ELECTRICAL CHARACTERISTICS SIMULATION OF HOMOGENEOUS DBD AT ATMOSPHERIC PRESSURE. APPLICATION TO HELIUM AND ARGON PLASMAS.

المؤلفون

  • Roukia ABIDAT Université fréres Mentouri Constantine
  • Saïda REBIAI Université fréres Mentouri Constantine

الكلمات المفتاحية:

Atmospheric pressure، plasma DBD، Fluid model، Electrical characteristics، ، Homogeneous mode، glow mode، pseudo glow، Lissajous

الملخص

Homogeneous discharges are easily obtained at atmospheric pressure in dielectric barrier discharges (DBD) for some noble gases. To predict the discharge electrical comportment, one-dimensional fluid model of typical DBD is presented and applied to Helium and Argon discharges. The first two moments of Boltzmann equation (continuity and momentum (drift-diffusion approximation)) are coupled with Poisson’s equation by the finite element method (FEM) using COMSOL Multiphysics software. In this work, the simulation is carried out using the same operating conditions for helium and argon gases.   The electrical characteristics of the DBD, simulated by the proposed model, allow, by simple calculations, the access and the analysis of other discharge parameters such as Lissajous figures, consumed power and charge density. The obtained characteristics are assigned to the largely explained homogeneous discharges and are consistent with the experimental ones reported in the literature for both gazes. The effect of gas spacing and applied frequency on the electric characteristics has been also investigated. It has been found that for the considered range of frequency (25-200 KHz) and gap distance (2-5 mm); only one current peak is observed.  The results indicate that increasing gas space or decreasing applied frequency lead to a diminishing in pulse intensity and a rise breakdown voltage.

السير الشخصية للمؤلفين

Roukia ABIDAT، Université fréres Mentouri Constantine

Microsystems and Instrumentation Laboratory (LMI), Electronic Departement, Engineering Faculty

Saïda REBIAI، Université fréres Mentouri Constantine

Microsystems and Instrumentation Laboratory (LMI), Electronic Departement, Engineering Faculty

المراجع

U. Kogelschatz, “Dielectric-barrier discharges: Their history, discharge physics and industrial applications,” Plasma Chem. Plasma Process. vol. 23, no. 1, pp. 1–46, Mar. 2003.

U. Kogelschatz, “From ozone generators to flat television screens: history and future potential of dielectric-barrier discharges“, Pure Appl. Chem. 7 (1999).

Cheng Zhang, Tao Shao, Member, IEEE, Kaihua Long, Yang Yu, Jue Wang, Dongdong Zhang, Ping Yan, Member, IEEE, and Yuanxiang Zhou, Member, IEEE “Surface Treatment of Polyethylene Terephthalate Films Using DBD Excited by Repetitive Unipolar Nanosecond Pulses in Air at Atmospheric Pressure “IEEE Transactions On Plasma Science, Vol. 38, No. 6, June 2010.

Yunfei Liu, Chunqiang Su, Xiang Ren, Chuan Fan, Wenwu Zhou,Feng Wang, Weidong Ding," Experimental study on surface modification of PET films under bipolar nano second-pulse dielectric barrier discharge in atmospheric air", Applied Surface Science, Vol. 313, pp. 53–59, 2014.

Halima Loukil, Ahmed Belasri, Khadija Khodja, and Zahir Harrache, "Theoretical Kinetics Investigation of Xenon Dielectric Barrier Discharge for Excimer Lamp",IEEE Transactions On Plasma Science, Vol. 42, No. 3 March 2014.

Julien Vallade, Remy Bazinette, Laura Gaudy and Francoise Massines," Effect of glow DBD modulation on gas and thin film chemical composition case of ArSiH4NH3 mixture", J. Phys. D: Appl. Phys. 47 (2014) 224006.

H. Than Quoc An, T. Pham Huu, T. Le Van, J.M. Cormier, A. Khacef," Application of atmospheric non thermal plasma-catalysis hybrid system for air pollution control: Toluene removal" Catalysis Today 176 (2011) 474– 477.

P P Zhang, Y Tu and L L Yang, "The relationship between the distribution of anode striations and negative and positive charge accumulation in a plasma display panel", Plasma Sources Sci. Technol. 20 (2011) 065004.

Gabriele Neretti, Andrea Cristofolini, and Carlo A. Borghi , "Experimental investigation on a vectorized aerodynamic dielectric barrier discharge plasma actuator array", Journal Of Applied Physics 115, 163304 (2014).

M. Abdollahzadeh a,b, J. C. Páscoa a, P.J. Oliveira b, "Two -dimensional numerical modeling of interaction of micro-shock wave generated by nanosecond plasma actuators and transonic flow ",Journal of Computational and Applied Mathematics 270 (2014) 401–416.

Halim Ayan, Gregory Fridman, David Staack, Alexander F. Gutsol, Victor N. Vasilets, Alexander A. Fridman, and Gary Friedman," Heating Effect of Dielectric Barrier Discharges for Direct Medical Treatment ", IEEE Transactions On Plasma Science, Vol. 37, No. 1, January 2009.

Th. von Woedtke, S. Reuter , K. Masur, K.-D. Weltmann," Plasmas for medicine ", Physics Reports 530 (2013) 291–320.

Kiara Heuer , Martin A. Hoffmanns , Erhan Demir , Sabrina Baldus , Christine M. Volkmar , Mirco Rohle , Paul C. Fuchs , Peter Awakowicz , Christoph V. Suschek , Christian Oplander," The topical use of non-thermal dielectric barrier discharge (DBD) Nitric oxide related effects on human skin 2015 ", Nitric Oxide 44 (2015) 52–60.

A.Chirocov, A. Gutsol, and A. Fridman, "Atmospheric pressure plasma of dielectric barrier discharge." pure, Appl. Chem., vol. 77, no.2, pp. 487-495, 2005.

Zhi Fang, Shengchang Ji, Jun Pan, Tao Shao, and Cheng Zhang, “Electrical Model and Experimental Analysis of the Atmospheric-Pressure Homogeneous Dielectric Barrier Discharge in He” IEEE Transactions On Plasma Science, Vol. 40, No. 3, March 2012.

Xiaolong Wang, Zhenyu Tan, Lanlan Nie, and Jie Pan, "Study on Modes of the Pulsed Dielectric Barrier Discharges at Atmospheric Pressure in Helium", IEEE Transactions On Plasma Science, Vol. 42, No. 9, September 2014.

Zhiyuan Hao, Shengchang Ji, Member, IEEE, and Aici Qiu, "Study on the Influence of Dielectric Barrier Materials on the Characteristics of Atmospheric Plasma Jet in Ar", IEEE Transactions On Plasma Science, Vol. 40, No. 11, November 2012.

Dongsoo Lee, Jin Myung Park, Sang Hee Hong, Member, IEEE, and Yongho Kim, Member, IEEE, "Numerical Simulation on Mode Transition of Atmospheric Dielectric Barrier Discharge in Helium–Oxygen Mixture", IEEE TRANSACTIONS ON PLASMA SCIENCE, VOL. 33, NO. 2, APRIL 2005.

Xinxin Song, Zhenyu Tan, and Bo Chen, «Study on the Characteristics of Atmospheric Dielectric Barrier Discharges in He−N2 Admixture", IEEE Transactions On Plasma Science, Vol. 40, No. 12, December 2012.

LIU Zhongwei, YANG Lizhen, WANG Zhengduo,SANG Lijun, ZHU Qiang , LI Sen, "Atmospheric Pressure Radio Frequency Dielectric Barrier Discharges in Nitrogen/Argon", Plasma Science and Technology, Vol.15, No.9, Sep. 2013.

A.S. Chiper, G.B. Rusu, C. Vitelaru, I. Mihaila and G. Popa, "Comparative Study Of Helium And Argon DBD Plasmas Suitable For Thermosensitive Materials Processing", Rom. Journ. Phys., Vol. 56, Supplement, P. 126–131, Bucharest, 2011.

Abasalt Hosseinzadeh Colagara,b,*, Farshad Sohbatzadehb,c,Saeed Mirzanejhadb,c, Azadeh Valinataj Omrana,c, "Sterilization of Streptococcus pyogenes by afterglow dielectric barrier discharge using O2 and CO2 working gases", Biochemical Engineering Journal 51 (2010) 189–193.

Xiao Lei and Zhi Fang, “DBD Plasma Jet in Atmospheric Pressure Neon“, IEEE Transactions On Plasma Science, Vol. 39, No. 11, November 2011.

Antonis P. Papadakis, “Numerical Analysis of the Heating Effects of an Atmospheric Air-Dielectric Barrier Discharge “,IEEE Transactions On Plasma Science, Vol. 40, No. 3, March 2012.

Svetlana V. Avtaeva, "About Formation of Secondary Current Pulses in Dielectric Barrier Discharges in Xe-Cl2 Mixtures", IEEE Transactions On Plasma Science, Vol. 42, No. 1, January 2014.

Martens, W J M Brok, J van Dijk and A Bogaerts, "On the regime transitions during the formation of an atmospheric pressure dielectric barrier glow discharge ",J. Phys. D: Appl. Phys. 42 (2009) 122002 (5pp).

F Massines, N Gherardi, N Naudé and P S´egur, "Glow and Townsend dielectric barrier discharge in various atmosphere", Plasma Phys. Control. Fusion 47 (2005) B577–B588.

www.comsol.com.

Lyes Benterrouche, Salah Sahli, Saida Rebiai and Abdellah Benhamouda “Inactivation of E–coli bacteria by atmospheric dielectric barrier discharge”, Int. J. Nanotechnology, Vol. 10, Nos. 5/6/7, 2013.

Roukia ABIDAT, Saïda REBIAI, Lyes BENTERROUCHE," Numerical Simulation of Atmospheric Dielectric Barrier Discharge in Helium gas using COMSOL Multiphysics", Proceedings of the 3rd International Conference on Systems and Control, Algiers, Algeria, October 29-31, © 2013 IEEE.

Roukia ABIDAT, Saïda REBIAI, «A modeling of atmospheric DBD parameters effect on plasma electrical characteristics ",Proceedings of The first International Conference on Nanoelectronics, Communications and Renewable Energy 2013

BOLSIGS, Boltzmann Solver for the SIGLO series 1.0 CPA Toulous Kinema Software,1996.

Yu B Golubovskii1, V A Maiorov, J Behnke and J F Behnke “Modelling of the homogeneous barrier discharge in helium at atmospheric pressure” J. Phys. D: Appl. Phys. 36 (2003) 39–49.

F. Massines, A. Rabehi, P. Decomps, R. Gadri, P. Segur, and C. Mayoux, “Experimental and theoretical study of a glow discharge at atmospheric pressure controlled by dielectric barrier,” J. Appl. Phys., vol. 83, pp. 2950–2957, Mar. 1998.

Satiko Okazakit, Masuhiro Kogoma, Makoto Uehara and Yoshihisa Kimura, “Appearance of stable glow discharge in air, argon, oxygen and nitrogen at atmospheric pressure using a 50 Hz source“, J. Phys. D Appl. Phys. 26 (1993) 889-892. Printed in the UK.

F. Massines, N. Gherardi, N. Naudé, and P. S´egur, “Recent advances in the understanding of homogeneous dielectric barrier discharges”, Eur. Phys. J. Appl. Phys. 47, 22805 (2009).

Hui Jiang, Tao Shao, Cheng Zhang, Wenfeng Li, Ping Yan,” Experimental Study of Q-V Lissajous Figures in Nanosecond-Pulse Surface Discharges ”, IEEE Transactions on Dielectrics and Electrical Insulation Vol. 20, No. 4; August 2013.

التنزيلات

منشور

2017-12-01

كيفية الاقتباس

ABIDAT, R., & REBIAI, S. (2017). ELECTRICAL CHARACTERISTICS SIMULATION OF HOMOGENEOUS DBD AT ATMOSPHERIC PRESSURE. APPLICATION TO HELIUM AND ARGON PLASMAS. مجلة علوم و تكنولوجيا ب، علوم الهندسة, (46), 45–53. استرجع في من https://revue.umc.edu.dz/b/article/view/2790

إصدار

القسم

Articles