatment at 250 ^about C and atmospheric pressure for 20 minutes As a result of heat treatment, a sorbent carbon-containing dark brown in the amount of 77.2 g.

PRI me R 3. 100 g husk of buckwheat grain is loaded into the crucible of a muffle furnace and subjected to heat treatment at 450 ^about C and atmospheric pressure for 10 minutes As a result of heat treatment, a carbon-containing sorbent of black color is obtained in an amount of 19.6 g.

 PRI me R 4. 11.70 g of Romashkinskaya oil is poured onto the surface of the water in a glass beaker with a diameter of 250 mm to obtain a blurred oil stain. Then, 3.5 g of the sorbent obtained in Example 1 is applied to the washed-out oil slick. The oil slick is sorbed by the sorbent for no more than 10 minutes and disappears completely. The sorbent, saturated with oil, does not sink and is easily collected mechanically from the surface of the water and undergoes regeneration.

 The regeneration of oil-saturated sorbent is carried out as follows. The sorbent is placed in a separatory funnel and treated with 25 ml of gasoline. In this case, the sorbent is completely washed from oil. The resulting solution of oil in gasoline from a separatory funnel is loaded into a distillation flask with a Widmar nozzle. As a result of distillation of this solution, distillate is obtained - gasoline (in an amount of 25 ml) and the remainder is oil (in an amount of 11.69 g).

For comparison, 3.5 g of black walnut shells are applied to the blurred oil stain obtained under the above conditions. Black walnut shells obtained by heat treatment of 100 g of walnut shell crucible in a muffle furnace at ²⁵⁰ ° C and atmospheric pressure for 20 min. The yield of black walnut shells is 78.6 g.

 An oil slick is sorbed by this sorbent for 10 minutes and does not completely disappear. The sorbent, saturated with oil, does not sink and is collected mechanically from the surface of the water. The regeneration of oil-saturated sorbent is carried out under the above conditions. As a result of distillation of a solution of oil in gasoline, distillate is obtained - gasoline (in an amount of 25 ml) and the remainder is oil (in an amount of 5.87 g).

PRI me R 5. On the surface of industrial wastewater in a treatment tank (surface area 4 m ² ), pour 400 g of Mordovian-Karmal natural bitumen extracted from bituminous rock by in situ combustion, with the formation of a blurred bitumen stain. Then, 330 g of the sorbent obtained according to Example 2 is applied to the washed-out bituminous spot. The bituminous spot is sorbed for 10 minutes by the sorbent and disappears completely. The sorbent saturated with natural bitumen does not sink and is easily collected by a scraper or mesh trap from the surface of the water and undergoes regeneration.

 The regeneration of a sorbent saturated with natural bitumen is carried out as follows. The sorbent is placed in a separatory funnel and treated with 900 ml of an alcohol-gasoline mixture (20% ethanol + 80% gasoline). In this case, the sorbent is completely washed from natural bitumen. The resulting solution from the separatory funnel is loaded into a distillation cube apparatus ARN-2. As a result of distillation of the solution, a distillate is obtained - an alcohol-gasoline mixture (in the amount of 891 ml) and the remainder is natural bitumen (in the amount of 392 g).

 PRI me R 6. In a glass adsorption column load the sorbent obtained in example 3, in the amount of 0.15 g. Through the adsorption column with the sorbent passed 1000 ml of wastewater containing Romashkinskaya oil in the amount of 100 mg. As a result, water with an oil content of not more than 0.3 mg / L is obtained at the column outlet.

 The regeneration of oil-saturated sorbent is carried out as follows. 5 ml of gasoline is passed through an adsorption column with an oil-saturated sorbent. In this case, the sorbent is completely washed from oil. The resulting solution of oil in gasoline is loaded into a distillation flask with a Widmar nozzle. As a result of distillation of this solution, distillate - gasoline (in the amount of 5 ml) and the remainder of the oil (in the amount of 99.7 mg) are obtained.

 For comparison, under the above conditions, waste water is passed through 0.15 g of black walnut shell obtained as in Example 4. As a result, water with an oil content of 1.2 mg / L is obtained at the column outlet.

 The regeneration of oil-saturated sorbent is carried out under the above conditions. As a result of distillation of a solution of oil in gasoline, distillate is obtained - gasoline (in an amount of 5 ml) and the remainder is oil (in an amount of 98.8 mg).

 PRI me R 7. In a glass adsorption column load the sorbent obtained in example 2, in an amount of 0.15 g. Through an adsorption column with a sorbent 1000 ml of wastewater containing industrial oil in an amount of 50 mg is passed. As a result, water is obtained at the column outlet with an industrial oil content of not more than 0.3 mg / l.

 The regeneration of a sorbent saturated with industrial oil is carried out as follows. 5 ml of gasoline is passed through an adsorption column with a saturated industrial oil sorbent. In this case, the sorbent is completely washed off from industrial oil. The resulting solution of industrial oil in gasoline was charged into a distillation flask with a Widmar nozzle. As a result of distillation of this solution, distillate is obtained - gasoline (in the amount of 4.9 ml) and the remainder is industrial oil (in the amount of 49.7 mg).

 For comparison, under the above conditions, waste water is passed through 0.15 g of black walnut shell obtained as in Example 4. As a result, water with an industrial oil content of 0.9 mg / L is obtained at the column outlet.

 The regeneration of a sorbent saturated with industrial oil is carried out under the above conditions. As a result of distillation of a solution of industrial oil in gasoline, distillate - gasoline (in the amount of 4.9 ml) and the residue - industrial oil (in the amount of 49.1 mg) are obtained.

 The proposed method for extracting oil and oil products from the surface of the water and from wastewater in comparison with the known allows to increase the degree of extraction of oil and oil products from water.

Claims (1)

METHOD FOR REMOVING OIL AND OIL PRODUCTS FROM WATER, including contacting water with a carbon-containing sorbent and regenerating the sorbent, characterized in that husk of buckwheat grains processed at 150-450 ^° C for 10-20 minutes is used as the carbon-containing sorbent, and the regeneration is carried out with an organic solvent or a mixture of organic solvents, one of which is selected from the class of hydrocarbon liquids.