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Badania anteny szerokopasmowego piramidalnego turbowego promiennika do niszczenia szkodników w glebach
Języki publikacji
Abstrakty
Electromagnetic energy can alter metabolic and biosynthetic processes and under certain parameters of pulsed EMF it can change pulse repetition frequency, operation cycle, power, exposure, as well as it can slow down and inhibit cell growth. MW irradiation range of RNA and DNA - containing virus reduces their infectivity. Inhibition of bacterial cultures growth, changes in phagocytic activity of protein biosynthesis, ultrastructural changes in the cells when exposed to EMF EHF. It was found in experiments with micro-organisms that biological effects of EMF on microorganisms wore a resonant character. One of the basic mechanisms of inhibitory action of EHF radiation on harmful microorganisms is the role of membranes in biological reactions of microorganisms on the EMR.
Energia elektromagnetyczna może zmieniać procesy metaboliczne i biosyntezy oraz w pewnych parametrach pulsacyjnego pola elektromagnetycznego - częstość powtórzeń impulsu, cykl pracy, moc, ekspozycję, spowolnić i hamować wzrost komórkowy. Napromieniowanie w zakresie milimetrów RNA i DNA zawierających wirus prowadzi do zmniejszenia ich zakaźności. Hamowanie wzrostu bakteryjnych kultur, zmian aktywności fagocytowej, biosyntez białka, ultrastrukturalnych zmian w komórkach pod wpływem EMF w zakresie ultra-wysokiej częstotliwości. W eksperymentach z mikroorganizmami ustalono, że biologiczny wpływ działania pól elektromagnetycznych na mikroorganizmy był rezonansowy. Jednym z głównych mechanizmów hamowania promieniowania ultra-wysokiej częstotliwości na szkodliwe mikroorganizmy jest rola błon biologicznych w reakcjach mikroorganizmów na EMF. Istotne znaczenie mają zjawiska elektryczne występujące w biomembranach.
Czasopismo
Rocznik
Tom
Strony
15--28
Opis fizyczny
Bibliogr. 15 poz., rys.
Twórcy
autor
- Educational and Scientific Institute of Power Energy and Computer Technologies, State Technical University in Charków
autor
- Faculty of Engineering and Technology, State Agrarian and Engineering University in Podiliab Department of Environmental Protection, Warsaw University of Life Sciences
autor
- Faculty of Engineering and Technology, State Agrarian and Engineering University in Podiliab Department of Environmental Protection, Warsaw University of Life Sciences
autor
- Faculty of Engineering and Technology, State Agrarian and Engineering University in Podiliab Department of Environmental Protection, Warsaw University of Life Sciences
autor
- Faculty of Engineering and Technology, State Agrarian and Engineering University in Podiliab Department of Environmental Protection, Warsaw University of Life Sciences
autor
- Faculty of Engineering and Technology, State Agrarian and Engineering University in Podiliab Department of Environmental Protection, Warsaw University of Life Sciences
Bibliografia
- Gubanov, V. P. (1994). Generation of powerful nanosecond pulses of electromagnetic radiation / Gubanov V. P. [and etc.]. Letters to the Journal of Technical Physics, Т. 20, № 14. p. 89-93.
- Baum, C. E. (1993). Impulse radiating antennas. Baum C. E., Farr E. G. Ultra-Wideband, Short-Pulse Electromagnetics. New York, Plenum Press, p. 139-147.
- Nowak, J., Gucol, T., Bendera, I. (2006). Mechaniczne niszczenie stonki ziemniaczanej, Ziemniak Polski, 4, 30-33.
- Giri, D.V. (1997). Desigh, Fabrication, and Testing of a Paraboloidal Reflector Antenna and Pulser System for Impulse-Like Waveforms. Giri D. V., Lackner H., Smith I. D., Morton D. W., Baum C. E., Marek J. R., Prather W. D., and Scholfield D. W. IEEE Trans. Plasma Sci. Vol. 25, p. 318-326.
- Hala, A.V. (2010). The algorithm for calculating the ultrawideband antenna / Hala A. V., Korolkov A. V. Mathematical morphology. Electron. Matemathematical and Medico-biological Journal. - Т. 9, Issue. 1. URL: http://www.smolensk.ru.
- Kozak, A., Gordyjchuk, Y., Semenyshyna, Y., Vylchynskaya, D. (2015). Analysis of the process of the action of electromagnetic impulse signals on biological pests in the soil. MOTROL. Commission of motorization and energetics in agriculture: Polish Academy of sciences. Vol. 17, №1. 45-50.
- Chernyshev, S.L. (2001). Spatio-temporal analysis of the characteristics of the ultrawideband antenna. Chernyshev S. L., Vylenskyy A. R. Problems of diffraction and propagation of electromagnetic waves: interdepartmental collection of scientific papers. MIPT. p. 113-120.
- Ymmoreev, I.Y. (2001). Radiation of ultrawideband signals. Ymmoreev Y. Y., Synyavyn A. N. Antennas. Issue. 1, p. 8-16.
- Terenov, D.B., Gutsol, T.D. (2015). Analysis of content management methods in projects. National production and economy in the conditions of reform: the state and prospects of innovation development and interregional integration, pp. 23-25.
- Ymmoreev, I.Y. (2010). Spatio-temporal changes UWB signals during the emission and reception of large antennas. Ymmoreev I. Y. IV All-Russian Conference “Radiolocation and Radio Communication" Institute of Radio Engineering and Electronics, Russian Academy of Sciences, 29 November - 3 December. p. 615-620.
- Antennas and microwave devices. (1972). Calculation and design of antenna arrays and their radiating elements. D.I. Voskresensky. Moscow: Sov. radio, 318 p.
- Kalinichev, V.I. (2009). Ultra-wideband mirror antenna with horn irradiator H-shaped cross section. Kalinichev V.I., Kaloshin V.A., Pangonis L.I. III All-Russian Conference "Radiolocation and radio communication", IREE RAS. p. 68-71.
- Kun Z. (1967). Microwave Antennas. Z. Kyun; translation from German under the editorship of M.P. Dolukhanov. L., Shipbuilding, 518 p.
- Potapsky, P., Garasimchuk, I., Kozak, A., Mikhailova, M. (2015). Theoretical justification for creating an impulse generator for increasing the immunity of animals. MOTROL Commission of motorization and energetics in agriculture: Polish Academy of sciences. Vol. 17, №.5, p. 62-65.
- Potapskyy, P., Harasymchuk, I., Pantsyr, Yu. (2015). Excitation of oscillations in a prismatic cavity by means of a rectangular waveguide. MOTROL Commission of motorization and energetics in agriculture: Polish Academy of sciences. Vol. 17, №.5. p. 66-72.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-7740be92-4749-439d-bbe2-b17380a28776