Superhigh-frequency device for liquid environment disinfection

Authors

  • Yu. K. Sydoruk National Technical University of Ukraine, Kyiv Politechnic Institute, Kiev
  • I. L. Monich National Technical University of Ukraine, Kyiv Politechnic Institute, Kiev

DOI:

https://doi.org/10.20535/RADAP.2010.42.78-86

Keywords:

superhigh-frequency electromagnetic field, square waveguide, cruciform waveguide, magnetron

Abstract

Devices, providing high concentration of superhigh-frequency electromagnetic field by means of the transition from a square form of a waveguide to cruciform one and the use of two  polarization  untied  magnetrons, are introduced. Results of testing such a device on two environments are brought: on water and milk. High efficiency of disinfecting action of superhigh-frequency electromagnetic field is proved at observance of conditions of required field concentration and time of endurance.

Author Biographies

  • Yu. K. Sydoruk, National Technical University of Ukraine, Kyiv Politechnic Institute, Kiev
    Assoc. Prof.
  • I. L. Monich, National Technical University of Ukraine, Kyiv Politechnic Institute, Kiev
    Моніч І.Л., студентка радіотехнічного факультету

References

Остапенко А.М., Абу-Тавахин. Методика расчёта режимов сверхвысокочастотной пастеризации плодово-ягодных соков и винодельческой продукции. Журнал: „Виноград и вино России.” №1 Москва, 1995 г.

Панасенок В.Н. Применение микроволнового нагрева для инактивации микроорганизмов. VI Всесоюзная научно-техническая конф. «Электрические методы обработки пищевых продуктов и сельско-хозяйственного сырья». Москва. Изд. МИПБ 1989 г.

Ю.К. Сидорук «Надвисокочастотний пристрій знезараження води, розрідженого мулу, пастеризації та стерилізації молока, напоїв та інших рідких середовищ”. Патент України №43920. Бюл. № 17, 2009.

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Issue

No. 42 (2010)

Section

Electrodynamics. Microwave devices. Antennas

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How to Cite

“Superhigh-frequency device for liquid environment disinfection” (2010) Visnyk NTUU KPI Seriia - Radiotekhnika Radioaparatobuduvannia, (42), pp. 78–86. doi:10.20535/RADAP.2010.42.78-86.