RU2752312C1 - Compound for cleaning the water surface from oil and petroleum product films - Google Patents

Abstract

FIELD: nature protection.

SUBSTANCE: invention relates to environmental protection. That is a compound for cleaning the water surface from films of oil and petroleum products, which contains, weight percentage: bentonite 81.93-83.65; polysorbate-80 14.25-15.75 xanthan 1.05-1.16; silicon dioxide 1.05-1.16. EFFECT: technical result is a reduction in toxicity, an increase in the efficiency of cleaning the surface of marine waters from oil and petroleum products due to their dispersion, including in winter (ice) conditions.

1 cl

Description

The invention relates to environmental protection, in particular to the dispersion of oil and oil products in the aquatic environment, and allows you to take measures to eliminate oil and oil products spills in sea areas (including in winter (ice) conditions).

To solve this problem, there are many liquid dispersants containing various classes of compounds capable of fragmenting an oil slick into many small droplets, which can quickly spread in the water column and undergo biodegradation by natural microorganisms.

An oil spill dispersant is known in the art and has been proposed by Chinese authors who have shown that a mixture of palygorskite nanoscale magnesium aluminosilicate (PAL) and rhamnolipid (Rha) biosurfactant forms a biocompatible alternative to synthetic surfactants used to disperse oil spills. The oil droplets dispersed with Rha-PAL had small average size and long-term stability, illustrating the synergistic interaction between Rha and PAL acting as an effective dispersant in artificial seawater (ASW) (Chen D. et al. Biosurfactant-modified palygorskite clay as solid-stabilizers for effective oil spill dispersion // Chemosphere. - 2019. - T. 226. - P. 1-7).

The disadvantage of the above dispersant is that the mineral used, palygorskite, is relatively rare in nature, in the form of films, nests and small layers, which reduces the possibilities for its use in large-scale production.

In addition, the use of rhamnolipid as a component of a dispersant is currently difficult, because There is no production of the biosurfactant rhamnolipid, and its use significantly increases the cost of the dispersant production technology.

A water-based oil dispersant is known, which contains an oil-soluble surfactant (hereinafter - surfactant), a water-soluble surfactant, a co-solvent for combining an oil-soluble surfactant and oil with a water-soluble surfactant, and an aqueous component is added to reduce the viscosity of the mixture (US No. 6261463, MKP C02F 1/68; B01F 17/00; B01F 17/34; C09K 3/32; B01F 17/22; publ. 07/17/2001).

Known oil dispersant, which contains a number of active components mixed with water (US No. 4992213, MKP C11D 1/72; C09K 3/32; C11D 1/94; C02F 1/68; C11D 3/43; C11D 1/52 ; C11D 1/14; publ. 12.02.1991).

The dispersant provides for the use of such active ingredients mixed on a water basis: from 0.02% to 2.25% of the total mass of sodium lauryl sulfate, from 0.02% to 1.95% of the total mass of cocamidopropyl betaine, from 0.002% to 0, 25% of the total weight of ethoxylated nonylphenol, from 0.04% to 4.25% of diethanolamide of lauric acid, from 0.02% to 1.85% of the total weight of diethanolamine and from 0.02% to 1.85% of the total weight propylene glycol.

Known oil dispersant, which effectively destroys crude oil at the molecular level, preventing the recovery of the oil film (US No. 8415286 B1, MKP C11D 1/90; publ. 09.04.2013). The composition of the liquid dispersant is as follows, wt. %: 1) cocoamidopropyl betaine 8.87; tall oil fatty acid 7.74; monoethanolamine 8.68; nonionic octylphenol ethoxylate 8.87; nonionic octylphenol ethoxylate 9.06; tetrasodium salt of ethylenediaminetetraacetic acid 9.15; water 47.63.

Most modern surfactants used in dispersants are composed of a mixture of two or three nonionic surfactants, and sometimes include anionic surfactants. Some of the most widely used nonionic surfactants have a hydrophilic portion based on sorbitan (derived from sorbitol). These nonionic surfactants have the common trade name "Span". Other nonionic surfactants used are known collectively as "Tween". They are ethoxylated sorbitan esters. An aniogenic surfactant used in many modern dispersants is sodium diisooctyl succinate, sometimes called DOSS.

Currently, the following chemical oil dispersants are approved for use in Russia - OM-6, OM-84 (produced in Russia) and Corexit 9527 (produced in the USA), in accordance with the “Instructions for the use of oil dispersants OM-6, OM-86 and Korexit 9527 "RD 31.04.24-86.

All of the above liquid dispersants effectively emulsify oil, however, they poorly stabilize the resulting emulsions due to their good solubility not only in oil, but also in water, which causes their depletion on the surface of emulsion droplets and a decrease in its stability.

In addition, liquid dispersants based on organic solvents, in particular Corexit, are toxic to marine biota and may increase the toxicity of weathered crude oil (Place B. et al. A role for analytical chemistry in advancing our understanding of the occurrence, fate, and effects of corexit oil dispersants // Environmental Science and Technology. - 2010. - T. 44. - V.16. - C. 6016-6018).

The closest analogue of the claimed invention is a liquid dispersant, which contains (wt%): oil-soluble oxyethylated alkyl phenols 30-50, alkyphosphates of higher fatty alcohols 5-15, diethanolamines of fatty acids 1.0-10.0 and liquid paraffins - the rest is up to 100 wt. % (SU 1325816 Α1, IPC C02F 1/40; E02B 15/04; C02F 103/08; publ. 15.10.1992), while the use of liquid dispersants is limited to positive temperatures, and due to the use of organic solvents, it damages the environment.

The object of the invention is to obtain a composition that ensures the formation of stable suspensions in water-oil systems.

The technical result provided by the claimed invention is a decrease in toxicity, an increase in the efficiency of cleaning the water surface of sea areas from oil and oil products due to their dispersion, including in winter (ice) conditions.

The technical result is provided by the fact that the composition for cleaning the water surface from films of oil and oil products contains the following components, wt. %:

bentonite 81.93-83.65 polysorbate-80 14.25-15.75 xanthan 1.05-1.16 silica 1.05-1.16.

A feature of the composition is the use of natural mineral compounds (bentonite clays) capable of forming stable suspensions, including in water-oil systems.

The claimed composition based on natural organic-inorganic hybrid materials is a new promising class of drugs for dealing with the consequences of oil spills. The principle of their action is somewhat different from traditional liquid dispersants and is based on the fact that fine powders of insoluble natural materials can serve as an effective stabilizer for emulsions, and the surfactants included in its composition provide the emulsifying effect of the drug. Therefore, the created composition for cleaning the surface of water from films of oil and oil products should consist of a surface-active emulsifier and solid particles of a stabilizer.

The possibility of modifying natural clay-like compounds with substances having surface activity and the use of such clays for dispersing petroleum products was shown by D. Chen (Chen D. et al. Biosurfactant-modified palygorskite clay as solid-stabilizers for effective oil spill dispersion // Chemosphere. Pergamon, 2019. Vol. 226. P. 1-7.).

The authors of the known solution used clay containing palygorskite as the main mineral, and the modification was carried out with biosurfactants of microbial origin.

In the composition proposed in the present invention, bentonite clay is used, the main mineral of which is montmorillonite, and polysorbate is used as a surfactant.

The possibility of using fine particles of solid natural materials as dispersants for petroleum products at low positive temperatures was shown during a fuel oil spill in the St. Lawrence River near Matan, Quebec. Spots of oil were treated with a mixture of chalk particles with sea water by spraying the mixture over the spilled oil and stirring with an icebreaker screw. The authors showed that 56% of the oil product decomposed after 56 days of incubation at a temperature of 0.5 ° C (Lee K. et al. In situ remediation of oil spills in ice-packed waters: Enhanced dispersion and biodegradation of petroleum hydrocarbons // Proceedings of the 10th International In Situ and On-Site Bioremediation Symposium, Baltimore: Battelle Memorial Institute, Columbus, OH, 2009. No. January).

The preparation of the composition according to the present invention for cleaning the surface of water from films of oil and oil products is carried out as follows.

The preparation of the composition for cleaning the water surface from films of oil and oil products is carried out in the drum of a planetary mill. Bentonite powder is ground in a mill, where steel balls with a diameter of 10 mm of the ShKh-15 brand are used as grinding bodies. The rotation speed of the planetary disk is 450 rpm, the rotation speed of the drum around its own axis is 900 rpm. The mill drum is loaded with a biosurfactant of a polysaccharide nature - xanthan and an anticaking agent of silicon dioxide.

A cycle of joint grinding is carried out in the drum of a planetary mill. At the end of the grinding process, the mill drum is opened and, using a syringe, a nonionic surfactant polysorbate-80 is introduced into the mixture. All components are mixed at a planetary disk rotation speed of 450 rpm. The finished dry form of the composition for cleaning the water surface from films of oil and oil products is unloaded onto a sieve to separate the balls and transferred to a sealed container. Evaluation of dispersant activity.

Based on theoretical studies, the Warren Spring Laboratory method was chosen to evaluate the effectiveness of dispersion. This method was chosen as a basis in connection with the possibility of its modification for a composition made in the form of a solid dispersant and adaptation to ice conditions while maintaining the reproducibility of experimental data in several repetitions. The technique is based on the application of a composition for cleaning the surface of water from films of oil and oil products in the required amount to a known volume of oil or oil products located on the surface of artificial seawater in a conical separating funnel. The separating funnel rotates around the horizontal axis for 2 minutes at 33 rpm. A 50 ml sample of water is extracted with chloroform and analyzed on a spectrophotometer at a wavelength of 580 nm. Dispersion efficiency is determined by the formula:

When determining the efficiency of dispersion of the proposed composition for cleaning the water surface from films of oil and oil products, the following oil products were used, in relation to which the indicator was determined: oil transported by OOO Transneft - Port Primorsk (medium oil, sulphurous, preparation grade 1. 201_GOST Ρ 51858-2002 ); oil transported by OOO Transneft - Port of Kozmino is light, low-sulfur, preparation grade 1. 111_GOST Ρ 51858-2002); diesel fuel transported by LLC Transneft - Port Primorsk (diesel fuel EURO, summer, grade C, ecological class K5 (DT-L-K5)); gasoline transported by JSC Transneft-Upper Volga (unleaded gasoline AI-92-K5); kerosene transported by Transneft-Upper Volga, JSC (jet fuel brand TS-1, premium grade in accordance with GOST 10227-86 with amendments 1-6).

The list of variable dispersion conditions includes: sea water salinity; surface water temperature; the presence of sludge and broken ice; the ratio of composition for cleaning the water surface from films of oil and oil products / oil product.

Liquid dispersant FINASOL OSR52 manufactured by TOTAL FLUIDES Germany was used as a reference drug.

The average values of dispersion efficiency indicators after all studies are presented in tables 1, 2, 3, 4.

The results obtained indicate a high dispersing activity of the developed composition for cleaning the water surface from films of oil and oil products in relation to oil, kerosene, gasoline, diesel fuel, at a surface water temperature of 25 ° C and minus 2 ° C (presence of slush and ice); salinity of water 3, 5 and 15% about; with a ratio of composition: oil product - 1:10, 1: 3. In terms of dispersion efficiency, the developed composition for cleaning the water surface from films of oil and oil products is not inferior to the liquid dispersant FINASOL OSR 52 manufactured by TOTAL FLUIDES Germany.

A change in the ratios of the components used in the direction of their increase or decrease over 5% leads to a change in operational characteristics and, as a consequence, a decrease in the efficiency of dispersion.

Claims (2)

Composition for cleaning the surface of water from films of oil and oil products, characterized in that it contains the following components, wt%: bentonite 81.93-83.65 polysorbate-80 14.25-15.75 xanthan 1.05-1.16 silica 1.05-1.16.