RU145034U1 - FILTER MATERIAL - Google Patents

Abstract

A filter material consisting of synthetic threads in the form of a tubular knit with a pile surface, cellulose fiber material placed inside, rubber fibers or rubber crumb and polyurethane foam crumb, characterized in that the tubular knit is made of plush weave, forming the wrong pile surface, and the ground thread is made from an elastomeric thread, and plating from a synthetic thread and the length of the synthetic thread in the loop is 1.8-2.2 times the length of the elastomeric thread in the loop .

Description

The utility model relates to the purification of liquids and gases from solid particles and can be used in chemical, petrochemical, metallurgical, automotive and other industries that use filters in the main and auxiliary production, in environmental processes of wastewater and flue gas treatment, during oil spills from tankers, oil pipelines and oil storage facilities, as well as for collecting oil products from the surface of the water.

Known filter material made of synthetic filaments in the form of a single-strand tubular knit stitch, in which highly elastic polyurethane spandex filaments are used as synthetic filaments with a tension of 1.5-4 N / mm in loops (RF Patent 1438825, B01D 39/08, 1988 g.).

However, such filter materials have a low quality of cleaning the water surface from oil products, as well as a low degree of purification when filtering liquids and gases.

Known filter material for cleaning gases and liquids in the form of tubular knitwear from tensile and inextensible yarns with 1 + 1 eraser, which is equipped with loop rows of weave smoothness from different shrinkable bicomponent threads with a melting point of at least 150 ° C, made alternating with the eraser loops, and it contains at least 20 rows of smooth surface (RF Patent 2062635, B01D 39/08, 1996).

However, such filter materials have low buoyancy on the surface of the water when collecting the sorbent, and are also ineffective in filtering liquids or gases.

Known filter material made of synthetic threads in the form of tubular knitwear, in which rubber crumb is 0.4-0.75 mm in size, and the knitwear is made of polymer threads, one of which is elastomeric, and the loops of elastomeric filament form an elastic frame inside the filter material and the pore size of the tubular knitwear is 1.2-1.5 times smaller than the size of the crumbs (RF Patent 2198717 B01D 39/08, D04B 1/14, 2003).

The disadvantage of such filter materials is their low buoyancy on the surface of the water when collecting the sorbent, as well as an insufficient degree of purification when filtering a liquid or gas.

The closest filter material to the claimed object in terms of features and selected for the prototype is a filter material consisting of synthetic threads in the form of tubular knitwear, which is made by plated weaving, where the filament is made of synthetic threads, and the plating thread is made of rubber threads forming on the front the pile surface, and the length of the rubber thread in the loop is 1.2-1.8 times the length of the synthetic thread in the loop, and inside the tubular jersey are placed: cellulose fibrous material, rubber fibers or rubber crumb and polyurethane foam crumb in a volume ratio of 1: (2-4) :( 1.5-3), respectively (RF Patent 2256483, B01D 39/08, C02F 1/28, 2005) .

The disadvantage of such filter materials is the insufficient degree of purification when filtering a liquid or gas, as well as the low surface strength of the tubular knitwear.

The technical result of the utility model is a filter material with increased strength and high quality purification of liquids and gases.

The technical result achieved is achieved by the fact that the filter material consists of synthetic threads in the form of tubular knitwear with a pile surface, cellulose fibrous material placed inside, rubber fibers or rubber crumb and polyurethane foam crumb, while the tubular knit is made of plush weave, forming the wrong pile surface moreover, the soil thread is made of elastomeric thread, and the plating thread is made of synthetic thread and the length of the synthetic thread in the loop is 1.8-2.2 p for longer than the elastomeric yarns in the loop.

The use of tubular knitwear makes it easier to fill the filter material with cellulosic fibrous material, rubber fibers or rubber crumb and polyurethane foam crumb.

The implementation of the tubular knitwear with plush weaving, which forms the wrong pile surface, due to plush loops, prevents the movement of cellulosic fibrous material, rubber fibers or rubber crumbs and polyurethane foam crumbs in the filter material, and holds the filler, which increases the quality of cleaning. The loops of the nap surface directed into the inside of the knitted material keep small crumbs from slipping between the knit loops, and also exclude the formation of rubber lumps during the collection of petroleum products, which increases the quality of cleaning.

The use of cellulosic fibrous material, rubber fibers or crumb rubber inside the tubular knit ensures the cleaning of the surface of the water from oil products and the quality of liquid filtration.

The use of polyurethane foam chips inside a tubular knit allows you to adjust the buoyancy of the filter material on the surface of the water with maximum swelling of the rubber chips.

The use of an elastomeric yarn as a ground yarn, and a synthetic yarn with a length of a synthetic yarn in a loop 1.8–2.2 times longer than an elastomeric yarn in a loop, makes it possible to obtain an extremely dense pile surface of a knitted fabric.

When the length of the synthetic thread in the loop is less than 1.8 times the length of the elastomeric thread in the loop, the length of the plush loops decreases, which reduces the quality of the filtration due to the slip of rubber crumb.

When the length of the synthetic thread in the loop is more than 2.2 times the length of the elastomeric thread in the loop, the breakage of plush loops increases, which reduces the strength of the filter material and affects the quality of the filter.

In FIG. presents a diagram of the filter material, a cross section.

In FIG. SUBSTANCE: filter material 1 made of plush weaving, consisting of tubular knitwear, in which cellulosic fibrous material 2, rubber fibers 3 or rubber crumb 4 and polyurethane crumb 5 are placed, is presented. Tubular knit fabric is made of plush weave, forming a purse pile (plush) surface in the form of plush loops 6 directed into the inside of the tubular knit. Moreover, the ground thread 7 is made of elastomeric thread, and the plating thread 8 is made of synthetic thread.

The filter material is obtained on an MS-5 round single-cylinder knitting machine of large diameter 22 class 22 using plush platinum with a cooler depth of 1.0-1.8 mm on main platans, and on plush 1.4-2.0 mm and with synthetic threads 1.2-2.4 H and elastomeric threads 2.3-2.8 N.

After knitting, the finished tubular jersey is filled with cellulosic fibrous material, rubber fibers or rubber crumb and polyurethane foam crumb.

The filter material is placed in a container with water in the presence of 15% of petroleum products in an area ranging in length from 0.4-5.6 meters. To determine the degree of absorption of oil products on the surface of the water, the filter material is placed in a layer of liquid fraction for 6 hours, and then weighed. The regeneration of the filter material is carried out by passing it through grooved rollers with a force of 20 kg between them.

The filtering process is carried out on a 6% suspension with the presence of up to 15% of petroleum waste water from the repair shop of the engineering plant. The particle size varied from 30 to 150 microns with a pressure drop of 2.0 atm. The surface of the oil slick on the surface of the water varies from 1 to 2 m2. To determine the degree of absorption of oil products, the filter material is placed in a layer of the liquid fraction and kept for 1 hour.

For clarity, a comparative table of the claimed filter material with the prototype (with the same filling of the filter material) is given: the volume ratio in the filter material between cellulosic fibrous material, rubber fibers and polyurethane foam crumb is 1: 2: 2.

Table Material Specific productivity, l / m ² ∗ min The degree of purification,% The degree of absorption of oil,% Regeneration time, min Strength, N / kgm Example 22.3 92 164 eleven 28.5 Prototype 19.5 89 130 15.0 8.7

The data in the table shows that when using the claimed filter material, the specific productivity increases, the degree of purification and the degree of absorption of oil products, the regeneration time decreases, and the strength of the filter material during the filtration process increases.

Thus, the claimed technical solution allows to obtain a filter material with high strength and high quality cleaning of liquids and gases.

Claims (1)

A filter material consisting of synthetic threads in the form of a tubular knit with a pile surface, cellulose fiber material placed inside, rubber fibers or rubber crumb and polyurethane foam crumb, characterized in that the tubular knit is made of plush weave, forming the wrong pile surface, and the ground thread is made from an elastomeric thread, and plating from a synthetic thread and the length of the synthetic thread in the loop is 1.8-2.2 times the length of the elastomeric thread in the loop .