前苏联专利SU738495A3 Tobacco smoke filtering composition

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专利摘要:
1513612 Tobacco smoke filters PHILIP MORRIS INC 6 Feb 1976 [10 Feb 1975] 04800/76 Heading A2C [Also in Division Cl] A composition for use in tobacco smoke filters comprises activated alumina impregnated with sodium permanganate and another sodium compound. The alumina must contain less than 6% by weight of silica have a surface area of at least 100 m<SP>2</SP>/g and a pore volume of at least 0.2 cc/g. The sodium permanganate is present in an amount from 5 to 30% by weight of the composition and the molar ratio of the sodium compound to the permanganate is in the range 1:0.5 to 1:20. The composition has a moisture content of 5 to 30% by weight. The sodium compound may be a hydroxide, carbonate, phosphate or borate.
公开号:SU738495A3
申请号:SU762319489
申请日:1976-02-09
公开日:1980-05-30
发明作者:Б.Рэйнер Норман；Аллен Вильсон Питер
申请人:Филип Моррис Инкорпорейтед (Фирма)；
IPC主号:

专利说明:

one
The invention relates to the production of smoking articles, e.g. cigarettes, in particular to a tobacco smoke filter composition used in combination with tobacco 5 to remove harmful substances from the latter.
Tobacco smoke, formed by smoking cigarettes, cigarettes or cigars, is an aerosol consisting of tiny droplets or particles of material suspended in the gas phase. The tobacco in the articles may be in the form of cut or whole tobacco leaves, or in izmelchennogo form in a mixture with a binder, as well as in another form. Suspended smallest droplets and / or particles are considered as the total content of fines in the smoke. 20 THREEs can be removed from the smoke using filtering devices to mechanically hold and trap the suspended matter. Under standard conditions, a Cambridge filter pad is used which is made of glass fibers having an extremely small diameter. That part of the smoke that passes through the filter mat 30
Cambridge is considered as the gas phase of tobacco smoke.
Both the TPM and the gas phase of tobacco smoke consist of a complex mixture of components that create taste and aroma, obtained by smoking tobacco, with some of the components of the gas phase, such as nitric oxide NO, harming taste and aroma.
Filtering materials most often used to remove undesirable components from the gas phase of tobacco smoke, in particular silica gel and activated carbon, do not have the ability to remove nitrogen oxides from it.
A filtering composition for tobacco smoke is also known, including activated porous alumina and sodium permanganate 1.
This filter composition is closest to the filter composition described.
The well-known filtering composition in the freshly prepared state ensures that some of the nitrogen oxides are removed from cigarette smoke, but its activity decreases rapidly with aging and then with the action of moisture, which is impractical in commercial applications. During the time that the tobacco products reach the consumer, as a protagonist, they release a significant amount of moisture vapor and volatile organic compounds, which are trapped in a sealed package. Until the consumer opens the package, the latter may be exposed to temperatures ranging from minus. 1 to 49C. Under such conditions, many materials, initially active, lose their tobacco smoke filtering activity. The purpose of the invention is to increase the cleaning efficiency of tobacco, with 5ym of harmful substances filtering composition. This is achieved by the fact that in the proposed filtering composition for Tobacco smoke, including activated porous alumina and sodium permanganate, alumina is chosen from alumina, containing from 0.5 to 6% by weight of silica based on the weight of aa; g: one, while the surface area The selected alumina is from 100 to 550, and the pore volume is from 0.2 to 0.9 cMVr, and the composition additionally contains an alkaline sodium compound at the following ratio of components, wt.%: Sodium permanganate 3.33-30 Alkaline sodium compound 0.05-30.8 Activated porous alumina O steel. In addition, the filtering composition additionally contains particles of activated carbon using a surface of 800–1600 m / g in an amount of 25–50 wt.%. In addition, the filtering composition additionally contains water in an amount of from 1 to 30% by weight of the composition. The amount and concentration of the sodium permanganate solution should be such that the treated activated porous alumina contains from 5 to S0% and preferably from 10 to 20% by weight of the sodium permanganate solution. The basic compound used in the formulation is sodium hydroxide, carbonates, phosphates, sodium borates, and the like. or syes of these compounds. The molar ratio between the main sodium compound and sodium permanganate is in the range from about 1 t 0.5 to 1: 20. At a ratio below 1:20 filternature, the composition quickly and significantly loses activity when stored in a sealed package, .a at a ratio above 1: 0.5 - the ability of the composition to purify the smoke DT of nitrogen oxides is reduced. Activated alumina is obtained by heating alumina hydrates for a sufficient period of time at a controlled temperature to remove most of the hydrate water and to achieve the maximum surface area, which is determined by BET gas adsorption method (Brunauer, Emmett, Teller method). This method involves determining the amount of nitrogen required to coat the entire inner and outer surface of a thoroughly degassed alumina sample with a layer one molecule thick. The pore volume of the alumina granules is determined by the helium-mercury method. Alumina is used in the form of granules with a particle size ranging between about 8 and 100 mesh, preferably between 8 and 80 mesh. The particularly recommended spacing corresponds to about 20 to 60 mesh, in the case of cigarette filters. Granules that are larger than 100 mesh create too much resistance when the cigarette is tightened, and granules smaller than 8 mesh have a reduced nitrogen oxide removal efficiency. After the alumina is impregnated with sodium permanganate solution from the granules, water is evaporated at a temperature below 120 ° C, preferably between 0 and 50 ° C. The evaporation is carried out using a vacuum for a dry inert gas flow, such as nitrogen. The degree of drying corresponds to preservation by the granules from about 5 to 30% by weight of water based on the weight of impregnated alumina. The proposed filtering composition practically produces oxidation of nitric oxide to nitrogen dioxide and absorbs the latter. A typical cigarette containing about 1 g of mixed tobacco with standard smoking, about nine puffs, can release about 300 to 400 µg of nitrogen oxides in the gas phase of the smoke. Determination of nitrogen oxides N0 in cigarette smoke is carried out by infrared spectrometry, as well as by spectrophotometry in the ultraviolet region, which allows determining the content of nitric oxide NO until its reaction with atmospheric oxygen and the formation of other nitrogen oxides. The proposed filtering composition reduces the content of nitrogen oxides in tobacco smoke by 30–80% even after prolonged storage of the filtering composition in sealed packaging of cigarettes. The stability of the active granules during their storage and their efficiency of purification of smoke from harmful substances, in particular nitrogen oxides, can be improved by additionally introducing into the composition of particles of activated carbon in the amount of 25-50 wt.% With a surface area of 800-1600. The particle size of coal can be comparable to the size of alumina particles (in mesh), but since coal is less dense than alumina, coal granules should be smaller in size than alumina granules in order to minimize sedimentation due to gravity and influence of the separation process. The filter composition can be used as a layer between the pads of a standard cellulose acetate filter. The filter is then placed against the cylinder of tobacco, and a paper wrap serves to attach it to the latter. The filter composition can be produced separately from the tobacco product and is used in this case in combination with the mouthpiece for cigars or cigarettes. The filter composition can also be placed inside a cigarette. In all cases, the filter containing the granules should have a drag resistance (CTD) of less than about 76 mm water column. when measuring at the air flow rate of 1050 The advantage of the proposed filtration composition is also its ability to oxidize carbon monoxide to carbon dioxide at room temperature (21 ° C). When passing a synthetic mixture containing components, wt.%: WITH 2.46; , 7 CO, 56, and And 78.28, at a speed of 40 through a 25 millimeter layer of 40/80 mesh granules of the filter composition contained in a glass tube with an inner diameter of 7 mm, the CO is completely removed over a long period of time. Example 1. A solution is prepared consisting of 25 g of sodium permanganate, 2.5 g of sodium hydroxide and 100 ml of distilled water. They take 50 g of alumina from 30-50 mesh with a surface area of 190 with a pore volume of 0.25 and a content of 0.1% silica. The porous alumina is placed in a filter funnel with a porous glass plate and the solution is poured out so that clay is immersed in it. The mixture was kept at 21 ° C for 5 minutes. A vacuum was applied to the bottom of the funnel, which led to the removal of the solution through a porous glass plate. The obtained alumina granules, impregnated with a solution of perganganate, are placed in a vacuum furnace and dried at 35 ° C to a moisture content of 15%. The resulting filter composition contains 12 wt.% Sodium permanganate. The exact amount of sodium permanganate deposited on the alumina granules is determined by placing a certain weighed amount of filter composition in a glass of water and titrating it at 60 ° C with a 0.1 M solution of oxalic acid (in an acidic solution) to a colorless end point according to the equation - iocOj, 2Mn an. p 6Cjp -taM "o i6H The filter composition is placed in a cigarette filter, while taking it 400 mg and placed in a space 10 mm long between two rods of cellulose acetate 5 mm each inside a paper tube 8 mm in diameter. Gaskets 5 mm long and weighing approximately 30.5 mg each are prepared from 4-10 denier tow, containing monofilament with a Y-shaped cross-section, with eight denier per monofilament. . . This assembled filter has an NTD score of approximately 63 mm water column at an air flow rate of 1050. For comparison, the filter is attached with a paper wrap to a 85 mm long cigarette developed by the University of Kentucky IRI. The total combination of filter and cigarette has a KTD index of 127 mm water column at an air velocity of 1050. The cigarettes are then placed in a standard box for 20 cigarettes in which there is an inner layer of metallized paper foil, wrapping paper covered with a layer of clay and a binder and outer wrapper made of 0.075 mm thick polypropylene film sealed by heating along all its edges. The package is subjected to accelerated aging and storage cycles by placing it first in xeiMepy with circulating air at 43.33 ° C and 15% relative humidity for four days, followed by a cooling in X1mer with circulating air at 32.2, and 85% relative humidity for seven days. This cycle is then repeated one more time. Cigarettes equipped with a filtering composition and subjected to a cycle of accelerated aging and detection are tested as follows. Two cigarettes are simultaneously subjected to a smoking test on an electric smoking machine, in which air is sucked through a hot cigarette with puffs. for a duration of 2 s with a flow of 35 cm of air per puff. The duration of static burning between the plugs is 60 s. JfetM from eight puffs are passed through a Cambridge filter pad to remove the TPM. The resulting gas phase is combined using a conventional collector and collected in a pre-evacuated one-meter cuvette for analysis in the infrared region of the spectrum. The gas in the cuvette is then subjected to spectrometry analysis of the infrared region using an Perkin-Elmer infrared spectrometer 221 with an increased scale of ordinates. Parallel experiments with three samples were also carried out. In an analogous way, two control cigarettes are used that are completely similar to cigarettes and equipped with filters, except that the filter consists entirely of a cellulose acetate cylinder of 20 mm length, but does not contain a filtering compound. The absorption band at a wavelength of 6.15 µm is the total content of nitrogen oxides in the smoke. Comparison of the absorption height for used cigarettes with a filter and the control shows that when using the filter composition, the reduction of nitrogen oxides E to smoke is 42%. This reduction is calculated as a 42% overshoot of the height of the peak in the infrared region at a wavelength of 6.15 µm as compared with the height n: and ka for the control signals. The five cigarettes are then subjected to the same tests for accelerated aging and storage cycles and placed in a smoking machine as described. The smoke of these cigarettes is mixed in a collector system and analyzed in a Kerry spectrophotometer (model 11), which is scanned in the interval 212-217 nm (ultraviolet region), the peak peak in this region is compared with the height of the peaks obtained for the control gas, containing 0.5% nitric oxide NO in the helium medium. Based on the results obtained for eleven puffs, it was found that the control cigarette releases 360 µg NOa. The filtering cigarettes emit only 186 mcc NO on 11 puffs, which provides a 48% reduction in NO emissions, Example 2. The same initial Alumina, as in Example 1, is prepared for the solutions of the permanga sodium sodium with the same content. The solutions thus contain different quantitative and types of basic sodium compounds. The composition of the solutions is given in Table 1. The solutions are used to impregnate alumina granules, the impregnated granules are processed, the composition of cigarettes is prepared for them, the cigarettes are packaged (subjected to aging and tested as described in Example 1, using spectrometry method infrared. The data obtained are given in tabLo1,
25 25 25 25 25 25 25
100
100 100 100 100 100 100
T a
persons 1
ABOUT
63
31
59 56 61 58
Example 3. When using alumina granules and a method of impregnation with permanganate, as described in Example 1, a series of filtering compositions are prepared in which the content of sodium permanganate is changed using sodium permanganate and basic sodium solutions with different concentrations.
Sodium hydroxide is used in a molar ratio of 1: 3 sodium permanganate. The impregnated alumina granules are processed, the filter composition is prepared from them in combination with a cigarette, the latter are packaged, subjected to aging and tested as described in Example 1, using the infrared spectrometry method.
The level of permanganate and test data are shown in Table 2. Weight percentages are calculated on the basis of the total dry weight of the alumina granules impregnated with permanganato. Example 4. Alumina granules are impregnated with a solution of permanganate as described in Example 1, but sodium permanganate is replaced with other metals permanganates. The total level of permanganate in each case is regulated by the content of ttaO, which should be approximately 10% by weight, based on the impregnated alumina granules. The impregnated alumina granules are processed, the filter composition is prepared from them, packaged, subjected to aging and tested by the method of spectrometry in the infra red region, as described in Example 1. Test data Reduction of NO Type of permanganate Ba (Mn04) 2 16 CaCMnO.) Mg (Mn04) 2 Zn {MpO4) g
LiMnO.
25
52
NaMnO,
KMpOdo
5 The results show that sodium permanganate is more than twice as effective as other materials tested to reduce NO in the smoke.
Example 5. For processing p yes
0 granulated substrates use a solution of permanganate and basic sodium, as described in example 1, and a series of granulated substrates with a particle size of 30/50 mesh are impregnated with the solution. Pelganate-containing granules are processed, a filter composition for cigarettes is prepared from them, the latter are packaged, aged and tested by infrared spectrometry as described in Example 1.
Research data are presented in Table. 3, while the best results are obtained when using glyozoem containing less than 6 wt.% Silica.
Table 3 Alumina {Alcoa-H-51: 5,8 350 SiO Alumina (Alcoa 0.25 57 0.9 210 FI) SiOj, Alumina {Alcoa G-220) 0.2 350 SiO-, Alumina SiO 6.3 390 Over Silica gel 99.7 800 SiOg Kaolin unit Magnesium oxide 98.0 21 MgO Perlite. 98.0 50 ZrO 2,0 Diatomaceous earth aggregate 67
Continuation of table 3
20 s
0.4
130
12
ъ
12
0.26
100
Coal
(atlas-darko) - 600
Example b. The alumina granules are treated as described in Example 1 using a solution containing, Sodium permanganate 25 gilrate sodium oxide 2.5; distilled water 100. Impregnated granules contain 12 wt.% sodium permanganate. Impregnated granules are mixed with 30 / 70i mesh granules of activated carbon with a surface area of 1200 to make a filter composition. This mixture is used to make filter cigarettes that are packaged and tested as described. in Example 1, using ultraviolet spectrophotometry to determine the NO content.
The space between the filter pads varies from 10 to 15 mm to accommodate 400 mg of the filtering composition, activated carbon, and their mixture. The test data are given in table 4.
Table 4
Continued tabl. 4
The results table. 4 show that there is a synergistic effect when combining impregnated alumina granules with activated carbon, and none of the materials in their pure form can give the same results as are obtained for combining them.
However, despite the synergistic effect obtained by using alumina impregnated with permanganate and basic solution mixed with coal granules, the filter composition can be used with other materials, such as silica gel, synthetic polymers, cellulose, porous materials that serve as carriers of active substances, and These materials can selectively absorb other harmful components of smoke. It is also possible to use flavoring substances in combination with the proposed filtering composition.

权利要求:
Claims (3)
[1]
Invention Formula
one,. Filtering composition for tobacco smoke, including activated porous alumina and sodium permanganate, characterized in that, in order to increase the efficiency of purification of smoke from harmful substances, alumina is selected from alumina, containing from 0.5 to 6 wt.% Silica from the weight of the latter | the surface area of the selected alumina is from 100 to 550 MVr, and the pore volume is from 0.2 to 0.9, and the composition additionally contains an alkaline compound of sodium in the following ratio of components, wt.% 5
Sodium permanganate 3.33-30
Common sodium compound 0.05-30.8
Activated porous aluminaErest
[2]
2. The composition according to claim 1, characterized in that it additionally contains particles of activated carbon with an area of surface (Ai 65 | in () 0-1bOO MVr in the amount of 25-50 weight.
13738495J4
[3]
3. The composition according to A.1, about tl and h and y-Sources of information,
"A and with the fact that, it is additionally-taken into account during the examination but contains water in the amount of from 11. Patent OCA 3434479,
Lo 30% of the weight of the composition. 131-109, published. 1970.

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US7487782B2|2002-09-19|2009-02-10|Japan Tobacco Inc.|Cigarette filter|NL6503794A|1964-03-25|1965-09-27|

US3434479A|1966-09-15|1969-03-25|Liggett & Myers Tobacco Co|Permanganate tobacco smoke filter|US4637408A|1983-08-25|1987-01-20|Philip Morris Incorporated|Filter material for the removal of nitric oxide|

US5067500A|1989-04-24|1991-11-26|Philip Morris Incorporated|Container for additive materials for smoking articles|

US5133367A|1989-04-24|1992-07-28|Philip Morris Incorporated|Container for additive materials for smoking articles|

US4991605A|1989-04-24|1991-02-12|Philip Morris Incorporated|Container for additive materials for smoking articles|

US6004522A|1993-12-15|1999-12-21|Purafil, Inc.|Solid filtration media incorporating elevated levels of permanganate and water|

WO1995016518A1|1993-12-15|1995-06-22|Purafil, Inc.|Improved solid filtration media incorporating elevated levels of permanganate and water|

US5942323A|1995-01-27|1999-08-24|Purafil, Inc.|Fiber filter and methods of use thereof|

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US8664153B1|2013-03-15|2014-03-04|Sociedad Oxidquimica Limitada|Activated carbon as an adsorbent composition|

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法律状态:

优先权:

申请号 | 申请日 | 专利标题

US05/548,240|US3957059A|1975-02-10|1975-02-10|Smoking product and process|

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