RU2226960C1 - Method of preparing tobacco for storage - Google Patents

Abstract

FIELD: tobacco industry. SUBSTANCE: invention relates to technology of postharvest treatment and storage of tobacco. Treatment of tobacco is carried out with immunostimulating agent obtained from biomass of micromycet Pythium insidiosum according to special technology. Tobacco is then aged, dried, and treated with hot carbon dioxide containing vapors of a monobasic saturated organic acid. EFFECT: excluded use of pure substances as immunostimulating agent and simplified technology. 2 ex

Description

The invention relates to technology for post-harvest processing and storage of tobacco.

A known method of preparing tobacco for storage, comprising treating it with a mixture of arachidonic acid and chitosan, holding for at least 3 hours, drying and treating with heated carbon dioxide containing monobasic organic saturated acid vapors (RU 2166887 C1, 05.20.2001).

A known method of preparing tobacco for storage, comprising treating it with a mixture of eicosapentaenoic acid and chitosan, holding for at least 3 hours, drying and treating with heated carbon dioxide containing monobasic organic saturated acid vapors (RU 2164774 C1, 04/10/2001).

A common disadvantage of these methods is the complexity due to the need to obtain two components of the immunostimulant with a sufficient degree of purity.

The technical result of the invention is the simplification of technology.

This result is achieved in that in a method of preparing tobacco for storage, comprising treating it with an immunostimulant, holding for at least 3 hours, drying and treating with heated carbon dioxide containing monobasic organic limit acid pairs, the preparation obtained by sequential extraction is used as an immunostimulant according to the invention micromycete biomass Pythium insidiosum non-polar extractant in a supercritical state, water, alkali, water, acid, water, alkali and water, followed by union of the first extract with the solid residue in an amount of 1-1 x 10 ⁴ mg / m.

The method is implemented as follows.

The dry biomass of Pythium insidiosum micromycete is extracted with a non-polar extractant, for example carbon dioxide or hexane, in a supercritical state. At this stage, the first extract is separated, which is used later in the preparation. Next, the biomass is sequentially extracted with water, alkali, water, acid, water, alkali and water. The solid residue obtained after completion of all the extraction steps listed above is combined with the first extract. The preparation thus obtained contains mainly chitosan and higher polyunsaturated fatty acids, mainly represented by arachidonic and eicosapentaenoic. Freshly harvested tobacco is treated with a preparation at a rate of 1-1 · 10 ⁴ mg / t. Since it was established as a result of an experimental test that the drug does not include toxic substances and substances that can inhibit the immunostimulating activity of chitosan, arachidonic and eicosapentaenoic acids, the immunostimulating effect of the drug turned out to be similar to mixtures of chitosan with arachidonic or eicosapentaenoic acid. It was experimentally established that the treatment is effective at a drug consumption of at least 1 mg / t, which is slightly higher than in the known technical solutions. This is probably due to a significant amount of impurity substances that do not have immunostimulating activity. Next, the tobacco is dried and treated with heated carbon dioxide containing vapors of a monobasic organic limit acid, for example formic or propionic. As a result, after completion of all types of processing, the surface microflora of tobacco are destroyed and substances accumulate in it that impede the development of microflora after secondary contamination.

It should be noted that the upper limit of the consumption of the drug is selected according to the organoleptic properties of tobacco products obtained from tobacco processed according to the proposed method. Tasting of such products showed that when the dosage of the drug is above the specified upper limit, tobacco smoke acquires a smell of smell that is not characteristic of tobacco products, and leaves a metallic aftertaste.

Example 1

Freshly harvested Dubek tobacco is treated with mixtures of chitosan with arachidonic or eicosapentaenoic acid or a preparation obtained from the biomass of micromycete Pythium insidiosum using carbon dioxide as non-polar extractant, alkali sodium hydroxide and hydrochloric acid, in an amount of 1 mg / g, incubated for 3 hours, dried and treated with a stream of carbon dioxide heated to 30 ° C containing formic acid vapors. After 1 month of storage, tobacco samples are contaminated with Penicillium funiculosum mold spores in an amount of 2 · 10 ¹² spores / g and incubated at 36 ° C for 7 days. Mold development in experimental and reference samples was not detected. When smoking tobacco, experimental tobacco and reference batches have no odor of extraneous tones, and do not leave extraneous aftertaste.

Example 2

Freshly harvested Samsun tobacco is processed according to example 1, but using mixtures and a preparation obtained from the biomass of micromycete Pythium insidiosum using hexane as a non-polar extractant, as an alkali, ammonium hydroxide and propionic acid, in an amount of 10 g / g, as well as propionic vapor acids. At the same time, tobacco samples were inoculated in Example 1, but using Aspergillus niger mold spores, and a similar fungus resistance test was performed. The result coincides with example 1.

Thus, the proposed method has a simplified technology due to the absence of the need to use pure substances as an immunostimulant.

Claims (1)

A method of preparing tobacco for storage, comprising treating it with an immunostimulant, holding for at least 3 hours, drying and treating with heated carbon dioxide containing monobasic organic limit acid pairs, characterized in that the preparation obtained by sequential extraction of the biomass of Pythium insidiosum micromycete with non-polar is used as an immunostimulant supercritical extractant, water, alkali, water, acid, water, alkali and water, followed by combining the first extract with solid the remainder, in an amount of 1-1 · 10 ⁴ mg / t.