RU213964U1 - Sorbent material - Google Patents

Abstract

The utility model relates to sorbent materials for cleaning the surface of water from oil pollution. Sorbent material from cellulose-containing filler, which has undergone preliminary heat treatment at limited air access and temperature of 180-200°C, is placed inside a folded knitted fabric sewn around the perimeter in the form of jointly knitted loops of cloth from active carbon threads and loops of leotards from rubber threads. The technical result consists in increasing the sorption capacity in relation to oil products. 2 ill.

Description

The utility model relates to sorbent materials for cleaning the surface of water from oil pollution.

A sorbent material is known, consisting of a porous core and a porous shell rolled onto the core containing a sorbent, and the equivalent pore size of the shell is greater than the equivalent pore size of the core, in which diatomite and/or zeolite are used as the sorbent contained in the core, and/ or glauconite (RF Patent No. 2663426, B01J 20/28, B01J 20/18, B01J 20/14, B01J 20/12, 2018).

A sorbent material is known, consisting of a core made of a non-sorbent material, and a porous shell containing a sorbent, including diatomite, and/or zeolite, and/or glauconite, rolled onto the core, which is a glass microballoon (RF Patent No. 266173, B01J 20/28, B01J 20/10, B01J 20/16, B01J 20/18, B01J 20/14, 2018).

The disadvantages of sorbent materials are their floodability and low sorption capacity for oil products.

The closest is the sorbent material from cellulose-containing raw materials that have undergone preliminary heat treatment with limited air access and a temperature of 180-200°C for several hours (RF Patent No. 2112594, B01J 20/20, C02F 1/28, 1994).

The disadvantage of the sorbent material is the inconvenience of its use on open large water surfaces, since the material diverges over the water surface and it is difficult to collect it for cleaning or disposal.

The objective of the utility model is to develop a sorbent material that is buoyant and capable of regeneration.

The technical result consists in increasing the sorption capacity in relation to oil products.

The technical result is achieved by using a sorbent material from a cellulose-containing filler that has undergone preliminary heat treatment with limited air access and a temperature of 180-200 ° C, while the cellulose-containing filler is placed inside a folded knitted fabric sewn around the perimeter in the form of jointly knitted loops tights made of rubber threads.

The essence of the technical solution lies in the placement of a cellulose-containing filler (sorbent) inside a knitted fabric sewn along the perimeter, which ensures ease of use and regeneration of the sorbent material and an increase in its sorption capacity in relation to oil products due to the use of active carbon and rubber threads in the structure of knitwear in the form of jointly knitted loops cloth from active carbon threads and leotard loops from rubber threads.

Active carbon thread has a developed system of sorption pores and a high specific surface area, rubber thread, in turn, is easily wetted by oil products (i.e., pores in rubber particles and their surface easily absorb oil products). And the more developed the surface of the threads, the more oil products will bind them. At the same time, jointly knitted loops of cloth from active carbon filaments and leotard loops from rubber filaments provide high porosity of knitwear and, accordingly, high values of the specific surface area of carbon and rubber filaments, which provides increased sorption properties of the sorbent material.

In addition, the highly developed surface of the rubber thread is not wetted by water and, when using a sorbent material to collect oil products from the water surface, provides high buoyancy of the material due to the forces of surface tension of water. And the high density of knitwear provides a reliable retention of the cellulose-containing filler inside, ensuring the integrity of the sorbent material.

To ensure uniform distribution of the cellulose-containing sorbent, the sorbent material can be quilted over the entire area of the knitted fabric, which also protects the cellulose-containing sorbent from displacement during the operation of the sorbent material.

Sawdust, wood chips, wood chips, cotton wool, cotton rags, etc. are used as a cellulose-containing sorbent (filler). Cellulose-containing sorbent is placed in an autoclave, kept for 1-4 hours at 180-200°C and used after cooling.

In FIG. 1 shows a graphical record of the loops of the cloth, in Fig. 2 shows a graphical recording of the loops of the tights.

Knitted fabric is obtained by jointly knitting loops of cloth from active carbon threads 1 and loops of leotards from elastomeric (rubber) threads 2. Knitwear is obtained by combining loops of various weaves in one loop row, namely, a combination of loops of cloth from active carbon threads 1 and loops of leotards from elastomeric threads 2.

The knitted fabric is knitted on a warp knitting machine with two combs. The first comb is filled with active carbon thread 1 and carries out laying loops of cloth through two needles. The second comb is filled with elastomeric thread 2 and carries out the laying of the loops of the tights.

The resulting knitted fabric is folded in such a way that a cellulose-containing sorbent is placed in the formed fold, after which the folded knitted fabric is sewn around the perimeter and quilted over the area of the sorbent material.

The finished sorbent material is rolled up and transported to the place of use, where it is easily opened and placed at the place of use (surface of water, soil or floor). This ensures uniform distribution of the cellulose-containing sorbent. After absorption by the sorbent material from the surface of water, soil or floor of oil products, the sorbent material is easily collected, rolled up and sent for regeneration. For regeneration, the sorbent material is squeezed out by passing through a system of rollers, after which the squeezed out sorbent material can be reused for its intended purpose.

If further regeneration is not possible, the oil-impregnated sorbent material can be used as fuel for stoves, titans or fireplaces.

Thus, a sorbent material made of a cellulose-containing filler that has undergone preliminary heat treatment with limited air access and a temperature of 180–200°C, placed inside a folded knitted fabric sewn along the perimeter in the form of co-knitted loops of a cloth of active carbon filaments and leotard loops of rubber filaments, provides ease of use of the sorbent material and an increase in its sorption capacity in relation to oil products.

Claims (1)

A sorbent material made of a cellulose-containing filler that has undergone preliminary heat treatment with limited air access and a temperature of 180 - 200 ^o C, characterized in that the cellulose-containing filler is placed inside a folded knitted fabric sewn around the perimeter in the form of jointly knitted loops of cloth from active carbon threads and loops of tricot from rubber threads.

Images