RU2112594C1 - Method of preparing sorbent to remove petroleum products from water - Google Patents

Abstract

FIELD: removal of oil from water surfaces. SUBSTANCE: cellulose- containing material (peat, sawdust, wood chips, rags) is heated at 180-210 C for several hours in autoclave. After that, sorption capacity of material is 2 to 40 unit weights of hydrocarbon per 1 unit weight of sorbent. EFFECT: increased sorption capacity. 1 tbl

Description

 The invention relates to methods for producing sorbents for cleaning the surface of the water from oil pollution.

 A known method of producing a sorbent for the collection (sorption) of hydrocarbons from the surface of the water, which consists in the heat treatment of sawdust in the presence of elemental sulfur.

 The disadvantages of this method are the need to use a fairly expensive environmentally and technologically harmful reagent, as well as significant, up to tens of percent, the flooding (in water) of the resulting product.

 There is also a method of producing a sorbent by heat treatment tow with cotton seeds.

 The disadvantage of this method is a very significant shortage of source material.

 A known method of removing oil from an aqueous liquid containing it, where as a sorbent use a layer of crushed wood of Californian frankincense cedar containing a small amount of paraffin wax, which imparts hydrophobicity [1].

 The disadvantage of this method of obtaining the sorbent is exotic raw materials.

 There is also a method of producing a sorbent by rapidly heating wet waste paper production to a gasification temperature of moisture, which leads to a sharp expansion and "blasting" of the fibrous material [2].

 The disadvantage of this method is the need for technological pairing with the production of paper.

A method for producing a sorbent for hydrocarbons by heating with limited air and a temperature of 180 - 210 ^o C for several hours of cellulose-containing raw materials (peat, sawdust, wood shavings, wood chips, cotton wool, cotton rags, etc.) is proposed. The resulting product is hydrophobic, does not sink in water and has a sorption capacity of 2 to 45 weight units of hydrocarbon per weight unit of sorbent (depending on the feedstock).

 The essence of obtaining the sorbent is as follows.

 Carried out with limited air access (in an autoclave) in the selected mode, the heat treatment of the raw material leads to evaporation of moisture and the release of resinous substances enveloping the particles on the surface of the processed material, giving them hydrophobicity and at the same time bitumophilicity.

 Since the feedstock varies significantly in technological properties and particle size, the sorption capacity of the final product varies widely: 2–4 for peat, 4–7 for sawdust and shavings, 8–15 for cotton rags, 15–25 for old technical cotton wool and 30 - 45 when using used medical cotton wool.

 The process of obtaining the sorbent is reagentless, so the final product is environmentally friendly as much as possible.

 Sorbent (a sorbent with absorbed hydrocarbon, from kerosene to any oils, heavy fuel oils and “working outs”), floating on the surface of the water, is collected in a “doll” - crumpled. It is easy to extract. Pressed hydrocarbon, not contaminated with anything, can be further used for its intended purpose. Pulp, if you give it the form of any briquettes, is an excellent fuel for stoves, titans or fireplaces.

Example. 100 g of peat is placed in an autoclave, incubated for 2 hours at 190 ^o C. After cooling, open the autoclave. The mass of the obtained sorbent 85 g. Test the sorbent in water with engine oil. The capacity is 2 (1 part by weight of sorbent absorbed 2 parts by weight of engine oil).

 As an example, sorbent was obtained from other sources of raw materials, varying the temperature and processing time. The data obtained are summarized in a table.

Thus, the optimum conditions for the production of sorbent for all types of cellulose-containing raw materials are: 2–3 hours, temperature 190 ^o C. Changing them in any direction reduces the sorption capacity of the resulting product.

 List of used literature.

 1. US patent N 4784773, CL. 210 - 691.

 2. US patent N 4551253, CL. 210 - 680.

Claims (1)

 1. A method of producing a sorbent for water purification from oil products, including heat treatment of the original cellulose-containing material, characterized in that the heat treatment is carried out in an autoclave to a resin temperature for several hours.

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