№ 133(9), November, 2017
Public date: 30.11.2017
Archive of journal: Articles count 94, 254 kb
-
Description
The problem of TNCs expansion as an objective factor of globalization is urgent for the Russian economy at the present stage. The process of TNCs expansion has gone through several stages, and has its positive and negative consequences. The contradictory nature of TNCs introduction and operation on Russian consumer market affected its boundaries, structure and volumes. A number of the transnationalization indicators in the sectors of Russian economy reached their ultimate values. This involves assessing the consequences of transnationalization in the context of country's economic security, identifying measures of state policy to protect the borders and economic potential of the consumer market. The aggregate of state measures in industrial and structural policy should be aimed at accelerating domestic production growth, formation of stable borders and volumes of the consumer market, and ensuring the effectiveness of its functioning
-
SUPPLYING THE GREENHOUSES WITH POWER BY THE USE OF ASYNCHRONOUS GENERATORS
DescriptionDue to the recommendation of the World Health Organization, the standard rate of vegetables consumption for a person per year is 130-150 kg, including up to 15 kg of fresh production during the off-season. To meet these standards in Russia, the construction of greenhouses and greenhouse complexes was sped up. To cultivate the bulk of vegetables in the conditions of protected soil we have mostly used winter greenhouses. At the same time, in terms of the climatic conditions, the main production costs are accounted for energy carriers (up to 60 – 70%). The main consumers of energy in greenhouses are plants’ lighting and creation of the required temperature conditions for plants and soil. Annual increase of rates for energy carriers affects the cost of the greenhouses’ production. To increase the energy efficiency and independence in greenhouse complexes, it is proposed to use installations based on gas reciprocating units (GRU) for the production of two types of energy – electric and thermal. Such installations can run on the natural gas and other types of fuel. The drawback of existing installations is that they are mainly produced abroad or consist of the foreign components. As an alternative, we offer new technical solutions, which were developed and patented in the Russian Federation. What makes these solutions original is that asynchronous generators in the installations are used with various control schemes
-
22.00.00 Sociological sciences
DescriptionThe article examines the ethical aspects of online communications in modern social networks. In the course of the study, the function "pumping an avatar", first proposed to users of the social network "VKontakte" on April 1, 2017 as a comic and innovative version of the congratulations on the Day of Laughter of their friends on the Internet, was studied. Some of the ethical aspects of the network innovation under consideration have been identified. The results of a questionnaire survey of students of Kuban State Technical University about the perception of the new online format of the April Fool's Day are given. The factors limiting in 2017 the diffusion of this innovation function among Internet users are considered. The results of the analysis of the reasons for both negative and positive attitude of Kuban State Technical University students to the possibility of making comic visual changes to the account of other users without their knowledge are presented. In the course of the study it was revealed that the individual model of behavior of the respondents on the Day of Laughter in many respects correlated with the model of their friends' behavior on the social network «Vkontakte». There is a hypothesis that if technical barriers to communication are eliminated, the next year may be seen viral effects both in distributing information about the avatar-pumping function itself in the social network, and in distributing content created with it
-
EFFICIENCY OF THE FERTILIZER SYSTEM IN THE TECHNOLOGY OF EMPOWERMENT OF WINTER WHEAT
06.00.00 Agricultural sciences
DescriptionWinter wheat is very demanding on the nutrient regime of the soil. Like many winter crops, it consumes the nutrients unevenly distributed during the vegetation period, which must be considered when making them. Modern varieties of winter wheat are very demanding to soil fertility. For the formation of 4,0-4,5 t/ha requires about 140 kg of nitrogen, 50 kg phosphorus and 120 kg potassium. Therefore, without the use of fertilizers, it is not possible to obtain such a crop with high grain quality. In addition, in the cultivation of winter wheat in the high and intensive technologies simply need using large amounts of fertilizer to compensate for the removal of nutrients. This is especially important when having partial or complete reduction of application of organic fertilizers. Therefore, we consider the possibility and the results of studies using different doses, combinations and types of fertilizers in technology of winter wheat cultivation. Experimental studies were carried out in the conditions of insufficient and unstable moistening of southern zone of Rostov region, on experimental fields of the federal state scientific institution «ASС «Donskoy». For research, we have chosen the most common varieties of winter wheat (Tanais, Granite, Axinite, Terra, Donskoy prostor, Motto) and various combinations and combinations of mineral and organic fertilizers. The experiments were conducted on two predecessors: couples and peas. As the controllable parameters we had the productivity and quality of winter wheat. We have found a positive impact of the in-change of fertilizer on the studied parameters with a share of the variance of 96% and a high degree of correlation of 0,98. The marked increase in the productivity of winter wheat is up to 22% when using different versions of the experiment. We have identified rational combination doses of mineral and organic nutrition for predecessors: peas N40P60K40+2N30 and vapor – manure 40t/ha+2Р60+2N30