RU2219134C1 - Method of cleaning water surface to remove oil pollution - Google Patents

Abstract

FIELD: oil pollution elimination. SUBSTANCE: method comprises contact of polluted water with peat sorbent until oil is bound in sorbent and removed from water surface, Peat is preliminarily modified by drying at 100-120 C. EFFECT: enhanced cleaning efficiency and reduced expenses due to lower consumption of sorbent and facilitated preparation. 2 tbl, 5 ex

Description

 The invention relates to a method for cleaning the water surface from oil pollution and can be used in environmental protection, in particular, when cleaning the water surface during emergency oil and oil product spills and when cleaning water areas from hydrocarbon films.

 A known method of purifying water and soil from pollution with oil and oil products [1], including the introduction into the polluted environment of a culture of microorganisms and mineral additives containing nitrogen, phosphorus, potassium. As a culture of microorganisms, a mixture of active natural oil-absorbing cultures of microorganisms isolated from the natural community of microorganisms in a contaminated environment is used, and the culture of microorganisms is applied on a neutral porous carrier, which is used as peat, earth, sawdust.

 The disadvantage of this method is the complexity of the process of isolating oil-absorbing culture of microorganisms from contaminated soil and applying it to a porous carrier, as well as the duration of the operation of cleaning the water surface from oil pollution and its insufficiently high efficiency.

 A known method of treating wastewater and the water surface from contamination by oil and oil products [2] by contacting water with a sorbent containing peat in an amount of 90-95 wt.%, Zeolite, in an amount of 4-8 wt.%, A mixture of anionic and nonionic surface active substances, in an amount of 0.5-1.5 wt.%.

 The disadvantage of this method is the applicability of the proposed composition of the sorbent, including components of different specific gravities, mainly for stationary use, for example for the treatment of wastewater from oil pollution. When cleaning the water surface from oil pollution, the use of zeolite in the composition of the sorbent is impractical. Since it does not have buoyancy, it will sink and therefore will not perform the function of a water purifier from impurities.

 The closest to the proposed technical essence and the achieved effect is a method of purifying water from oil and oil products pollution [3], including contacting water with an adsorbent containing peat or its mixture with sapropel in an amount of 95-99.5 wt.% And a modifier - salt divalent metals of humic acids in an amount of 0.05-5.0 wt.% until the pollution is completely bonded and the sorbent saturated with oil or oil products is removed.

 The disadvantage of this method is the use of a sorbent based on peat of a disturbed structure as a result of extraction of humic acids from it, which leads to a decrease in the sorption ability of the drug in relation to oil and oil products, and therefore the cleaning efficiency.

 Another disadvantage is the complexity of the operation of preparing a modifier, which is part of the sorbent, which consists in extracting humic acids from peat, and sapropel - salts of bivalent metals, followed by their mixing and obtaining a gel-like salt of humic acid with a divalent metal, which makes the sorbent expensive.

The invention is aimed at eliminating the above disadvantages and lies in the fact that the method of cleaning the water surface from oil pollution, including contacting water with a peat sorbent until the oil pollution contact the sorbent and remove it from the water surface, moreover, as the sorbent is used peat, which is pre-modified by drying at 100-120 ^o C.

The main difference of the proposed method is the use of peat as a sorbent, previously modified by drying at 100-120 ^o With high sorption ability in relation to petroleum hydrocarbons, which allows to increase the cleaning efficiency and reduce costs.

 In the proposed method, it is possible to use a sorbent made from any peat, but more preferably upstream, that is, peat with a low degree of decomposition (R = 5-10%), since the lower the degree of decomposition of peat, the less its microstructure is broken, respectively, more high porosity, specific surface, more developed cellular structure and, accordingly, its higher sorption ability with respect to oil.

In the inventive method to give peat hydrophobic properties, it is dried. The optimal temperature range for drying peat is 100-120 ^o C. When thermal drying of peat is the process of converting the colloidal part of peat into an irreversible colloid.

When the drying temperature of peat is less than 100 ^o C, its ultimate moisture capacity remains quite high and peat exhibits hydrophilic properties. When drying peat at a temperature above 100 ^o With its maximum moisture capacity is significantly reduced and peat exhibits hydrophobic properties, resulting in a sharp increase in its selectivity with respect to oil in the water-oil medium. An increase in the temperature of drying of peat above 120 ^o C does not lead to a noticeable decrease in its maximum moisture capacity and an increase in hydrophobicity, but at the same time, energy costs increase, which is not economically profitable. The results are presented in table. 1.

 The sorbent can be prepared in bulk and granular form. A granular form of the sorbent is preferred when transporting it over long distances.

 If oil pollution is near a peat deposit, it is possible to prepare the sorbent at the accident site and use it in loose form. To prepare the sorbent, a portable drying unit is used.

The sorbent used in the method is prepared as follows. First, peat is modified to give it hydrophobic properties. To do this, peat is dried at a temperature of 100-120 ^o C to constant weight.

To obtain the sorbent in granular form of peat, humidity 55-65%, is subjected to granulation, followed by drying of the obtained granules at a temperature of 100-120 ^o C.

Characteristics of the sorbent of oil and / or oil products made from lowland peat (degree of decomposition 25-35%):
- sorption capacity - 4-6 g / oil / 1 g of sorbent;
- oil saturation time to the maximum value - 5-10 minutes;
- selectivity for oil in the oil-water system - 95-98%.

Characteristics of the oil sorbent sorbent made from high peat (decomposition degree of 5-10%):
- sorption capacity - 8-10 g / oil / 1 g of sorbent;
- oil saturation time to the maximum value - 5-10 minutes;
- selectivity for oil in the oil-water system - 95-98%.

 The prepared sorbent in loose or granular form is applied in the required amount to the oil-contaminated water surface with pneumatic or mechanical devices, with local spills manually.

 After saturation of the sorbent with oil to the maximum value for 5-10 minutes, it is completely removed from the water surface using a mesh trap.

 It is possible to spin the oil-saturated sorbent, which will allow the spilled oil to be returned to the production cycle, and the peat sorbent after extraction can be disposed of by preparing fuel briquettes.

 Example 1

 Determination of the sorption capacity of peat sorbent in loose form, prepared from horse peat to oil spilled on a water surface.

For the preparation of the sorbent was taken top peat decomposition of 5%, ash 4%, humidity 60%, which was modified by drying at a temperature of 110 ^o C.

 75 ml of water was poured into a glass glass with a capacity of 100 ml, after which 5 g of oil was poured.

 Small portions were taken from the total weight of the loose sorbent and scattered on the surface of the oil slick until the oil was completely bound by the sorbent. After 5 minutes, the oil-saturated sorbent was removed from the surface of the water and weighed.

 The sorption capacity of the sorbent and its specific consumption were calculated. The sorption capacity of the sorbent is 8.5 g / oil / 1 g. The specific consumption of the sorbent is 0.12 g / 1 g oil. The results are presented in table.2.

 Example 2

 Determination of the sorption capacity of peat sorbent in granular form, prepared from top peat to oil spilled on a water surface.

To prepare the sorbent in granular form, peat decomposition degree of 5%, ash content of 4%, moisture content of 60% was subjected to granulation on an extruder screw type granulator, followed by drying of the obtained granules at a temperature of 110 ^o C. The sorption capacity of the sorbent in granular form, its specific consumption was determined by Example 1. The sorption capacity of the sorbent is 8.7 g / oil / 1 g. The specific consumption of the sorbent is 0.11 g / 1 g of oil. The results are presented in table.2.

 Example 3

 Determination of the sorption capacity of peat sorbent in loose form, prepared from lowland peat to oil spilled on a water surface.

For the preparation of the sorbent was taken lowland peat decomposition of 25-30%, ash 15%, moisture 65%, which was modified by drying at a temperature of 110 ^o C.

 The determination of the sorption capacity of the sorbent and its specific consumption was determined according to example 1. The sorption capacity of the sorbent is 4.8 g / oil / 1 g. The specific consumption of the sorbent is 0.21 g / 1 g of oil. The results are presented in table.2.

 Example 4

 Determination of the sorption capacity of peat sorbent in granular form prepared from lowland peat to oil spilled on a water surface.

To prepare the sorbent, lowland peat of decomposition degree of 25-30%, ash content of 15%, moisture content of 62% was taken, subjected to granulation on a screw type extrusion granulator, followed by drying of the obtained granules at a temperature of 110 ^o C. Sorption capacity of the sorbent in granular form, its specific consumption determined according to example 1.

 The sorption capacity of the sorbent is 4.6 g / oil / 1 g. The specific consumption of the sorbent is 0.22 g / 1 g oil. The results are presented in table.2.

 Example 5

 The use of a sorbent in granular form prepared from horse peat to clean the surface of a reservoir from oil pollution.

5 kg of oil was poured onto the surface of a model reservoir with an area of 1 m ² with a depth of 20 cm. 0.57 kg of sorbent in granular form prepared from horse peat according to Example 2 was uniformly applied to the surface of the oil slick. The dose of the applied sorbent was calculated taking into account its sorption capacity with respect to oil (8.7 g of oil / 1 g).

 Within 3-5 minutes, the oil slick is sorbed by the sorbent and completely disappears, leaving no oil film on the water surface. The sorbent, saturated with oil, does not sink and is easily removed from the water surface using a mesh trap.

 Compared with the prototype and other analogues, cleaning the water surface from oil pollution using a sorbent from peat is more preferable, as it is more efficient and less expensive by reducing the specific consumption of the sorbent and reducing the complexity of its preparation.

 The sorbent used in the method is an environmentally friendly natural raw material, which makes the method environmentally friendly. In the event of oil spills near peat deposits, it is possible to produce large batches of sorbent at the accident site, which reduces the cost of the cleaning process by reducing transportation costs.

Sources of information
1. RF patent 1809822 "Method for the purification of water and soil from pollution by oil and oil products", cl. C 02 F 3/34, 1993.

 2. RF patent 2126714 "Sorbent for water purification from oil and oil products", cl. C 02 F 1/28, 1999.

 3. RF patent 2124397 "Adsorbent for cleaning from petroleum products", cl. B 01 J 20/22, 1999.

Claims (1)

The method of cleaning the water surface from oil pollution, including contacting the water with a peat sorbent until the oil pollution binds to the sorbent, and removing it from the water surface, characterized in that peat is used as the sorbent, which is pre-modified by drying at 100- 120 ^about With the formation of an irreversible colloid.

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