US2149179A

US2149179A - Method of improving tobacco by fermentation

Info

Publication number: US2149179A
Application number: US140050A
Authority: US
Inventors: Moser Johannes
Original assignee: Individual
Current assignee: Individual
Priority date: 1936-05-19
Filing date: 1937-04-30
Publication date: 1939-02-28
Anticipated expiration: 1956-02-28

Description

Patented Feb. 28, 1939 UNITED STATES PATENT OFFICE METHOD OF IMPROVING TOBACCO BY FERIVIENTATION Johannes Moser, Berlin, Germany 10 Claims. (c1. 1s1 s) The present invention relates to the fermentation of tobacco and particularly to a fermenta tion method according to which a fermentation process is called forth, intentionally guided in a 5 definite direction, and under permanent control caused to proceed in this direction.

The invention thus relates to a method of fermenting tobacco by controlled fermentation.

The invention is based on the fact, that the aromata of the tobacco in one and the same leaf are different, in as far as it is possible to discern between the aroma of the reaped non-fermented leaf and that of the freshly fermented leaf and also between the aroma of the latter leaf and that of a leaf which has matured through storing and is ready for further treatment in the tobacco industry. We discern between:

1. The primary or plant bouquet,

2. The secondary or fermentation bouquet, and

3. The tertiary or storage bouquet.

The investigations made have shown with certainty, that there with respect to the described bouquet relations are not only analogies between wine and tobacco, but much more a homology.

The present invention deals with the improvement of the secondary or fermentation bouquet. A result of this improvement is an improvement of the tertiary bouquet and therewith a heightening of the quality of the tobacco.

Already some decenniums ago S uchsland has however pointed at the possibility that the fermentation process of the tobacco is a process in which microorganisms cause chemical alterations through which complex organicsubstances are decomposed into simpler compounds, and he has.

also proposed to inoculate the tobacco with certain microorganisms, wh ch have been bred in a certain manner, and thereby-obtain a controlled fermentation. Suchslands proposals did how.-

' ever not lead to any practical success, because hedid not pay'any attention to the influence of the oxygen 'upon the fermentation. The same may be said about. all new processes which have been 45 proposed from the time of Suchsland until now in as far as the same are based upon Suchsland's idea. In no case the oxygen is removed, even if it has been proposed to perform the fermentation in air-tight vessels.

50 As for the rest, all proposals for performing the fermentation under exclusion of air (in boxes of wood or the like) have been made by laymen anddo at'any rate not originate from scientific circles. They are also based on Suchsland's experience, 55 even if the greater part of the persons which have dealt with this matter have been unconscious of this fact.

The proposal to'ferment under total exclusion of oxygen has for the first time been made in my application and is in fact based on a new inven- 5 tion.

In the yeast fermentation hitherto employed no exclusion of oxygen took place and was also not desired. When the tobacco was fermented in the form of bales an exclusion of 02 was not 10 achieved also not in the interior of the bales. This becomes clear from the fact that when sufficient moisture is present, mould is formed in the interior of the bales. The fermentation in machines needs in this connection not to be dis- 15 cussed. The same is only a drying and remoistening of the tobacco in atmospheric air having a definite temperature and a definite degree of moisture.

All real methods of fermenting tobacco hither- 20 to used are, due to the presence of oxygen, accompanied by more 6r less intensive oxidations, wherefore, besides the losses due to spoiling (moulding, mustiness,'combustion and the like), also very considerable losses of weight, up to 18%, 26 occur.

According to the present invention losses by spoiling of the material and-losses of weight caused through oxidation are avoided.

According to the invention the tobacco may 30 also, before the fermentation takes place, be

inoculated withsuitable microorganisms, which are capable of growing in the absence of oxygen, such as for instance microorganisms bred on noble tobaccos or anaerobic yeasts. Hereby any desired bouquet of the tobacco may be developed. For the tobaccos grown in this country above all microorganisms bred on foreign tobaccos are advantageous, but also pure cultures of wine yeasts may be used, under consideration of the fact that on the fields on which tobacco grows also wine yeasts of the country are cultivated.

Therefore, also several fermentation processes may be carried through after one another.

Since the growth of aerobic microorganismssuch as for instance the mould fungusis prevented and any disturbance of the anaerobic flora during its activity is avoided, the duration of the fermentation may be shortened from months (when the tobacco is fermented in heaps) to days, provided the tobacco is sufficiently rich in microflora (for instance when the own flora is used).

invention also a fully uniform bouquet will be obtained in the entire batch under treatment.

Moreover, when proceeding in accordance with the invention the nicotine content of the finished tobacco will be considerably lower than in tobacco treated after the known methods.

The oxygen may be removed by expelling the atmospheric air. This may for instance be done by forcing the air out of the fermentation vessel by means of suitable gases, for instance C02. The gases may hereby be blown into the fermentation vessel or be produced in the fermentation vessel. The escape of the gases which are formed through the fermentation, and which would cause an over-pressure, must be controlled in such a manner that the introduction ofair is avoided, for instance by placing tubes in the tobacco mass which air-tightly penetrate the Walls of the fermentation vessel.

At the end of the fermentation a continuation of the same must be prevented, for instance by heating the tobacco under admission of air until albumen is formed, 1. e. to more than 60 C.

I claim:-

1. The method of fermenting tobacco which comprises inoculating the tobacco with suitable cultured microorganisms, removing all air from the tobacco and conducting the fermentation thereof in an oxygen-free environment. 2. The method of claim 1, in which the inoculating microorganisms were cultured on noble tobacco.

- 3. The method of claim 1, in which the inoculating micro-organisms are anaerobic yeasts.

4. The method of fermenting tobacco which comprises inoculating tobacco with suitable cultivated microorganisms, removing all air from the tobacco, conducting the fermentation in an oxygen-free environment, then raising the temperature of the so-fermented tobacco to more than 60 C.

5. The method of fermenting tobacco ,as recited in claim 1 as modified in that the airis removed from the tobacco by means of a suitable gas.

6. The method of fermenting tobacco as recited in claim 1, as modified in that the oxygen is removed from the tobacco by blowing a current of suitable gas therethrough.

7. The method of fermenting tobacco as recited in claim 1 as modified in that the oxygen is removed'by blowing a current of carbon-dioxide gas therethrough.

8. The method of fermenting tobacco as recited in claim 1, as modified in that any gases arising during the fermentation are removed While still maintaining the oxygen-free environment.

9. As a product of manufacture, tobacco which has been fermented with microorganisms in a totally oxygen-free environment.

10. As a product of manufacture, tobacco which has been fermented with suitable anaerobic microorganisms in any oxygen-free environment.

JOHANNES MOSER.