Your search keyword '"S. D. Rudnev"' showing total 4 results

1. THE EFFECT OF MECHANOACTIVATION AND MICROWAVE EFFECTS ON THE SURFACE PROPERTIES OF WATER AND AQUEOUS SOLUTIONS

Author

S. D. Rudnev, A. I. Krikun, V. V. Feoktistova, V. V. Ivanov, and M. V. Sumenkov

Subjects

dispersed systems, surface energy, water, aqueous solutions, mechanical activation, mixing, microwave exposure, surface tension, capillary rise method, Technology

Abstract

Most food mixtures, where the liquid acts as a dispersion medium, are formed with the participation of water and aqueous solutions,. The formation of stable surface interactions in disperse systems with the participation of water is based on overcoming the forces of surface tension at the interface between the phases. The aim of the research is to analyze the effect of mechanical activation during stirring and microwave exposure on the surface properties of water and aqueous solutions. The object of the research is distilled water, bottled “Berdovskaya taiga” drinking water, an aqueous solution of NaCl (3.33%), an aqueous solution of NaCl (3.33%) with the addition of 1% flour with stirring. The main research method is the method of capillary rise of liquid in a tube of small cross section, partially immersed in liquid. It has been established that both mechanical and electromagnetic effects change the surface energy of water and aqueous solutions. But their influence is ambiguous. Surface tension during mechanical activation by stirring decreases to a certain minimum for different time intervals for different solutions, and then increases to a certain level. The retention time of the reduced surface energy of distilled water after stirring at a frequency of 100 rpm is 60–80 s. There is a tendency for a noticeable effect of impurities on the surface tension. The more complex the solution and the higher the concentration of impurities, the lower its surface energy. According to the results of the research, for technological purposes, for example, dough kneading, it is recommended to mechanically process (mix) solutions for dough kneading for 60–70 s or microwave treatment for no more than 20 s.

Published

2022

2. Improvement of wheat dough structuring process

Author

S. D. Rudnev, V. V. Ivanov, and R. V. Kryuk

Subjects

wheat dough, structuring, water mechanical activation, rheological parameters, ultimate shear stress, bread, quality, Technology

Abstract

The bakery industry plays a huge role in providing the Russian population with food. Bread in Russia has a special value and the range of bakery products is unusually wide. Continuously new types of baking products are developed. At the same time, production of traditional types of bread is preserved, without which food in Russia is difficult to imagine. Preservation of production, technology and composition traditions of bakery products can be considered as one of the national foundations. Kneading has a special place in the structuring process in the dispersed system, called dough, when as a result of the mechanical connection of fine particulate material - flour and liquid components in the form of emulsions or a true aqueous solution, an elastically elastic plastic capillary-porous rheological body with spatial gluten (protein) framework is formed. The purpose of the research: to study physical and mechanical features of the dough structuring, the effect of mechanical activation of water on the process of structure formation. Thermodynamic research method was applied. Structurometer ST-1 rheological device, conical plastometer of Rebinder and MX-50 moisture analyzer were used. It’s been established that mechanical activation of water immediately before the dough kneading allows reducing energy consumption for kneading by at least 30-40 %, increasing the dough elasticity, which improves the operation of the equipment for dough cutting and forming, improves rheological properties of bread, which ultimately affects its consumer properties and competitiveness.

Published

2019

3. Research of process of filtration of salt water by bulk filters with the use of vibration

Author

S. D. Rudnev and A. I. Krikun

Subjects

Vibration, Materials science, research, sea water, technological needs, filtration, bulk filters, vibration, intensity, rational parameters, Chemical engineering, law, Scientific method, Geography, Planning and Development, Salt water, TP368-456, Management, Monitoring, Policy and Law, Food processing and manufacture, Filtration, law.invention

Abstract

For the purification of process water from impurities at fish processing plants, a large number of filtering devices are currently used, differing in their design parameters (mesh, woven, disco, etc.). However, in practice, these filtering devices are mainly used as the first stage of water treatment, since they can not provide sufficient quality of the filtrate. The most effective, as numerous studies of scientists of our country and the world show, are bulk granular filters. Their main advantages over other devices of similar designation are: they have a simple and reliable design; resistant to aggressive operating conditions; they are capable of effectively purifying seawater from mechanical impurities at relatively low pressure; most economical; have a filtering load capable of a long time to work without regeneration (the approximate service life of a grain-loading is 3 to 5 years) etc. In this article, the influence of vibration effects on the filtration of sea water in a designed and fabricated filter unit with bulk granular materials of natural and artificial origin, the design of which is protected by two patents for the utility model. The results of the study are presented, revealing the degree of influence of the intensity of vibration of the perforated partitioning wall on the state of bulk granular materials located on it (segregation by size, stratified vibro-packing, compacting or loosening of a layer of granular material). The dependences of the capacity of the filtration unit on the amplitude, frequency and the vibration intensity factor have been experimentally established, which made it possible to establish rational vibration parameters of the perforated septum, under which the filtering layer becomes denser, the porosity of the loading decreases, and the precipitate does not break into the filtrate.

Published

2018

4. Changing properties of mechanically activated water suspensions

Author

A I Krikun, S D Rudnev, and V V Feoktistova

Abstract

The authors carried out a series of experimental studies to research the changes of properties in mechanically activated water and suspensions. This article presents a part of the combined temperature and hydrogen exponent studies carried out at two different universities, using two separate approaches to mechanical dispersion. Study I used a planetary whisk mixer, whereas study II used a vibrating mechanical activator, which is a modern alternative to dispersion devices used at food production facilities. The research of the properties of mechanically activated water and liquid suspensions using these methods was conducted due to both the importance of these substances for all areas of the food production industry, and the modern development of technologies and techniques used at production facilities, as well as the lack of unity among the numerous research studies conducted by leading scientists specializing in the study of the properties of water, liquid suspensions and emulsions in resting and activated states. The results of the experimental studies conducted directed authors to conduct further research of mechanically activated suspensions during the filtration process.

Published

2021