WO2011115525A1

WO2011115525A1 - Filter

Info

Publication number: WO2011115525A1
Application number: PCT/RU2011/000134
Authority: WO
Inventors: Евгений Петрович ОСИНЕНКО
Original assignee: ПИЛКИН, Виталий Евгеньевич
Priority date: 2010-03-19
Filing date: 2011-03-03
Publication date: 2011-09-22
Also published as: RU2429043C1; US20130000654A1

Abstract

The invention relates to filtering systems having high adsorbent and filtering properties. The filter for filtering substances from gases and solutions comprises a finely dispersed adsorbent powder with a size of 0.01-2000 microns, which is placed in a nonwoven filter material with a density of 50-1500 kg/m³ by wetting the nonwoven filter material in an aqueous suspension of the adsorbent, which is prepared in a ratio permitting the aqueous suspension of adsorbent to penetrate the nonwoven filter material. The filter for extracting metals from solutions by cementation of the metals comprises (a) a finely dispersed metal-cementer powder with a size of 0.01-5000 microns, which is selected from the group consisting of Zn, Fe, Ni, Si, Ti, Pb or Sb, or (b) a finely dispersed metal-cementer powder in the form of zinc with a size of 0.01-5000 microns, which is covered by a layer of metallic lead. The metal-cementer according to variant (a) or metal-cementer in the form of zinc, which is covered by a layer of metallic lead, according to variant (b) is placed in the nonwoven filter material by wetting the nonwoven filter material in an aqueous suspension containing the metal-cementer, which is prepared in a ratio permitting the aqueous suspension containing the metal-cementer to penetrate the nonwoven material.

Description

Filter

FIELD OF THE INVENTION A group of two inventions relates to filtering systems with high adsorbing and filtering properties. The first invention is intended for filtering substances from gases and solutions. The second invention is intended for the extraction of metals from solutions by their (metals) cementation.

State of the art

Currently, adsorbents and nonwovens are used in filters. An adsorbent having a high adsorption capacity is placed in a nonwoven material. Nonwoven materials are used to retain particles of adsorbent in the flow of gases and liquids, and also as a filter material for trapping micron-sized substances.

Obviously, the larger the specific surface area of the adsorbent in the filter, the higher the level of adsorption. You can increase the specific surface area of the adsorbent in the filter by two well-known methods: a) increase the amount of adsorbent in the filter or b) use highly dispersed micron-sized adsorbent powder in the filter. However, filter manufacturers do not use or cannot use these options, since an increase in the amount of adsorbent in the filter or the use of a highly dispersed micron-sized adsorbent powder:

· Reduces the filter performance, and increasing the excess pressure in the filter in order to increase the filtration level at the same filter performance level is not economically and / or technologically feasible or possible and / or

• does not provide retention of the adsorbent in the nonwoven material.

A known cigarette filter consisting of an acetate fiber in which the adsorbent is placed - see http ^ / ro.wildpcdia.org / wiki / CiirapeTHbiHi filter The disadvantage of this technical solution is the low level of filtration of harmful substances due to the insufficient specific surface area of the adsorbent in the filter .

The closest in technical essence, that is, the prototype of the proposed first technical solution aimed at increasing the level of filtration of substances from gases and solutions, is the international patent application PCT / IB2005 / 004001 (WO / 2006/064371). The disadvantage of the prototype is not enough high level of filtration of harmful substances contained in the smoke of a burning cigarette, due to insufficient specific surface of the adsorbent in the filter.

A known method and device for extracting gold from clarified cyanide solutions using lead zinc shavings (I. N. Plaksin. Yu. D. M. Yukhtanov. Hydrometallurgy. M. Metallurgizdat, 1949, pp. 273 - 276, 369 - 376) . The disadvantages of the method and device are the high consumption of zinc, the incomplete extraction of gold due to the fact that part of it is returned to the extractor with 25-30% coarse zinc, the large sizes of the extractors, which occupy large areas, the difficulty in preparing zinc chips, the low concentration of zinc chips relative to unity solution, which significantly reduces the extraction of gold from the solution.

The closest in technical essence, that is, the prototype of the proposed second technical solution aimed at increasing the level of extraction of metals by carburizing, is the RF patent for the invention Ν ° 2380435 (see the claims). The disadvantage of this invention is the insufficiently high level of extraction of metals from solutions by their (metals) cementation due to the insufficient specific surface of the metal-cement in the filter.

Disclosure of invention

For the purposes of correctly understanding the terms used in the present invention, the following terminology was used:

Adsorbents are artificial and natural bodies with a developed surface, which well absorb (adsorb) substances from gases and solutions surrounding the adsorbent. The adsorption properties of the adsorbent depend on the chemical composition and physical state of the surface, on the nature of porosity and specific surface (surface per 1 gram of substance). The most important adsorbents are: activated carbon, silica gels, aluminosilica gels, soot, oxides and hydroxides of certain metals (mainly aluminum), sponge metals, natural minerals, clays (bentonite).

Non-woven materials are materials, fabrics and products that are made from fibers, threads and / or other types of natural and / or synthetic materials without the use of spinning and weaving. Non-woven materials include nitron, sintepon, lavsan, nylon, foam rubber, fiberglass, quartz and basalt fiber, as well as other known non-woven materials. Cementation is a method used in hydrometallurgy for the extraction of a metal by displacing a salt of a metal from a solution of it with another metal (cement) having a more negative standard potential.

Metal-cementer is a metal from the series A1 (-1.7V), Ti (-1.2B), Zn (-0.76B0, Fe (-0.44V), Ni (-0.23B), Pb (- 0.126B) with negative standard potentials and capable of reducing metals with positive potential from solutions (Au, Pt, Pd, Ag, Re, U, Cu).

The problem to which the claimed first technical solution is directed is the implementation of a higher level of filtration of substances from gases and solutions in comparison with filters known from the prior art.

The technical result in accordance with the first invention is achieved by the following:

1. A filter comprising an adsorbent powder placed in a nonwoven material, characterized in that the finely dispersed adsorbent powder is 0.01 to 10 microns or 0.01 to 40 microns in size or 0.01 to 100 microns or 40 to 100 microns or 40 to 500 microns or 40 to 1000 microns or 100 to 500 microns or 100 to 1000 microns or 100 to 2000 microns or 1000 to 2000 microns are placed in a filter non-woven material with a density of 50 to 1500 kg / cu. meters by wetting the filter non-woven material in an aqueous suspension of adsorbent prepared in the ratio of one part of water and one part of the adsorbent or in a ratio allowing the aqueous suspension of adsorbent to penetrate the filter non-woven material.

The task to which the claimed second technical solution is directed is the implementation of a higher level of extraction of metals from solutions by their (metals) cementation compared to devices known from the prior art.

The technical result in accordance with the second invention is achieved by the following:

1. A filter comprising an adsorbent powder placed in a nonwoven material, characterized in that the filter includes: (a) finely dispersed metal cementing powder with a size of 0.01 to 10 microns or 0.01 to 40 microns or 0.01 to 100 microns or 40-100 microns or 40-500 microns or 40-1000 microns or 100-500 microns or 100-1000 microns or 100-2000 microns or 1000-2000 microns or 1000-5000 microns or 2000-5000 microns selected from the group consisting of Zn, Fe, Ni, Cu, Ti, Pb, Sb, OR (b) finely divided powder of metal-cement in the form of zinc (Zn) size 0.01 - 10 microns or 0.01 - 40 microns or 0.01 - 100 microns or 40 - 100 microns or 40 - 500 microns or 40 - 1000 microns or 100 - 500 microns or 100 - 1000 microns or 100 - 2000 microns or 1000 - 2000 microns or 1000 - 5000 microns or 2000 - 5000 microns coated with a layer of metallic lead, wherein the metal is a metal-cement according to option (a) or a metal-cement in the form of zinc coated with a layer of metallic lead, according to option (b ) are placed in a filter non-woven material with a density of 50 - 1500 kg / cubic meter by blotting the filter non-woven material in an aqueous suspension containing A metal cementer prepared in a ratio of one part water and one part metal cementer or in a ratio allowing an aqueous suspension containing a metal cementer to penetrate the filter non-woven material.

2. To obtain zinc powder coated with metallic lead, lead salts (nitric acid or acetic acid lead) can be dissolved in warm water at a pH of 4, with a lead concentration of 100 - 500 g / l, while in an aqueous suspension with zinc powder, prepared in the ratio : from one to ten parts of water can be added to one fraction of zinc powder, with vigorous stirring of the indicated aqueous suspension, a concentrated solution of lead salt is poured in an amount of 1 - 90% by weight of zinc powder, and precipitated h Lead zinc scientists, using a pump, jet the specified solution onto a metal wall at a high speed, resulting in the destruction of the sticky particles of lead zinc powder to approximately the initial size of zinc powder.

Description of drawings

Figure 1 presents a filtering device for filtering substances from gases and solutions or for the extraction of metals from solutions by their (metals) cementation.

The specified filter device consists of a cylindrical body 1, a manhole cover of the filter device 2, an inlet nozzle for supplying a solution 3, a drain pipe 4, a filter cartridge 5 consisting of a nonwoven material in which the adsorbent or metal cementer or zinc coated with a layer of metallic lead is evenly placed, manhole covers of the filter device 6.

The implementation of the invention

The principle of operation of the filter device in order to filter substances from gases and solutions (the first technical solution) is as follows. AT the cylindrical body 1 through the open hatch of the filter device 2 is inserted one or more than one filter cartridge 5, consisting of a nonwoven material in which the adsorbent is placed. The hatch 2 is hermetically closed, through the inlet pipe 3 pump or gravity feed gas or solution, which must be filtered. The specified gas or solution passes through one or more filter cassettes 5 and already filtered out through the pipe 4.

The principle of operation of the filter device in order to extract metals from solutions by their (metals) cementation (second technical solution) is as follows. In the cylindrical housing 1 through the open hatch of the filter device 2 is inserted one or more of one filter cartridge 5, consisting of a non-woven material, which contains a metal cement or metal cement in the form of zinc coated with metallic lead. The hatch 2 is hermetically sealed; a solution containing metal, which must be removed from the solution, is supplied through a pump or gravity feed through the inlet pipe 3. The specified solution passes through one or more filter cassettes 5 and is drained through the pipe 4. Periodically, the filter cassettes 5, enriched with the metal extracted from the solution, are unloaded, and new cassettes 5 are inserted through the hatch 6.

Industrial applicability

The first invention can be used in filters used to filter substances from gases and solutions. The second invention can be used in processes for the extraction of metals from solutions by their (metals) cementation.

Claims

Claim

1. A filter comprising an adsorbent powder placed in a nonwoven material, characterized in that the finely dispersed adsorbent powder is 0.01 to 10 microns or 0.01 to 40 microns in size or 0.01 to 100 microns or 40 to 100 microns or 40 to 500 microns or 40 to 1000 microns or 100 to 500 microns or 100 to 1000 microns or 100 to 2000 microns or 1000 to 2000 microns are placed in a filter non-woven material with a density of 50 to 1500 kg / cu. meters by wetting the filter, non-woven material in an aqueous suspension of adsorbent prepared in the ratio of one part of water and one part of the adsorbent or in a ratio allowing the aqueous suspension of adsorbent to penetrate the filter non-woven material.

2. A filter comprising an adsorbent powder placed in a nonwoven material, characterized in that the filter includes:

(a) finely dispersed metal cementing powder of 0.01 to 10 microns or 0.01 to 40 microns or 0.01 to 100 microns or 40 to 100 microns or 40 to 500 microns or 40 to 1000 microns or 100 to 500 microns in size or 100-1000 microns or 100-2000 microns or 1000-2000 microns or 1000-5000 microns or 2000-5000 microns selected from the group consisting of Zn, Fe, Ni, Cu, Ti, Pb, Sb,

OR

(b) finely dispersed metal-cementing powder in the form of zinc (Zn) 0.01 - 10 microns or 0.01 - 40 microns or 0.01 - 100 microns or 40 - 100 microns or 40 - 500 microns or 40 - 1000 microns in size or 100-500 microns or 100-1000 microns or 100-2000 microns or 1000-2000 microns or 1000-5000 microns or 2000-5000 microns coated with a layer of metallic lead,

wherein:

metal metal cement according to option (a) or a metal cement in the form of zinc coated with a layer of metallic lead, according to option (b) is placed in a filter non-woven material with a density of 50 - 1500 kg / cu. meters by wetting the filter non-woven material in an aqueous suspension containing a metal-cement, prepared in the ratio of one part of water and one part of a metal-cement or in a ratio that allows an aqueous suspension containing a metal-cement to penetrate the filter non-woven.

3. The filter according to claim 2, characterized in that to obtain zinc-coated powder of zinc, lead salts (nitrate or acetic acid lead) are dissolved in warm water at a pH of 4, with a lead concentration of 100-500 g / l, at this in an aqueous suspension with zinc powder, prepared in the ratio: from one to ten parts of water is added to one fraction of zinc powder, with intensive stirring of the specified aqueous suspension is added a concentrated solution of lead salt in an amount of 1 - 90% by weight of zinc powder, particles of leaded zinc precipitated are pumped with a pump at a high speed to a metal wall, resulting in the destruction of sticky particles of leaded zinc nkovy powder to about the initial size of zinc powder.