UA32815U - Filter for low-toxic cigarettes - Google Patents

Abstract

A filter for low-toxic cigarettes includes a wrapping and a core in the form of a fiber tow of 1-4 denier impregnated with a sorbing agent of tobacco smoke components, as which platinum particles and porous organic polymer with 20-600 m/g specific surface area from the group including styrosorb, tenax and copolymer of styrene and divinylbenzene are used. Additionally it contains nanoparticles of gold and silver as the sorbing agents of tobacco smoke components, where nanoparticles of platinum, gold and silver are formed by blast erosion dispersion of platinum, gold and silver granules in water.

Description

Description of the invention

The useful model relates to the tobacco industry, in particular, to the technology of manufacturing filters for 2 cigarettes, and can be used in the industrial production of new low-toxic cigarettes.

The health problem associated with smoking is due to the toxic substances in tobacco smoke.

Cigarette smoke contains more than 4,000 chemicals, including more than 40 carcinogenic substances. All of them have a toxic effect on the body. The composition of tobacco smoke includes: nicotine, carbon monoxide, hydrocyanic acid, ammonia, benzpyrene, hydrogen sulfide, tobacco tar, carcinogens, nitrogen oxides, arsenic compounds, radioactive polonium-210, radioactive potassium, heavy metals and their compounds (cadmium, strontium , nickel, lead, chromium). The average concentration of radioactive polonium (Ro 279) in tobacco is equal to (4.3--1.0)x10-"Zcurie/g. Filters offered as absorbers of the substance do not achieve the desired goal, and cigarette filters, which are most often used and made of specially treated grades of paper, retain no more than 2,095 substances, 75 of which are contained in the smoke.Thus, the majority of the chemicals that make up the smoke from the dry distillation of tobacco enter the lungs.

The components of tobacco smoke are formed by sublimation of substances from tobacco leaves and splitting of their constituent parts under the influence of high temperature. At the moment of tightening at the tip of the cigarette, the temperature reaches 600-800 degrees. The temperature of smoldering tobacco is 3002, and the temperature of tobacco smoke is approximately 40-602C. Under the influence of high temperature, pyrolysis of tobacco and cigarette paper is carried out, and various substances are formed.

Tobacco smoke is aerosols consisting of liquid and solid particles that are in a suspended state. The gaseous components of tobacco smoke include carbon monoxide and dioxide, hydrogen cyanide, ammonium, acrolein, nitrobenzene, acetone, hydrocyanic acid and other substances. The solid phase includes mainly nicotine, water and resins - tobacco tar. The composition of the resin includes polycyclic aromatic hydrocarbons that cause cancer, in particular, nitrosamines, aromatic amines, isoprenoid, chrysene, etc. In addition, the resin contains simple and complex phenols, cresols, naphthols, etc.

Carbon monoxide, produced as a result of dry distillation of tobacco, combines with blood hemoglobin, forming a stable compound with it - carboxyhemoglobin. If in healthy non-smokers the content of carboxyhemoglobin is 0.5-195, then in smokers its content reaches 3595. Therefore, a certain part of erythrocytes, filled with carboxyhemoglobin, ceases to fulfill its function as oxygen carriers. As a result, body tissues receive less oxygen, which leads to deterioration of the heart, lungs and other organs. co

The composition of smoke is more complex and variable than the composition of leaves, because many components of smoke are formed from the ambient air that is drawn through the burning cigarette during smoking. Harmful substances contained in leaves and air are activated. The toxicity of tobacco smoke is 4.25 times higher than the toxicity of car exhaust gases and 248 times higher than the toxicity of exhaust gas from gas burners.

The filters used today in the production of cigarettes do not completely exclude the harmful effects of a number of components of tobacco smoke on the human body. Therefore, manufacturers of tobacco products all over the world are busy looking for more effective ways to clean tobacco smoke. "

The effectiveness of retaining the components of tobacco smoke depends on the physical and chemical characteristics of the substances used as sorbents.

A well-known filter for cigarettes, containing a wrapper and a core in the form of a bundle of fibers, impregnated with a sorbent of tobacco smoke components, which is activated carbon - a non-specific heat-resistant sorbent with a highly developed porous structure and a large specific surface area (800-1000m2/g), which causes a high adsorption capacity (Author's certificate. ZO Mo1535824. Method of obtaining adsorbent for carbon monoxide. IPC 5 oz Со01831/08, В801053/02, 1990.01.154.

Disadvantages of such a filter are its inefficiency with regard to a number of dangerous components of tobacco smoke, but because activated carbon does not completely capture a number of substances. Because a filter for cigarettes is also known, which contains a wrapper and a core in the form of a bundle of fibers, impregnated with 5% sorbent of tobacco smoke components, which are zeolite granules modified with organosilicon monomer. The internal specific surface of zeolites is large enough (700-800m ?/g), and the resistance to heating is more than 5002. Natural zeolites are attractive because of their availability, they can be easily crushed to any particle size, but they have low selective adsorption. Increasing selective adsorption is carried out by modifying zeolites, i.e., functional compounds are chemically grafted to the zeolite surface

Organic silicon groups. Such an operation increases the cost, shortens the shelf life and reduces the heat resistance of the sorbent until 2002, but allows to selectively retain a number of classes of organic compounds, including polyaromatic hydrocarbons, in complex mixtures of hydrocarbons (Patent KO Mo2113810. CIGARETTE FILTER, IPC 6

A2403/14, 1998.06.27|.

In general, the disadvantages of such a filter are the limitation of the spectrum of components of tobacco smoke that are absorbed, 60 especially insufficient degree of absorption of nitrosoamines, radionuclides, ammonia and halogens, low resistance to long-term storage and the possibility of degradation of the filter substance when heated with the formation of toxic compounds: cyanides, ammonia, benzene derivatives.

The filter for low-toxic cigarettes that is closest to the proposed one is a filter containing a wrapper and a core in the form of a bundle of 1-4 denier fibers, impregnated with a sorbent - finely dispersed platinum powder in the amount of 0.1-0.295 of the weight of the filter and at least one porous organic polymer with with a specific surface area of 20-600m/g from the group that includes styrosorb, tenax and a copolymer of styrene and divinylbenzene, in an amount that is 5-2090 of the weight of the filter. At the same time, the average size of platinum particles is equal to 2-1O0μm (Patent KO Mo2214776.

PLATINUM FILTER. IPC 7 A2403/00, A2403/14. 2003.10.27). Denier is a unit of measurement of the linear density of a thread (fiber). It is equal to the mass Ukm of the thread in grams.

The disadvantage of the known filter is the low efficiency of cleaning tobacco smoke, due to the low activity of the catalyst, since the average size of platinum particles is very high (equal to 2-10 μm) and has a small specific surface.

The useful model is based on the task of reducing the toxic effect of tobacco smoke. This is achieved by the fact that nanoparticles of noble metals with high catalytic activity are additionally introduced into the filter.

The proposed, as well as the known, filter for low-toxicity cigarettes contains a wrapper and a core in the form of a bundle of fibers of 1-4 denier, impregnated with a sorbent of tobacco smoke components, which is used as a sorbent of platinum particles and a porous organic polymer with a specific surface area of 20-60 Ω 2 / g from the group , which includes styrosorb, tenax, and a copolymer of styrene and divinylbenzene and, according to this proposal, as 75 sorbents of tobacco smoke components additionally contains nanoparticles of gold and silver, and nanoparticles of platinum, gold, and silver are obtained by erosion-explosive dispersion of platinum, gold, and silver granules in the water. At the same time, the content of platinum, gold and silver nanoparticles is 0.005-0.0295 of the weight of the filter, and the content of porous organic polymer is 5-2095 of the weight of the filter, and the sizes of platinum, gold and silver nanoparticles are in the range of 2-1000 nm.

The filter additionally contains nanoparticles of gold and silver as sorbents for tobacco smoke components. This increases the effectiveness of tobacco smoke purification both due to the extended spectrum of action of several catalysts - platinum, gold and silver, and due to the high catalytic activity of metal nanoparticles.

Precious metals are combustion catalysts and contribute to a more complete combustion of the tobacco mixture. Nanoparticles of noble metals are even more catalytically active. This allows to reduce the toxicity of tobacco smoke components. 8

Nanoparticles of platinum, gold and silver obtained by erosion-explosive dispersion of platinum, gold and silver granules in water | see Patent of Ukraine for utility model Mo23550. The method of erosion-explosive dispersion of metals. IPC B22E 9/14. Published on May 25, 2007. Bul. Mo7.). This makes the catalytic additive environmentally friendly and highly active. Nanoparticles of platinum, gold and silver do not contain any impurities except water, therefore, at high temperature, unlike other known additives, they do not release any toxic substances. "--

The sizes of platinum, gold and silver nanoparticles are in the range of 2-1000 nm. This increases the catalytic activity of platinum, gold and silver in the filter. Nanoparticles with sizes less than 2 nm are difficult to obtain and are very expensive. Nanoparticles with sizes greater than 100 Ohm have significantly reduced catalytic activity. everything

The content of nanoparticles of platinum, gold and silver is 0.005-0.0295 of the weight of the filter, and the content of porous organic polymer is 5-2095 of the weight of the filter.

At mass values 96 nanoparticles of platinum, gold and silver less than 0.00595 of the weight of the filter reduces the effectiveness of cleaning tobacco smoke. When the content of nanoparticles increases by more than 0.0295 of the mass of the filter, the cost of the filter increases. The optimal values are 0.005-0.02905 of the mass of the filter. "

At mass values 95 of the porous organic polymer is less than 596 of the mass of the filter, the effectiveness of 2 s cleaning of tobacco smoke decreases. When the content of the porous organic polymer is increased by more than 2095 of the mass of the filter, the cleaning efficiency does not increase. The optimal values are 5-2095 of the mass of the filter. "» The filter for low-toxic cigarettes is made in this way.

The wrapper is preferably perforated on the 0.25-0.6 surface, and the tow is made of ether cellulose fiber from the group: cellulose acetate, triacetate cellulose, bituacetate cellulose, benzene acetate cellulose or their mixtures, or from staple fiber, or from lyocell fibers, or from thermoplastic fibers. The selection of impregnating sorbents was carried out based on the set task - effective capture of specific substances and organic compounds most harmful to human health: nitrosoamines (M-nitrosopyrrolidine,

Go! M-nitrosodimethylamine, M-nitrosodiethylamine), polynuclear polyaromatic hydrocarbons (pyrene, benz(a)pyrene, perylene, etc.), radionuclides, ammonia. At the same time, reducing the concentration of nicotine in smoke should be carried out - to reasonable limits that ensure the satisfaction of the need for smoking. c Nanoparticles of platinum, gold and silver and at least one porous organic polymer from the group that includes: copolymer of styrene and divinylbenzene, poly-2,6-diphenyl-p-phenylene oxide (Tenax), as well as intramolecular cross-linked polystyrene are introduced into the composition of the filter (Styrosorb). These substances are quite heat-resistant (can

Can be used at temperatures up to 250 9C, and Tenax - up to 37522), are not prone to microbiological destruction and have a sufficiently wide range of specific surfaces (from 20 to bOOm 7/g). These highly pure and porous polymers and nanoparticles of platinum, gold and silver do not change the organoleptic properties of cigarette smoke (smell, taste and appearance).

Quantitative characteristics of impregnating sorbents were determined taking into account that a real decrease in the level of selected compounds after a cigarette filter by 60-7095 allows reducing the risk for a smoker by 3-4 times. The sizes of nanoparticles of platinum, gold and silver are mostly equal to 2-100 Ohm.

Retention of smoke molecules on the indicated porous polymers is carried out not only as a result of adsorption, but also as a result of a compatible adsorption-distribution mechanism, the role of which increases significantly in the presence of nanoparticles of platinum, gold and silver. Such a mechanism increases the efficiency and selectivity of adsorption when extracting toxic compounds and gases from a gaseous mixture.

Simultaneously with nitrosoamines, polyaromatic hydrocarbons, radionuclides and ammonia, the filter also effectively retains: ethers, ketones, aldehydes, amines, amides, halogens, gaseous products: CO».

CO, etc.

The combined introduction of nanoparticles of platinum, gold and silver and an organic polymer significantly increases the rate of capture and retention strength of these compounds. At the same time, this gives the filter the ability to absorb radionuclides (isotopes of cesium, strontium, bismuth and polonium), as well as suppress the formation of MO 5 from MO, oxidize (neutralize) ammonia present in tobacco smoke.

A decrease in the content of organic polymer and nanoparticles of platinum, gold and silver below the minimum limit or an increase in the size of nanoparticles leads to a deterioration in the quality of the obtained filter (a decrease in the activity of 7/o adsorption).

Exceeding the content of organic polymer and nanoparticles of platinum, gold and silver above the upper limit or reducing the size of nanoparticles leads to an increase in the price of the obtained products without a significant improvement in filtering capacity.

The introduction of nanoparticles is carried out mechanically during the production of the harness, which is cut 7/5 After impregnation with nanoparticles of platinum, gold and silver. The best way to introduce nanoparticles of precious metals is to impregnate the harness with an aqueous colloidal solution of nanoparticles of platinum, gold and silver obtained by erosion-explosive dispersion of platinum, gold and silver granules in water. For this, a colloidal solution of nanoparticles of platinum, gold and silver is used according to TU U 24.6-35291116-001:2007 with a nanoparticle content of 0.00001-0.01 wt.Uo. Aqueous colloidal solution of metal nanoparticles is obtained in advance by erosion-explosive dispersion of platinum, gold and silver granules in water, see Patent of Ukraine for utility model Mo23550. The method of erosion-explosive dispersion of metals. IPC B22E 9/14. Published on May 25, 2007. Bul. Mo7.)i. When electric current pulses pass through the chains of metal granules, in which the energy of the pulses exceeds the energy of sublimation of the vaporized metal, spark discharges occur at the points of contact of the metal granules with each other, in which explosive dispersion around the metal is carried out. In the discharge channels, the temperature reaches 1Otys. degrees Areas of the surface of metal granules in the zones of spark discharges melt and explosively collapse into the smallest nanoparticles and steam. Molten - nanoparticles that fly away fall into the water and form a colloidal solution for impregnating the harness.

Claims (4)

The formula of the invention is "-- 1. A filter for low-toxic cigarettes, containing a wrapper and a core in the form of a bundle of 1-4 denier fibers, impregnated with a sorbent of tobacco smoke components, for which platinum particles and a porous organic polymer with a specific surface area of 20-600 mg/g from the group are used, which has styrosorb, tenax, and a copolymer of styrene EM and divinylbenzene, which is distinguished by the fact that as sorbents for the components of tobacco smoke, it additionally contains nanoparticles of gold and silver, and nanoparticles of platinum, gold, and silver are obtained by erosion-explosive dispersion of platinum, gold, and silver granules in water . 2. A filter for low-toxic cigarettes according to claim 1, which is characterized by the fact that it contains nanoparticles of platinum, gold and silver in the amount of 0.005-0.02 95 of the mass of the filter. " Z. The filter for low-toxic cigarettes according to claim 1, which is characterized by the fact that it contains a porous organic polymer in an amount that is 5-20 90 by weight of the filter. 4. A filter for low-toxic cigarettes according to claim 1 and claim 2, which differs in that the sizes of nanoparticles: from platinum, gold and silver are in the range of 2-1000 nm. Official Bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated circuit microcircuits", 2008, M 10, 26.05.2008. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. ko so - 50 (l s 60 b5