NL7908427A - METHOD FOR PREPARING ACTIVE DRY MICRO-ORGANISMS - Google Patents

Description

HED - 2315 - 1 -

Yeast-Brocades N «Y ·

Method for preparing active dry micro-organisms

The invention relates to a method for preparing active dry micro-organisms, in particular active dry yeast, such as baker's yeast, brewer's yeast, wine yeast and so on.

Methods for drying yeast are well known. For example, British Patent Specification 1,132,793 discloses a method in which pressed yeast, i.e. yeast with a dry matter content of about 30%, is dried in a fluidized bed. British patent 1,230,205 also provides such a process, which focuses on baker's yeast with a high protein content. Furthermore, British Patent Specification 1,064,212 describes a process in which yeast is spray dried. A baking method is described in British Patent 1,140,016. This is just a selection of the numerous known drying methods for yeast, in particular baker's yeast.

In countries with a humid, warm climate, for example humid tropical countries, difficulties are encountered, because it is not possible to use the available moist air to increase the yeast to a sufficiently high dry matter content, that is to say above a certain dry matter content for reasons of shelf life. , to dry while retaining activity. For this purpose, at least during final drying, the moisture content of the air must be reduced. It is clear that this is a relatively expensive process that, in particular for the bulk product, dried baker's yeast cannot be afforded.

The object of the invention is now to provide a method in order to avoid the above-mentioned drawbacks, wherein the use of dried air can be dispensed with during the final drying.

The invention therefore provides a method for preparing active dry microorganisms, in particular active dried yeast, characterized in that a pressed mass of microorganisms is divided into pieces in a known manner and with undried Air dries to a dry matter content of 75-90%, preferably 85-90%, after which the pieces of microorganisms are brought into an evacuable space, wherein said particles qp at a temperature of 25-45 ° C, preferably 30-35 ° C, and the pressure is reduced to a value of 1-10 mm Hg (133-1330 Pa), preferably 5-7 mm Hg (665-930 Pa), until the pieces are 790 8 4 27 - 2 - have reached dry matter content of 90-98%, preferably 92-94%.

"Pressed mass of microorganisms" is understood to mean a mass of microorganisms obtained by fermentation, from which the moisture has been removed as far as possible by mechanical means, such as filtration, centrifugation. yeast, the dry matter content of which usually varies between 25 and 50%, more specifically between 30 and 40%, for example, the so-called "Salzverfahren", as described in British Patent 763,926, may be used.

In the method according to the invention, wherein, depending on the desired dry matter content, the drying time in the evacuated space can vary from 2.5 to 40 h, but usually amounts to 5 - 20 h, one can use the expensive preparation of dry air for final drying. while the method is moreover more advantageous than if one were to carry out the entire drying in an evacuated space, because it is sufficient for the initial drying with still moist air. This drying method is particularly suitable for preparing active dried baker's yeast (Saccharo-myces cerevisiae), but can also be applied to other yeasts, such as brewer's yeast, wine yeast, etc., or even to other micro-organisms, such as dried fungi and of such.

After the mass has been stripped of moisture as far as possible by mechanical means, for example with a filter, the mass obtained is reduced, preferably by extrusion through a perforated plate. Those holes can have a diameter of 0.5-3 mm, preferably 1.2-1.6 mm, whereby after drying pieces are obtained with dimensions of approximately 0.4-1.5 mm. The bed load is 100-1000 kg / m soil surface.

For drying, a surfactant can be added to the material to be dried in an amount of, for example, 0.5-5%, more in particular 1-2%, based on dry matter. Examples of suitable surfactants are esters of saturated or unsaturated fatty acids and an alcohol, such as sorbitan monolaurate, sorbitan monostearate, sorbitan monooleate, glyceryl monostearate, glyceryl distearate, glyceryl monopalmitate, propylene glycol monostearate or glyceryl mono- or di-palmi -tate or stearate, further esterified with a consumable acid such as citric, tartaric, fumaric, malic, lactic and the like.

Initial drying to a dry matter content of 75-90% may be a drying method using a fluid 790 84 27 - 3 - f ..

disidated bed, as described in British Patent No. 1,132,793, using drying air with an initial temperature of 60-200 ° C, preferably 90-130 ° C. The particles are kept at a wet-bulb temperature of not more than 45 ° C, generally not more than 35 ° C.

The evacuable space to be used for the final stage of drying can consist of a vacuum drum, which can be rotated, for example, and in which water with a temperature of 25-45 ° C can be passed through an outer jacket.

The invention is further explained to the. using an example.

Example

Baker's yeast was prepared in the usual manner, using molasses as a food source. Ammonium phosphate was used as the phosphate source, and urea and ammonium sulfate were added as the nitrogen source.

The yeast obtained had a nitrogen content of 6.0-9¾ in various experiments, generally about 7.2%, based on dry matter. The phosphate content was 1.4-3.0% pp dry matter, generally 1.8%. The yeast was centrifuged and washed and then processed to a fresh yeast with a dry matter content of 30-36%, generally 34-35%, using the method of the "Salz-20 Verfahren" via so-called vacuum filters.

The fresh yeast thus obtained, whether or not after addition of a surfactant, was extruded through a 1.4 mm diameter plate with holes, and the strands (spaghetti) thus obtained were passed into a fluidized bed. Dryer.

The loading of the fluidized bed dryer was 100-1000 kg / m bottom surface, in general 600 kg / m · Outdoor air was drawn in with a dew point of 13-24 ° C, This air was filtered dust-free and heated in a heat exchanger until 110 ° C. The air velocity in the fluidized bed was 0.8-2.0 n / s, generally 1.2 n / s.

The outgoing air was almost saturated with water day, while relative humidity decreased towards the end of the drying. At the end of the drying, the air temperature was lowered as a function of the current bed temperature, the bed temperature being a maximum of 35 ° C.

After drying for 3 hours, a yeast having a dry matter content of 85-90% was obtained.

The yeast pellets thus obtained were transferred to a rotary vacuum drum before drying. The inner wall of the vacuum drum 7908427 J -.-, - 4 - may be corrugated to increase the heating surface · Water was passed through a jacket around the inner wall at a temperature of 30 egg 35 ° C. After filling, the drum was brought under vacuum, initially reaching a pressure of 15 mm Hg (2000 Pa), which pressure decreased to 6 mm Hg (800 Pa) in the course of drying. After a drying time in the drum of about 10 hours, the yeast had a dry matter content of 92 to 94%. The resulting dry yeast was then tested for proofing and baking tests. At a dosage of 6 g of dry yeast on 1 kg of flour, a satisfactory rising power and a good bread volume were obtained. —Ooo— 790 84 27

Claims (7)

Method for preparing active dry microorganisms, in particular active dried yeast, characterized in that a pressed mass of microorganisms is divided into pieces in a manner known per se and dried with non-dried air to a dry matter content of 75-90%, after which the pieces of microorganisms are brought into an evacuable space, in which the pieces are kept at a temperature of 25-45 ° C and the pressure is reduced to a value of 1-10 mm Hg (133-1330 Pa), until the pieces have reached a dry matter content of 90-98% · Method according to claim 1, characterized in that the walls of the evacuable space are kept at a temperature between 30 and 35 ° C. Method according to claim 1 or 2, characterized in that the pieces of microorganism are dried to a dry matter content of 92-94% 4. A method according to any one of the preceding claims, characterized in that a surfactant is added to the mass of micro-organisms before drying. Process according to claim 4, characterized in that the surfactant is selected from the group consisting of esters of saturated or unsaturated fatty acids and an alcohol such as sorbitan monolaurate, sorbitan monostearate, sorbitan monooleate, glyceryl monostearate, glyceryl distearate, glyceryl monopalimate, propylene glycol monostearate or glycerol mono- or dipalmitate or stearate, further esterified with an edible acid such as citric, tartaric, fumaric, malic and lactic acids 6. Process according to claim 4 or 5, characterized in that an amount of 0.5-5%, preferably 1-2%, of the surfactant is added, calculated on the dry matter content of the microorganism. 7. Biologically active, dried microorganism, in particular active dried yeast, obtained by the method according to one or more of the preceding claims. 790 84 27 000