PROPERTIES AND APPLICATIONS OF PLASMA NOZZLE REACTORS

Michał Kwiatkowski

m.kwiatkowski@pollub.pl
Lublin University of Technology, Institute of Electrical Engineering and Electrotechnologies (Poland)

Piotr Terebun


Lublin University of Technology, Institute of Electrical Engineering and Electrotechnologies (Poland)

Piotr Krupski


Lublin University of Technology, Institute of Electrical Engineering and Electrotechnologies (Poland)

Radosław Samoń


Lublin University of Technology, Institute of Electrical Engineering and Electrotechnologies (Poland)

Jarosław Diatczyk


Lublin University of Technology, Institute of Electrical Engineering and Electrotechnologies (Poland)

Joanna Pawłat


Lublin University of Technology, Institute of Electrical Engineering and Electrotechnologies (Poland)

Henryka Danuta Stryczewska


Lublin University of Technology, Institute of Electrical Engineering and Electrotechnologies (Poland)

Abstract

Plasma nozzle for producing low-temperature plasma, has many possible applications, in biomedical engineering, which are used to sterilize wounds and surface of medical tools easily at low temperatures and in the technology of materials, to change the physico-chemical properties of surface. Their great advantage is the possibility of precise application of ionized gas.

This paper gives an overview of background science and technology of plasma jets, their possible application, and the first experimental results of mini plasma jets with dielectric barrier discharge.


Keywords:

plasma reactors plasma jet type, barrier discharge

Komarzyniec G., Stryczewska D. H.: Technologie nadprzewodnikowe i plazmowe w energetyce, Wydawnictwo Politechniki Lubelskiej, Lublin 2009.
  Google Scholar

Kryża K., Szczepanik G.: Zastosowanie techniki zimnej plazmy jako nowoczesna technologia zabezpieczania surowców żywnościowych 2010. rsi.org.pl/index.php/pl/Nowosci/8, 2010, 334.
  Google Scholar

Laroussi M., Lu X.: Room-temperature atmospheric pressure plasma plume for biomedical applications. Applied Physics Letters 87/2005, 113902.
  Google Scholar

Lu X., Laroussi M., Puech V.: On atmospheric-pressure non-equilibrium plasma jets and plasma bullets. Plasma Sources Sci. Technol. 21/2012, 034005.
  Google Scholar

Nehra V., Kumar A., Dwivedi H. K.: Atmospheric non-thermal plasma sources. International Journal of Engineering 02/2008, pp. 53-68.
  Google Scholar

Olenici-Craciunescu S. B.: Micro capillary dielectric barrier plasma jet discharge. Characterisation By Optical Spectroscopy. Technische Universität Dortmund Leibniz-Institut für Analytische Wissenschaften, 02/2011, pp. 42.
  Google Scholar

Pawłat J., Diatczyk J., Stryczewska H. D.: Low-temperature plasma for exhaust gas purification from paint shop-a case study. Przegląd Elektrotechniczny 1/2011, s.245-248.
  Google Scholar

Pawłat J., Samoń R., Stryczewska H. D., Diatczyk J., Giżewski T: RF-powered atmospheric pressure plasma jet for surface treatment. The European Physical Journal Applied Physics, 02/2013, 24322.
  Google Scholar

Pawłat J.: Atmospheric pressure plasma jet for decontamination purposes. The European Physical Journal Applied Physics 02/2013, s. 1-11.
  Google Scholar

Qing Li,a, Jiang-Tao Li, Wen-Chao Zhu, Xi-Ming Zhu, Yi-Kang Pu: Effects of gas flow rate on the length of atmospheric pressure nonequilibrium plasma jets. Applied Physics Letters 95/2009, pp. 1-2.
  Google Scholar

Sirajuddin D., Foster J. E.: Plasma sterilization. www.itcanbeshown.com/NERS590, 2007.
  Google Scholar

Stryczewska D. H.: Technologie plazmowe w energetyce i inżynierii środowiska. Wydawnictwo Politechniki Lubelskiej, Lublin 2009.
  Google Scholar

Stryczewska H. D.: Technologie zimnej plazmy. Wytwarzanie, modelowanie, zastosowania. Wydawnictwa Politechniki Lubelskiej, Lublin 2011.
  Google Scholar

Topala I., Dumitrascu N., Dimitriu D.: Experimental and theoretical investigations of dielectric-barrier plasma jet in helium. IEEE Transactions on Plasma Science 11/ 2012, pp. 2811-2816.
  Google Scholar

Xinpei Lu et al.: An RC Plasma device for sterilization of root canal of teeth. IEEE Transactions On Plasma Science 5/2009, pp. 668-669.
  Google Scholar

XinPei Lu, ZhongHe Jiang, Qing Xiong, ZhiYuan Tang, XiWei Hu, Yuan PanAn: 11 cm long atmospheric pressure cold plasma plume for applications of plasma medicine. Applied Physics Letters 92/2008, 081502.
  Google Scholar


Published
2014-09-26

Cited by

Kwiatkowski, M., Terebun, P., Krupski, P., Samoń, R., Diatczyk, J., Pawłat, J., & Stryczewska, H. D. (2014). PROPERTIES AND APPLICATIONS OF PLASMA NOZZLE REACTORS. Informatyka, Automatyka, Pomiary W Gospodarce I Ochronie Środowiska, 4(3), 31–35. https://doi.org/10.5604/20830157.1121341

Authors

Michał Kwiatkowski 
m.kwiatkowski@pollub.pl
Lublin University of Technology, Institute of Electrical Engineering and Electrotechnologies Poland

Authors

Piotr Terebun 

Lublin University of Technology, Institute of Electrical Engineering and Electrotechnologies Poland

Authors

Piotr Krupski 

Lublin University of Technology, Institute of Electrical Engineering and Electrotechnologies Poland

Authors

Radosław Samoń 

Lublin University of Technology, Institute of Electrical Engineering and Electrotechnologies Poland

Authors

Jarosław Diatczyk 

Lublin University of Technology, Institute of Electrical Engineering and Electrotechnologies Poland

Authors

Joanna Pawłat 

Lublin University of Technology, Institute of Electrical Engineering and Electrotechnologies Poland

Authors

Henryka Danuta Stryczewska 

Lublin University of Technology, Institute of Electrical Engineering and Electrotechnologies Poland

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