RU2050972C1 - Sorbent for treatment of water polluted with oil and oil products, and water treatment device - Google Patents

Abstract

FIELD: environmental protection. SUBSTANCE: sorbent is constituted by foam graphite produced by heating oxidized graphite at 600-650 C. The sorbent is contained in a hollow space between concentrically-arranged shells made of glass fabric in the form of a capsule one end of which is open and the other one, closed. EFFECT: improved functional and operating characteristics. 4 cl, 2 dwg, 1 tbl

Description

 The invention relates to environmental protection and can be used to clean the surface of reservoirs from oil and oil products.

Natural and synthetic sorbents and devices for cleaning water surfaces are widely known, for example peat, straw, sawdust, clay, perlite, etc. [1]
The use of these sorbents is difficult due to low and short buoyancy.

Known sorbent for cleaning water surfaces based on solid material, where vermiculite is used as a solid material, which is burned with paraffin [2]
Closest to the invention is a device for removing oil stains containing sorbent and a permeable shell [3]
The disadvantages of the known sorbent are the difficulty of storage and transportation, the inability to use in case of fire. In addition, to increase the buoyancy it is pre-treated with water-repellent material.

 The purpose of the invention is to increase buoyancy, fire resistance and reduce the consumption of sorbent.

The goal is achieved in that as a sorbent for cleaning water from oil and petroleum products, penografite obtained by heating oxidized graphite to 600-650 ^about . To this end, in a device comprising a permeable shell and a sorbent, the shell is made in the form of a capsule with double walls of fiberglass, and the sorbent is placed between the walls of the capsule. The capsule has one closed and the other open end and is equipped with a rod mounted along the axis of the capsule and a fastener with a lock on one end of the rod.

EXAMPLES EXAMPLE 1 Oxidized graphite with a bulk density of 100 g / l is fed to the burning zone using a muffle furnace and at 550 ^{° C} is maintained for 5 minutes. After cooling, the bulk density of the formed penografite was 50.0 g / l, a 2-fold increase in volume. The sorption capacity of the obtained penografit in relation to petroleum products was carried out in a vessel with an area of 200 cm ² . A sorbent was applied to the oil layer with a density of 0.95 g / cm ³ on the surface of the water (layer thickness 1-3 mm), the contact time with oil was 30 minutes. The amount of sorbed oil was determined by the difference in weight of the sorbent before and after refining. Sorption capacity was 10-15 g of oil / g of sorbent. The degree of purification of the water surface is 100%. The determination of buoyancy was carried out by comparing the mass of the sorbent remaining (floating) on the surface of the water and settled to the bottom over time. Buoyancy was 95% and remained at that level for 100 days.

PRI me R 2. The test process was carried out analogously to example 1 except that the firing was carried out at t 600 ^about C. The volumetric weight of the formed penografit was 5.0 g / l, an increase in volume of 20 times, the sorption capacity of 30 g of oil / g of sorbent, the degree of purification of the water surface 100% buoyancy 100% for more than 100 days.

PRI me R 3. The process and tests are carried out analogously to example 1, except that the firing is carried out at t 650 ^about C. The volumetric weight of the formed penografite amounted to 4.7 g / l, an increase in volume of 21.3 times, sorption capacity 35 g of oil / g of sorbent, the degree of purification of the water surface 100% buoyancy 100% for more than 100 days.

PRI me R 4. The process and tests are carried out analogously to example 1, except that the firing is carried out at t 700 ^about C.

 The volumetric weight of the obtained penografite was 4.6 g / l, an increase in volume of 21.7 times, the sorption capacity of 35 g of oil / g of sorbent, the degree of purification of the water surface 100% buoyancy 100% for more than 100 days.

 The table shows comparative data of the proposed and known sorbent, confirmed by tests.

 In FIG. 1 schematically shows the proposed device; figure 2 warehousing device.

 The device consists of a capsule 1 having an outer 2 and an inner 3 shell placed concentrically, with one side of the capsule being closed for better joining, and the other open. A sorbent 4 is placed between the outer and inner 1 and 2 shells. The capsule is provided along the axis with a rod 5 with a fixing unit 6 and a lock 7 for attaching the next capsule.

 Capsules with oxidized graphite delivered to the spill site (or the intended spill) are heat treated to convert oxidized graphite to penografite. After that, the process of assembling them begins. To do this, with the help of locks 7 located on the rod 4, one capsule is docked to the other, for which the closed side of one capsule is connected to the open side of the second, due to which the two capsules are articulated, which allows them to take positions depending on the state of the water surface, changing with her excitement. In addition, this compound prevents the penetration of polluting spills through it. By connecting capsules, various configurations can be created: ring barriers, mats, booms and rafts.

 In addition, blanks of capsules with penografit can be manufactured industrially at specialized enterprises.

 After the sorbent is saturated with oil or the spots disappear, the capsules are removed, disassembled in the reverse order described, and sent for regeneration, after which it becomes possible to use the sorbent three or more times.

 The high hydrophobicity of the sorbent and, as a result, the almost unlimited buoyancy in water, make it possible to place obstacles in front of the front of the oil spill in advance or to outline the sites of possible pollution, for example, in offshore oil fields, in oil plants.

 Fire resistance of the sorbent and fiberglass shell allows you to use the device in the elimination of burning oil spills and to destroy localized spills by artificial ignition.

Claims (4)

1. Sorbent for water purification from oil and oil products based on solid material, characterized in that the solid material used is penografit obtained by heating oxidative graphite at 600,650 ^o C.  2. A device for purifying water from oil and oil products, containing a sorbent and a permeable shell, characterized in that the shell is made in the form of a capsule with double walls of fiberglass, while the sorbent is placed between the walls of the capsule.  3. The device according to claim 2, characterized in that the capsule has one open and another closed ends.  4. The device according to PP.2 and 3, characterized in that it is provided with a rod mounted along the axis of the capsule, and a fastener with a lock at one end of the rod.

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