Now one of vital issues of our country is population maintenance with a qualitative and safe foodstuff [1]. Deterioration of ecological conditions observed in last decades is the reason of pollution of a foodstuff pesticides, radionuclides, toxic metals (lead, zinc, mercury, copper, arsenic, cadmium), various nitro compounds (nitrites, nitrates and so forth), antibiotics etc. Such situation extremely negatively affects the general state of health of the population of our planet. One of the consequences of this situation is disease growth, the speeded up cases of a newborns pathology, and also life expectancy decreasing - now in Russia this index is 65 years while in England and Japan the life expectancy is equal to 76 and 80 years accordingly [2]. A necessary condition for health preservation and level of working capacity of the person, increasing of his life duration is following the balanced diet that means reception by a human body a demanded complex of the nutritious ingredients balanced on a parity and quantity from food [3]. Thus, there is a necessity for restructuration and quality of population nutrition, working out of production enriched various biologically active materials, and also for expansion of possibilities of food consumption with high biological value [4]. In the light of the pointed problem the production of functional products of the natural origin intended for daily regular consumption and having an effect on biochemical reactions and physiological functions through restoration of its microecological status is extremely important [5]. One of the sources of vital substances for an organism is berry cultures which play an essential role in population nutrition. Biological value of berries is defined not only by its energy value, but also by the high maintenance of pectic substances, macro- and minor components, and also the vitamins which maintenance plays an essential role in preventive maintenance of such diseases as a scurvy, Beriberi etc. [6]. A berry gets special value in northern widths where the nutrition consists mostly of products of acid character (bread, meat, eggs, fish, groats prevail), that results to surplus in an organism of the sour connections causing development of acidosis against infringement of a metabolism. Berries and fruit are the best source of the alkaline bases, allowing to avoid similar diseases [7]. Among all ways of canning (cooking, freezing, degermination), drying is the most perspective method of preservation of products which advantages are: small weight of the exsiccated product, not expensive tare for packing, possibility of long-term storage and transportation without cold application, etc. [8]. Now the most perspective ways of drying are the vacuum drying which is passing at negative pressure, but above triple point of water and the freeze drying proceeding at pressure below triple point of water. Each of ways has advantages and disadvantages. Vacuum drying allows to apply cheaper equipment, to reduce process of drying at the expense of absence of a stage pre-award frosts, and also to reduce power inputs on removal of moisture of 1 kg. Freeze drying, despite lacking of the above pointed advantages, allows to receive a product with very high quality indicators, especially this question concerns preservations of vitamins. The products received by this methods of drying, are characterised by the smallest contraction, good ability to dehydration and high storage times that is especially important by production of dry berries and berry powders adding into the formula of wide assortment of foodstuff in the edible industry, and also biologically active admixtures in a pharmaceutical industry. The dry berries manufactured by method of vacuum and freeze drying, can be widely applied in dairy industry at manufacturing of curd cakes, fruit milk, yoghourts, cream, etc. In cookery they are used for kissels, sauces, stuffings, gravies, etc. In confectionery industry berries have found application in fruit and wafer productions as flavouring agents, dyes and stabilizers of fats. Thanks to the high nutritional value berries represent an integral part of person nutrition. Fresh berries are an irreplaceable source of vitamins, mineral substances, organic acids and sugars that is vital for maintenance of high-grade health. Regular consumption of berries allows avoiding many diseases connected with avitaminosis, to reinforce immunity, and also to raise the general working capacity. Fresh berries contain about 75-90% of water, thus the most part of solid content (80-90%) is carbohydrates among which the most important are laevulose, glucose, sucrose, cellulose, hemicellulose and starch. The basic share of berries nutrients makes the sugar, substantially influencing their flavour profiles and storage life. Among all presented sugars the sweetest one is laevulose, then - sucrose, and the last place belongs to glucose. Depending on a cultivar and conditions of cultivation the maintenance of sugars can vary on the average from 5 to 12% [9]. Drying is known to be now the most perspective method of product canning, including berries [10]. This way is based on supression of ability to live of organisms and retardation of all biochemical processes as a result of partial or full moisture removal from product. At product drying there is strengthening of substrate to such level at which there are no conditions for a high-grade cellular metabolism in product tissues. The way of drying allows not only to raise safety of qualitative and biochemical indexes of products, but also appreciably to raise their shelf life and to reduce the canning cost price. Now many ways of drying based on various ways of warmth supply and moisture removal from product are developed. Every way has advantages and disadvantages. Among the basic methods of drying it is necessary to note such as convective, conductive, infra-red, microwave, acoustic, vacuum and sublimation. Dry berries practically completely conserve all spectrum of vitamins and biologically active materials that makes them valuable raw material in various food industry branches. The use of products on the basis of dry berries allows to compensate for the deficiency of some vitamins, edible filaments and other useful substances, and also to normalize an intestinal microflora of organism. The pectic substances in dry berries help to deduce heavy metals (lead, mercury, cobalt, molybdenum, zinc), and radio nuclides (isotopes of strontium, caesium, yttrium, etc.), and also urea, cholesterol and other harmful substances from organism. Now the production of fruit powders becomes more and more expanded. The basic advantage of such product is flash restorability at water addition. Application of fruit powders in the food-processing industry has given the chance to expand substantially assortment of manufactured production, and also to raise its biological value at the expense of the big maintenance of vitamins, macro- and minor components and cellulose which give the necessary relish and odour to products. Berry powders are applied in such areas of food-processing industry as dairy, confectionery and bakery, and also in a pharmaceutical industry by production of biologically active admixtures [10]. Addition of dry berries in production of various products allows improving a consistence to optimise structural characteristics of weight, and also to save utilization of gelling agents. Berry powders have received special distribution in dairy industry where they are used as fillers in curd cakes, yoghourts, dairy and cottage cheese creams, fruit milk, ice-cream, fruit and milk desserts, melted cheese, etc. Dry scraps of berries are also an irreplaceable component by scented tea production where the weight fraction of dry berries can reach 50%. Dry berries are used as a source of the natural cellulose used at manufacturing of cookies, candy sticks, dietary drugs, desserts, muesli, etc. They are raw materials for reception of aromatic substances, dyes and others biologically active materials. The aim of the investigation is selection of optimum physical and chemical, and technological aspects of low-temperature vacuum drying of berries. Selection should be based on individual physical and chemical properties of various kinds of this production. At drying it is necessary to consider contents, the cryoscopic temperature, thermal and physical, physical and chemical properties, solid content, etc. OBJECTS AND METHODS OF STUDY Objects of study at various stages of work were: - berries of strawberry, raspberry, black currant, cranberry. The fruit and berry raw material was got: in State Unitary Enterprise “Plodopitomnik-1” (Kemerovo, Russia) during the period from 2010 to 2012; in cities of Tomsk area of crops 2010-2012. In experimental researches the berries which have reached full maturity, healthy, not having bruises were applied; - granulated sugar; - laboratory and trial samples of dry berries. At performance of tests both standard and original techniques of investigation of technological, physical and chemical, biochemical, microbiological and statistical methods of research of raw materials and finished products properties have been used. Selection and preparation of hallmarks for the analysis, the total maintenance of organic acids, organoleptic indexes, chemical composition, vitaminized and mineral value of berries of strawberry, raspberry, currant black, cranberry were defined in laboratories of the scientific-educational centre and department “Bionanotechnology” of Kemerovo Institute of Food Science and Technology (University), and also in laboratories of the test centre of federal official establishment of the centre of agrochemical service “Kemerovo” (Kemerovo, Russia). The determination of macro- and minor components was made by method of atomic-absorption spectrophotometry. The method principle is based on ability of the dissociated atoms of elements to capture light in a narrow spectral range. Thermalphysic characteristics of berries were determined by the first buffer method of two temperature and time intervals [11, 12]. Microstructural researches of strawberry, raspberry, black currant, cranberry berries before drying were made in the institute “Coal and coal chemistry” of the Siberian Branch of the Russian Academy of Science (Kemerovo, Russia). Electronic-microscopic researches were carried out on raster scanning electron microscope JEOL JSM-6390 LA. RESULTS AND DISCUSSION Drying process consists in the following. The probed product is kept on pans which are positioned in drying chambers. The chambers are closed from above by caps. The refrigerating unit is switched on from operating console and within 10-15 minutes the installation turns on a winterizing mode. The winterizing mode is fixed on evaporator temperature (the temperature should make no more than minus 35°С). Then the vacuum pump is switched on and the drying condition begins. Owing to low pressure in chambers there is a vaporization of moisture from berries and their drying. The duration of drying process takes from 5 to 6 hours. According to their properties berries represent colloidal capillary-cellular body. Walls of capillaries of such bodies are elastic and bulk up at moisture absorption. After dehydration such bodies shrink, become fragile and can be transformed into a powder. Physical properties of products appreciably influence on their qualitative characteristics, a storage ability and transportation. The list of these properties is wide enough and includes such indexes as weight, density, size, form, and thermal, structurally-mechanical, optical, electrophysical, sorption indexes, etc. Weight, size and form are quality factors of many kinds of foodstuff, rationing of these parametres is manufactured for bakery, confectionery products, cheeses, cake cheeses, etc. The defined form and size of any fruit and berry correspond to each economic-botanical or pomological cultivar. Thermal properties represent a complex of physical quantities defining character and speed of passing of processes of cooling and heating in product. Such properties are heat capacity, thermal conductivity, fusion point and freezing. Thermal characteristics are considered at degermination, cooking, batch, transportation and storage of products, they are basic sizes used by working out of technological modes of cold treatment and at research of influence of low temperatures on foodstuff. In Table 1 the results of definition of thermal characteristics of probed berries are resulted. The obtained data testify about authentic correlation between such indexes as solid content, heat capacity and cryoscopic temperature. The increasing of moisture content of a berry conducts to decrease the cryoscopic temperature and to increase heat capacity. So, for example, the strawberry characterized by the smallest solid content (13.13 ± 0.05%), and, hence, and the greatest moisture content, has shown the least cryoscopic temperature which has made minus 0.91 ± 0.02°С and the greatest heat capacity 3961 ± 15 J/kg×К of all probed berries. The similar heat capacity has been positioned in cranberry (3820 ± 15 J/kg×К), however because of smaller moisture content its cryoscopic temperature has made minus 1.51 ± 0.02°С. The greatest solid content (18.63 ± 0.05%) was revealed in black currant that is the reason of its lowest cryoscopic temperature which has made minus 2.13 ± 0.02°С. However, despite it, heat capacity of raspberry (3654 ± 15 J/kg×К) has appeared lower than in black currant. At drying point selection, experiments were made at the following temperatures: 60, 70 and 80°С, the size of residual pressure was 4-5 kPa and heat flux density was 5.5 ± 0.3 kw/m. According to the data received during experiments, schedules of relative weight change (Fig. 1), temperatures on a surface (Fig. 2) and in thickness of a berry (Fig. 3) depending on a drying time have been constructed. First 15 minutes the installation turns on operating duty, thus the cooling machine and a vacuum pump works depressing pressure in the chamber from atmospheric to pressure 4-5 kPa. Table 1. Thermalphysic characteristics of berries Kinds of berry Solid content, % Heat capacity Cryoscopic temperature tI