RU2199385C2 - Sorbent for cleaning water and ground surfaces from crude oil and petroleum products and method of preparation thereof - Google Patents

Abstract

FIELD: oil pollution elimination. SUBSTANCE: sorbent contains 70-85% steam- and UV-treated ground brown coal, 0.2-0.2% surfactant OP-7 and OP-4, and 3.0-20% silica powder. More particularly, brown coal is first subjected to primary grinding to fineness at least 1 mm and then treated anaerobically with overheated steam at 105-110 C under simultaneous UV radiation for 30 min, carbonized at 280-340 C until volatile components are completely released, reground to fineness 0.5-100 mcm while simultaneously adding silica powder and surfactants. EFFECT: enabled preparation of environmentally safe sorbent with high capacity and low loose density. 18 cl, 3 tbl, 2 ex

Description

 The invention relates to the field of environmental protection and relates to sorbents and methods for cleaning water and soil surfaces from oil and oil products.

 The prior art sorbents for water purification, including oil products, containing coal and silicon dioxide or coal and surfactants are known [1, 2].

 The closest sorbent for cleaning water and soil surfaces from oil and oil products is a sorbent containing coal and silicon dioxide [1].

 The closest way to obtain a sorbent for cleaning water and soil surfaces from oil and oil products is a method of producing a carbon sorbent, including grinding, carbonization, steam treatment and drying of coal and the addition of silicon dioxide [1].

 However, the creation of environmentally friendly sorbents for cleaning water and soil surfaces from oil and oil products with high sorption ability with low bulk density is an urgent task.

 The problem solved by this invention is to expand the arsenal of carbon sorbents for cleaning water and soil surfaces from oil, oil products with higher sorption capacity, environmentally friendly and with a lower bulk density.

The problem is solved by obtaining a new environmentally friendly with high sorption ability and low bulk density of the sorbent containing ground brown coal treated with steam and ultraviolet radiation, aerosil and additional surface-active substances (surfactants) OP-7 and / or OP-4 in the following the ratio of components, wt.%:
Brown coal processed by steam and ultraviolet radiation - 70-85
Aerosil - 3-20
Surfactant - 0.1-0.2
obtained by a method including grinding brown coal to a fineness of less than 1 mm before treating it with superheated water vapor at a temperature of 105-110 ^o C and simultaneous ultraviolet irradiation for 30 minutes, after which carbonization is carried out at a temperature of 280-340 ^o C until the volatile components are completely released , re-grinding brown coal to a fineness of 0.5-100 microns with the simultaneous introduction of aerosil and surfactants OP-7 and / or OP-4 in the following ratio of components, wt. %:
Brown coal - 70-85
Surfactant - 0.1-0.2
Aerosil - 3-20
In the scientific, technical and patent literature analyzed by the authors, this combination of distinctive features was not found, leading to the task posed by the authors. This technical solution was experimentally studied, thus, this technical solution meets the criteria of the invention of "novelty", "inventive step" and "industrially applicable".

 The method is as follows.

In a known manner, brown coal is ground to a fineness of less than 1 mm, and then it is subjected to treatment with superheated steam at a temperature of 105-110 ^o With simultaneous irradiation with ultraviolet light for 30 minutes, then the volatile components are distilled off and carbonized at a temperature of 280-340 ^o C to complete separation of volatile components and produce a secondary grinding of treated brown coal to a dispersion of 0.5-100 microns and at the same time introduce aerosil and surfactants OP-7 and / or OP-4 in the following ratio of components in, wt.%:
Brown coal - 70-85
Aerosil - 3-20
Surfactant - 0.1-0.2
Obtained by the above method, the carbon sorbent contains ground brown coal treated with superheated water vapor and ultraviolet irradiation, aerosil and additionally surface-active additives OP-7 and / or OP-4 in the following ratio of components, wt.%:
Brown coal - 70-85
Surfactant - 0.1-0.2
Aerosil - 3-20
The justification of the modes of the method: pre-grinding to a fineness of less than 1 μm is sufficient for diffusion saturation of particles with water and extraction of soluble salts in 30 minutes of treatment of brown coal with superheated steam. Simultaneous treatment of brown coal with ultraviolet radiation leads to the formation of azone and hydrogen peroxide, which in turn oxidize the aromatic and easily oxidized components of brown coal.

Subsequent distillation of volatile substances is carried out at a temperature of 280-340 ^o C. The lower limit corresponds to the boiling point of light fractions from brown coal, and the upper limit is chosen experimentally based on the difference in the chemical composition of various brown coals and corresponds to the end of the extraction process and the formation of particles with minimal porosity.

 Secondary grinding of the complex sorbent to a fineness of 0.5-100 microns with the simultaneous introduction of a surfactant and aerosil at the lower boundary is due to the maximum sorption capacity for heavy oil. At the upper limit of 100 microns, the maximum sorption capacity for light fractions of oil and gasoline.

 At boundary concentrations of surfactants of 0.1% and aerosil of 20%, the maximum sorption capacity for light fractions is achieved, and at boundary concentrations of surfactants of 0.2% and aerosil of 3%, heavy fractions of oil and fuels and lubricants are sorbed as much as possible.

 Specific examples of the method.

 Example 1

In a known manner, 80 kg of brown coal are ground to a fineness of less than 1000 microns. The crushed brown coal is exposed to superheated water vapor at a temperature of 105 ^{° C.} for 30 minutes. In this case, the incoming steam passes through the quartz tube beforehand and is exposed to ultraviolet radiation from quartz mercury lamps located around the perimeter of the quartz tube. Then treated with the above method, brown coal is subjected to distillation of volatile substances and carbonization at a temperature of 300 ^o With until the completion of the selection of volatile components. After dry distillation, brown coal is again crushed to a fineness of less than 30 microns, and OP-7 surfactant in the amount of 0.15 kg and aerosil A-380 in the amount of 10.85 kg are simultaneously introduced.

 Example 2

In a known manner, 85 kg of brown coal are ground to dispersion. The crushed brown coal is exposed to superheated steam at a temperature of 110 ^{° C.} for 30 minutes. In this case, the incoming steam passes through the quartz tube beforehand and is exposed to ultraviolet radiation from quartz mercury lamps located around the perimeter of the quartz tube. Then, the treated brown coal is subjected to dry distillation and carbonization at a temperature of 340 ^o With until the complete selection of volatile components. After dry distillation, the brown coal is ground again to a fineness of less than 0.7 μm and at the same time the surfactant OP-4 is introduced in an amount of 0.1 kg and aerosil in an amount of 14.9 kg.

 Sorbent is a powder of dark brown or black color. It is characterized by a mesoporous structure, low bulk density, ensuring its long stay on the water surface. When the sorbent is shaken in water, a dispersed system is formed; after 10-hour exposure, the lower dispersed phase is about 20% of the total mass of the sorbent. The sorbent has good oil intensity, 1.5-3.0 times the mass.

 The main characteristics are given in table 1.

 Sorbent and its water extract were analyzed in accredited laboratories in Tomsk and Novosibirsk.

Sorbent test for sorption ability to collect oil and oil products pollution
The following petroleum products were used to test the sorption ability of the sorbent:
- gasoline I-80;
- summer diesel fuel;
- a mixture of mineral oils;
- oil.

 Sorption ability was determined by the absorption of a certain mass of oil and oil products by the mass of sorbent from a solid surface of the soil and booms from a water surface.

The sorbent was tested for sorption ability at least 5 times for each type of oil and oil products at temperatures of -15, +4, +20 ^o C. The test results are shown in table 2.

 Absorption of oil and oil products occurs in the entire volume of the sorbent. At the end of the absorption, the sorbent with oil is a viscous substance of a shiny black color. During storage, the spent sorbent hardens after 30-48 hours, with light pressure it crumbles into lumps.

 Use of a sorbent for collecting oil and oil products from a solid surface and soil.

The sorption ability of the sorbent to collect oil and oil products from a solid surface and soil was carried out at an outdoor temperature of -15, +4, +20 ^o С and with various exposure time spent sorbent with oil and oil products.

 A good sorption ability was shown by a sorbent for collecting oil contaminants from a solid surface and soil - for oil 2.5-3.0, diesel fuel and oils 2.0-2.5, gasoline 1.5-2.0 times the mass. Ambient temperature has practically no effect on sorption capacity. The spent sorbent with oil after 5 minutes of sorption has the appearance of a viscous substance of black shiny color. When stored for 30 hours or more, it turns into a black solid, with light pressure it crumbles. The sorbent is applicable for industrial and emergency oil and oil product spills in places of their production, processing, transportation and consumption.

 Use of a sorbent for collecting oil and oil products from a water surface.

The sorption ability of the sorbent to collect oil pollution from the water surface was determined:
- by applying sorbent powder to the water surface of an oil spill:
- applying a boom with a sorbent to a stain of oil;
- gradation of oil spots to the shore of the reservoir.

 The sorbent provides good removal of oil spills from the water surface of oil and oil products with sorbent powder and booms, but it is difficult to use on an industrial scale due to the loss of sorbent with oil and booms to the bottom of the reservoir, thereby polluting it with waste.

 The collection of oil from the water surface is possible when the grads are bonding oil spots to the shore. On shore, oil is collected in a tank and used for its intended purpose or neutralized by applying sorbent powder to the surface of the oil to form a paste-like waste.

The possibility of disposal and reuse of spent sorbent as artificial solid fuel
The spent sorbent with oil collected from the soil surface was studied with an exposure of 1 day and 7 days.

 Comparative data of the source of brown coal and spent sorbent are given in table 3.

 From table 3 it follows that the ash content of the spent sorbent decreased 1.7-4.3 times, the net calorific value increased 1.8-2.1 times. Thus, when using a sorbent for collecting oil and oil product spills, the spent sorbent with oil can be used as high-calorific artificial solid fuel.

 Spent waste of the sorbent with oil is not soluble in water. With long-term storage of waste in water, a rainbow film of oil does not form on the surface. Apparently, the adsorbed substances are catalytically oxidized and degraded to elementary organic compounds. Humic acids contained in brown coal, as well as in the sorbent, catalytically accelerate the process of oxidation and destruction of oils, fuels and lubricants.

 Thus, the technology for collecting oil and oil product spills is non-waste due to the use of waste as solid fuel.

 The sorbent is designed to collect oil and oil products from a solid surface, soil and from a water surface and is applicable for production and emergency spills in places of production, processing, transportation and consumption.

 According to the results of laboratory studies of the sorbent and its aqueous extract, it was found that the sorbent is an environmentally friendly material and has a number of properties that can be effectively used to collect oil and oil products.

These properties include:
- low bulk density of the sorbent, ensuring a long stay on the surface of the water booms;
- high sorption ability for oil and oil products;
- non-waste technological process of collecting oil and oil products due to the possibility of using the spent sorbent as solid fuel;
- the spent sorbent with oil and oil products has a high calorific value, the lower heat of combustion of the product is 2 times higher than that of brown coal;
- the spent sorbent with oil is insoluble in water, does not form a rainbow film of oil products on the surface of the water. The waste can be stored for a long time at the site of the oil spill, without polluting the environment.

 The main raw material for the manufacture of the sorbent is a natural material - brown coal with the introduction of small amounts of substances of the 4th class of toxicity.

 Cleaning the environment from oil spills and oil products involves the development of effective oil sorbents.

 The developed natural sorbent based on brown coal is characterized by a mesoporous structure, low bulk density, which ensures its long stay on the water surface, and good oil consumption.

 The sorbent is applicable for the collection of oil and oil products in places of production, refining, transportation, during production and emergency spills from a solid surface, soil and water surface.

 It is possible to use the sorbent at oil depots, oil wells, ships during transportation of oil and oil products by water, at oil refining complex enterprises, and industrial enterprises.

Sources of information
1. DE 2411829 C2 (WILZ-PAULS), 12/9/1981.

 2. EP 0129259 A1 (LABORATORIUM FUR ADSORPT), 12/27/1984.

Claims (7)

1. Sorbent for cleaning water and soil surfaces from oil and oil products, containing coal and silicon dioxide, characterized in that it contains crushed brown coal treated with steam and ultraviolet radiation, aerosil and additionally surface-active substances in the following ratio of components, wt. %:
Brown coal processed by steam and ultraviolet radiation - 70-85
Aerosil - 3-20
Surfactant - 0.1-0.2
2. The sorbent according to claim 1, characterized in that it contains OP-7 and / or OP-4 as a surfactant. 3. A method of producing a sorbent, including grinding, carbonization, treatment with water vapor and drying coal and adding silicon dioxide, characterized in that brown coal is used as coal, the treatment is carried out with superheated water vapor with simultaneous ultraviolet irradiation, after which carbonization is carried out at 280- 340 ^o With until the complete selection of volatile components and re-grinding is carried out with the addition of aerosil and surfactants. 4. The method according to claim 3, characterized in that the brown coal is treated with superheated water vapor at a temperature of 105-110 ^o With no access to air.  5. The method according to claim 3, characterized in that the brown coal is treated with superheated water vapor and ultraviolet radiation for 30 minutes  6. The method according to claim 3, characterized in that the brown coal is first crushed to a fineness of less than 1 mm, and secondly to a fineness of 0.5-100 microns.  7. The method according to claim 3, characterized in that as surfactants use OP-7 and / or OP-4. 8. The method according to claim 3, characterized in that the brown coal, surfactants and aerosil are taken in the following ratio of components wt.%:
Brown coal - 70-85
Surfactant - 0.1-0.2
Aerosil - $ 3-20

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