US3144871A

US3144871A - Treatment of tobacco with organic solvents in the vapour phase

Info

Publication number: US3144871A
Application number: US199738A
Authority: US
Inventors: Souza John Edwin De; Rice Robert Louis
Original assignee: Imp Tobacco Co Ltd
Current assignee: Imperial Tobacco Company of Canada Ltd
Priority date: 1962-06-04
Filing date: 1962-06-04
Publication date: 1964-08-18
Anticipated expiration: 1981-08-18
Also published as: DK104826C; GB982663A; CH410742A; ES281126A1

Description

Aug. 18, 1964 J. E. DE souzA ETAL TREATMENT OF TOBACCO WITH ORGANIC SOLVENTS IN THE VAPOUR PHASE Filed June 4, 1962 m r N m G R w E T U o H H w m W3 d \U\ uu x I. D m O R .I F w w. M m N D r 0 N S w m INVENTORS IE. De souzA & RAE/CE United States Patent 3,144,871 TREATMENT OF TOBACCO WITH ()RGANTC SOLVENTS IN THE VAPOUR PHASE John Edwin de Souza, Roxboro, Quebec, and Robert Louis Rice, Montreal, Quebec, Canada, assignors to Imperial Tobacco Company of Canada, Limited, Montreai, Quebec, Canada Filed June 4, 1962, Ser. No. 199,738 4 Claims. (Cl. 131-140) This invention relates to the treatment of cigarette tobacco whereby the filling capacity of the tobacco is improved without impairing the manufacturing properties of the tobacco or reducing the acceptability, in respect to smoking qualities, of cigarettes manufactured from the treated tobacco.

The term filling capacity refers to that property of tobacco which determines its ability to resist compression. This property, among others, governs the yield per pound of tobacco of acceptably firm cigarettes. It follows from the above definition that in comparing two tobaccos, the tobacco from which cigarettes can be made at a lower weight without impairing the firmness of the cigarette, is the tobacco with the better filling capacity. This property is measured (1) on cigarettes by their resistance to compression under different weight loads and (2) on tobacco by the volume obtained after subjecting a sample of standard weight to compression.

A means of treating tobacco by which the filling capacity of the tobacco is improved, without impairing other properties of the tobacco, is obviously advantageous to the manufacturer.

The present invention pertains to the treatment of tobacco with organic solvents in the vapour phase. The treatment is preferably carried out at or near the vapour temperature of a boiling solvent but need not be restricted to this temperature. The time of treatment may be long or short depending on the solvent used and the results desired.

Incidental to this treatment, a certain amount of solvent vapour is condensed on the tobacco during the initial warming up of the equipment after which the tobacco is entirely in vapour. During the initial warm up stage, a small amount of materials is unavoidably extracted from the tobacco but the amount extracted is never greater than 3% and usually less than 2% of the original tobacco weight.

Solvents are known to have been used in the treatment of tobaccobut for the express purpose of denicotinizing tobacco by solvent extraction processes. Such processes have been described in British Patent No. 413,942 to Brummond; German Patent No. 301,439 to Rothenburg; U.S. Patent No. 2,048,624 to Roselius, and US. Patent No. 1,577,768 to Smith. To obtain the objective of denicotinizing tobacco, the patentees decribe processes of two or more stages which include raising the moisture content of the tobacco to a high level prior to an extraction with an organic solvent. Not only doe this perform an extraction of certain of the tobacco constituents but it tends to deteriorate the leaf structure. Smith, in fact, treats tobacco with live steam at 100 to 150 C. and at pressures above atmospheric, followed by an additional treatment with volatile bases such as ammonia, methylamine, etc. Rhodes US. Patent No. 2,227,863 describes the extraction of tobacco with fluoro-chlorohydrocarbons for the removal of tarry materials and includes in his patent the use of normally gaseous hydrocarbons, the latter requiring the extractions to be carried out at pressures greater than atmospheric.

It will then be seen that the use of solvents has been contemplated for extraction purposes in the liquid state and not for the treatment of tobacco with solvents in the ice vapour state. The removal of extract, which represents less than 3% of the starting weight of tobacco, is incidental to our process. The present process also difiers from the above prior art in that: (1) It is a one stage process, and (2) The treatment is carried out under normal atmospheric pressure.

The object of the present invention is to treat tobacco with a solvent vapour for the purpose of increasing the filling capacity of the tobacco without impairing other properties of the tobacco or removing any significant amount of materials from the tobacco.

The above and other objects of the invention will be apparent from the following detailed description and from the accompanying drawing which is a schematic diagram of the apparatus (laboratory) employed in the treatment of the tobacco with solvent vapours.

Any process by which tobacco can be placed in contact with warm or hot solvent vapours can be used. The apparatus illustrated in the accompanying drawing is by way of example only and could be modified to suit any particular set of conditions such as the type of tobacco being processed, the particular solvents being used and factory layout etc.

The apparatus disclosed includes a reaction flask 5 having a cover 6 set over any suitable heating apparatus or heating mantle 7. A condenser 8 is mounted in the cover 6 adjacent to the vertical wall 9 of the flask 5. A wire basket 10 is suspended by any suitable means in the flask 5 midway between the top level of the solvent 11 and the cover 6. To avoid the condensed solvent from condenser 8 passing through the tobacco in basket 10, the size of the basket 10 and position of same in flask 5 is so designed that no portion of the basket is directly under the condenser tube 12. A thermometer 13 is fitted through the cover 6 and extends down into the flask 5 to provide an external reading of the temperature within the flask.

The type of solvent used can be of the type miscible with Water, partially miscible with water or non-miscible with water and can include open and closed chain saturated and unsaturated hydrocarbons, aromatic hydrocarbons, alcohols, ketones, ethers, esters, chlorinated solvents or a mixture of these solvents, and is brought to the desired temperature within the flask 5 in order to generate solvent vapour which will envelope the tobacco carried in the wire basket 10.

During the initial heating-up of the solvent, a certain amount of solvent vapour is condensed on the tobacco. However, after the tobacco attains a rise in temperature approximating that of the vapour, condensing of the Vapour on the tobacco will cease. Also, by locating the wire mesh basket away from under the condenser 8, any condensate will fall back to the bottom of the flask and not on the tobacco.

After treatment of the tobacco with the solvent vapours for a requisite length of time, the tobacco is removed from the reaction flask and air dried to remove any residual solvent. After air drying, the tobacco is re-equilibrated to its original moisture content.

In the interest of better understanding of the invention, the following examples of treatment of the tobacco are given, but such examples are not to be construed in any restrictive sense.

Example 1 Approximately 350 cc. of benzene were poured into a 3000 ml. reaction flask, gms. of tobacco were Weighed into a wire mesh basket and the basket having a smaller diameter than the inner diameter of the flask was placed in the flask and suspended approximately 6 inches over the surface of the solvent. The cover was placed securely on the flask and a thermometer placed in one outlet of the cover and a condenser in the other outlet. The con- After treatment, the tobacco was removed from the P t P t E Th1 a fiask and air dried to remove any residual solvent fol- 33E2 6 al lowed by reequilibration to its original moisture content, 10 DBSCHDUOII i i g content t Improm- Tests on the tobacco showed that an increase in filling .g g g f ifff ifi 2 capacity of 11% was obtained. tobacco) tobacco) Example 2 1 2 3 4 5 A series of tobacco samples were processed as above 15 commltopacco L61 1m with different solvents and at different temperatures. The rea d w th n-l 93 1 63 13 8 vapours 5.0 results of these treatments are given in the following Treated with benzene table; vapours 0. 57 1. 51 14. 0 11.1

Condition otlreatment 20 What we claim is: Solvent T t C p ei v oger 1. A process for treating tobacco to improve its filling f gf i, capacity which comprises the steps of subjecting tobacco (Control) to solvent vapor and subsequently drying the tobacco W in the absence of solvent to remove solven vapor from Toluene 192 g8 the tobacco, said step of subjecting the tobacco to solvent 20 3 vapor consisting of subjecting the tobacco, at atmospheric n-Hexane 6&2 pressure and for a predetermined period, to vapor of a non-aqueous solvent maintained at a temperature of In all cases, a certain amount of the original sample of tobacco was retained as a control. After treatment, the control and treated samples were equilibrated at similar conditions of temperature and relative humidity. Following equilibration, the filling capacities were measured simultaneously and the differences expressed as percent increase in filling capacity of the treated tobacco over the control.

As will be seen, the percent increase in filling capacity was substantial and was obtained without impairing the manufacturing properties of the tobacco or its smoking qualities.

The low levels of extract eluted by our process is illustrated by the examples given in the following table. Treatment of tobacco samples with n-hexane and benzene vapours removed extracts representing only 0.93% and 0.57% of the original dry weight of tobacco (see column 2 of the table). No nicotine was eluted in the first instance and only 0.1% in the second (see column 3 of the table).

The equilibrium moisture content of tobacco, that is the moisture content at which a tobacco will neither gain or lose moisture at a specified temperature and relative humidity, is of great importance in the handling and manufacturing of tobacco. In column 4 of the table, it is References Cited in the file of this patent UNITED STATES PATENTS 230,061 Robinson July 13, 1880 457,029 Johns Aug. 4, 1891 678,362 Froehling July 16, 1901 1,577,768 Smith Mar. 23, 1926 2,985,549 Rosenthal et al. May 23, 1961 FOREIGN PATENTS 485,078 Great Britain May 10, 1938

Claims

1. A PROCESS FOR TREATING TOBACCO TO IMPROVE ITS FILLING CAPACITY WHICHCOMPRISES THE STEPS OF SUBJECTING TOBACCO TO SOLVENT VAPOR AND SUBSEQUENTLY DRYING THE TOBACCO IN THE ABSENCE OF SOLVENT TO REMOVER SOLVENT VAPOR FROM THE TOBACCO, SAID STEP OF SUBJECTING THE TOBACCO TO SOLVENT VAPOR CONSISTING OF SUBJECTING THE TOBACCO,AT ATMOSPHERIC PRESSURE AND FOR A PREDETERMINED PERIOD, TO VAPOR OF A NON-AQUEOUS SOLVENT MAINTAINED AT A TEMPEATURE OF FROM ABOUT 64 TO 100*C., SAID SOLVENT BEING SELECTED FROM THE GROUP OF ALIPHATIC HYDROCARBONS, AROMATIC HY-