THE THEORETICAL ANALYSIS OF LOW ENERGY AND ELECTROMAGNETIC ULTRA-HIGH RANGE FIELDS’ IMPACT ON INFECTIOUS MICROORGANISMS IN WOUNDS OF ANIMAL SKIN

Authors

  • О. В. Калініченко State Agrarian and Engineering University in Podilya,
  • П. В. Потапський State Agrarian and Engineering University in Podilya,
  • І. Д. Гарасимчук State Agrarian and Engineering University in Podilya,
  • Ю. І. Панцир State Agrarian and Engineering University in Podilya,

Keywords:

low-energy electromagnetic field, microwave radiation, the skin of animals, infectious microorganisms

Abstract

Justification of resource-saving electrotechnology with the optimal settings of habitats electromagnetic field and means of radiation of electromagnetic energy to restore the injured skin of farm animals. The article explored the interaction between the electromagnetic fields of ultra-high band of tissue healing and skin of animals by biotropni parameters for EMF suppression of infectious microorganisms in wounds of the skin of its effective recovery. It was proved that biotropnymy parameters for electromagnetic fields suppression of infectious microorganisms and efficient recovery of injured skin animals are: frequency range 35 ... 37 GHz, the power flux density 3 ... 5 mW / cm 2, Exposition 3 ... 5 min. The proposed study on the creation of sources of ultra-high band, which should consist of a transistor (10 GHz) and the diode (over 10 GHz) parts using the method of adding capacity for power within the 2,000-2,500 mWt may be applicable to a broad class of sources high output power. For better recovery of injured skin of animals low-energy electromagnetic fields of millimeter wavelength range, which will create an efficient, energy-saving and environmentally friendly technologies should be used

Author Biographies

О. В. Калініченко, State Agrarian and Engineering University in Podilya

PhD (Techn.) Associate Professor Department of Energy and electrical systems in agriculture Engineering Faculty

П. В. Потапський, State Agrarian and Engineering University in Podilya

PhD (Techn.) Associate Professor Department of Energy and electrical systems in agriculture Engineering Faculty

І. Д. Гарасимчук, State Agrarian and Engineering University in Podilya

PhD (Techn.) Associate Professor Department of Energy and electrical systems in agriculture Engineering Faculty

Ю. І. Панцир, State Agrarian and Engineering University in Podilya

PhD (Techn.) Associate Professor Department of Energy and electrical systems in agriculture Engineering Faculty

References

Potapskyj, P.V. (2009). Analyz vzaymodejstvyja elektromagnytnih polej s patogennimy mykroorganyzmamy v shersty [Analysis of the interaction of electromagnetic fields with pathogens in wool]. Visnyk Harkivs'kogo Nacional'nogo tehnichnogo universytetu sil's'kogo gospodarstva imeni Petra Vasylenka [Journal of Kharkov National Technical University of Agriculture Petro Vasilenko], Vyp. 86, 115 – 119 [in Ukrainian].

Dumanskyj, A.V. (2014). Proyzvodstvennie rezul'tati vnutryutrobnogo lechenyja endometryta zhyvotnih KRS elektromagnytnim yzluchenyem [Production of intrauterine treatment of endometritis animals cattle electromagnetic radiation]. Visnyk Harkivs'kogo nacional'nogo tehnichnogo universytetu sil's'kogo gospodarstva imeni Petra Vasylenka. Problemy energozabezpechennja ta energozberezhennja v APK Ukrai'ny [Journal of Kharkov National Technical University of Agriculture Petro Vasilenko problems of energy supply and energy efficiency in agriculture Ukraine], 153, 80–90. [in Ukrainian].

Cherenkov, A.D. (2001). Vlyjanye nyzkoenergetycheskyh EMP na kletky tkanej vimeny korov bol'nih mastytom [The impact of high-energy EMF on the udder tissue cells of cows sick of a mastitis]. Vestnyk HGTUSH [Bulletin HNTUSKH]. – Har'kov: HGTUSH, 6, 32–33. [in Ukrainian].

Myhajlova, L.N. (2012). Prymenenye elektromagnytnogo polja krajnevisokoj chastoti dlja lechenyja zhyvotnih [Application of the electromagnetic field of extremely high frequency to the treatment of animals]. Vostochno-Evropejskyj zhurnal peredovih tehnologyj [Eastern European advanced technology jornal], 1, 13–16 [in Ukrainian].

Garasymchuk, Igor, Potapskyj, Pavel, Pancyr, Juryj, & Gordyjchuk, Yvan (2015). Metodi y vozmozhnosty prymenenyja elektronnih system dlja povishenyja ymmunytetu novorozhdennih zhyvotnih [Methods and abylities of usage electrical systems in increasing process of newborn animals immunity]. MOTROL. Commission of Motorization and energetics in agriculture-2015, Vol.17 (5), 35–38 [in Poland].

Mazur, V.A. (2015). Teoretycheskyj analyz processa vzaymodejstvyja radyoympul'snogo yzluchenyja s zhyvotnimy, bol'nimy mastytom [The theoretical analysis of the interaction of radiation with radio pulse animals with mastitis]. Tehnologycheskyj audyt y rezervi proyzvodstva [Technological audit and production of reserves], 4 /2(17), 59-63. [in Ukrainian].

Cherenkov, A.D. (2000). Vozdejstvye nyzkoenergetycheskyh elektromagnytnih yzmerenyj na membrannij potencyal y ob'em kletok byologycheskyh ob'ektov [The impact of high-energy electromagnetic measurements on the membrane potential and the amount of biological cells]. Mykrovolnovie tehnologyy v narodnom hozjajstve. Vnedrenye. Problemi. Perspektyvi [Microwave technology in the national economy. Introduction. Problems. Prospects]. Kiev : TES [in Ukrainian].

Potapskyj, Pavel, Garasymchuk, Igor, & Pancyr, Juryj (2015). Vozbuzhdenie kolebanij v prizmaticheskom rezonatore s pomoshh'ju prjamougol'nogo volnovoda. MOTROL. Commission of Motorization and energetics in agriculture-2015, Vol. 17 (5), 66–72. [in Poland].

Published

2016-01-01

How to Cite

Калініченко, О. В., Потапський, П. В., Гарасимчук, І. Д., & Панцир, Ю. І. (2016). THE THEORETICAL ANALYSIS OF LOW ENERGY AND ELECTROMAGNETIC ULTRA-HIGH RANGE FIELDS’ IMPACT ON INFECTIOUS MICROORGANISMS IN WOUNDS OF ANIMAL SKIN. Podilian Bulletin: Agriculture, Engineering, Economics, 2(24), 141–149. Retrieved from http://pb.pdatu.edu.ua/article/view/137507