Wyniki wyszukiwania - BazTech

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Study of the Influence of Cavitation and Magnetic Field on the Change of Water Properties and its Purification in a Vibrating Machine with Determination of Drive Modes

Hordieiev Anatoly, Kalda Galyna, Pashechko Mykhaylo, Hanzyuk Andriy, Tkachuk Vitaliy, Kostiuk Nazar

Advances in Science and Technology. Research Journal

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2024

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Vol. 18, no 3

234--245

EN

The paper presents the results of research into the influence of low-frequency sound and magnetic fields on the change in the properties of water and its purification in a vibrating machine with an eccentric drive, which allows obtaining a constant amplitude of oscillation when the frequency of oscillations of the drive is changed. A method and construction of a vibrating machine for changing the properties of water and cleaning is proposed. Thanks to its reciprocating movement, and in the pulsation chamber and the nozzle, appropriate reactions take place. At certain oscillation frequencies, a cavitation cavity appears in the nozzle and the pulsation chamber, in which the process of splitting water molecules into active radicals takes place. At the same time, during the reciprocating movement of water through a non-magnetic nozzle, which is covered by permanent magnets, an additional effect of a variable magnetic field direction is exerted on water, which strengthens the breaking of hydrogen bonds in water molecules. Visualization of the hydrocavitation process during operation of a vibrating machine with a transparent nozzle was studied. During the experiment, changes in water parameters were studied, i.e. changes in pH, changes in the oxidation-reduction potential of treatment ORP and the total content of mineralization according to the TDS index with treatment time. The total concentration of dissolved salts decreases from 400 to 300 units, which also indicates an improvement in water quality. The rational frequency limits of the vibration drive of the machine are in the range from 18 to 23 Hz with an amplitude of oscillations of 0.002 m, and the ratio of its design parameters is determined: with a piston diameter of 0.1 m, it is recommended to use a diameter of the hole in the piston from 0.006 to 0.008 m.

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Study of Performance of a Vibrating Machine for Cleaning Contamination of Machine Parts with a Submersed Pulsating Jeam with Solid Particles

Hordieiev Anatoly, Kalda Galyna, Prus Aleksandra, Tkachuk Vitalii, Hordieiev Oleksii, Kupiec Bogdan

Advances in Science and Technology. Research Journal

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2023

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Vol. 17, no 6

108--115

EN

The work presents an innovative design of a vibrating machine for cleaning pollution with a pulsating immersed jet with solid particles and analytically obtained the dependence of the mass productivity of the machine on the design parameters of the machine and the modes of operation of the vibration drive. The research results show that the optimal oscillation frequency of the machine drive lies in the range from 13 to 14 Hz with an amplitude of oscillations of 2 mm and a ratio of the diameter of the nozzle to the diameter of the pulsation chamber of 1:10. The conducted studies of the effectiveness of cleaning showed that mass wear of metal balls and changes in the roughness of the base of the sample are practically not observed due to the occurrence of minor stresses on the surface of the sample elastic character. As a result of the study of the efficiency of cleaning model pollution, it was found that increasing the angle of attack of a pulsating immersed jet with metal balls from 900 to 1250 leads to an increase in the efficiency of cleaning. The analysis of the appearance of the surface of model pollutants confirmed the main theoretical assumptions about the mechanical nature of the interaction of a submerged pulsating jet of liquid with solid particles with pollution and showed the effectiveness of the method of cleaning pollution with a pulsating submerged jet of liquid with solid particles.

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Development of energy-efficient vibration machines for the buiding-and-contruction industry

Nazarenko Ivan I., Ruchynskyi Mykola M., Sviderskyi Anatoliy T., Kobylyanska Iryna M., Harasim Damian, Kalizhanova Aliya, Kozbankova Ainur

Przegląd Elektrotechniczny

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2019

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R. 95, nr 4

53--59

EN

This paper contains the results of the analysis of motions of a vibration machine actuator and the response of medium with material being processed to the actuator motions. The actuator and the medium in combination are simulated as a discrete-continuous system. Discussed in this paper are the basic parameters of such a system, as well as the modes of resonance, under-resonance, and over-resonance vibrations of the vibration machine actuator. In the paper, some variants of the vibration machine design, which are characterized by enhanced energy efficiency in generating vibrations, are proposed.

PL

Artykuł zawiera wyniki analizy ruchów siłownika maszyny wibracyjnej i reakcji ośrodka z materiałem przetwarzającym ruchy elementu. Połączenie siłownika oraz medium symulowane jest jako dyskretny system ciągły. W artykule omówiono podstawowe parametry układu a także stany rezonansowe, pod-rezonansowe oraz nad-rezonansowe drgań siłownika maszyny. Zaproponowano także szczególne warianty konstrukcji maszyny, które charakteryzują się zwiększoną efektywnością energetyczną w generowaniu drgań.

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Intensification of processes of strengthening machine parts by volumetric vibration treatment

Stotsko Z., Sokil B., Topilnytskiy V.

Zeszyty Naukowe. Transport / Politechnika Śląska

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2003

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z. 51

493-504

EN

In order to calculate designed parameters for vibration machine of volumetric vibration treatment with the purpose to increase its productivity, the technique for investigating its dynamics based on nonlinear complex mathematical model of the "Vibromachine - treating medium" - system is suggested in this paper. As an example models of the machine with two independently driven vibrational exciters and the treating medium of its container are described. The calculation of optimal parameters is also suggested.

PL

W artykule prezentowana jest technika badania dynamiki maszyny wibracyjnej, w oparciu o nieliniowy złożony model matematyczny systemu "wibromaszyna- medium robocze". Celem badania jest obliczenie parametrów projektowych maszyny o podwyższonej wydajności. Jako przykładowe modele opisane są maszyny z dwoma niezależnie napędzanymi generatorami wibracji oraz medium roboczym jego zasobnika. Sugerowane są również obliczenia optymalnych parametrów.