Centre for Plasma and Laser Engineering The Szewalski Institute of Fluid-Flow Machinery Polish Academy of Sciences Gdańsk, Poland Tomasz Izdebski Mirosaław.

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Presentation transcript:

Centre for Plasma and Laser Engineering The Szewalski Institute of Fluid-Flow Machinery Polish Academy of Sciences Gdańsk, Poland Tomasz Izdebski Mirosaław Dors Jerzy Mizeraczyk DECOLORATION OF WATER CONTAMINATED BY DYES USING NON-THERMAL PLASMA

Centre for Plasma and Laser Engineering The Szewalski Institute of Fluid-Flow Machinery Polish Academy of Sciences Gdańsk, Poland Motivation  AC discharge with phenol makes first order reaction  Methylene blue (MB) commonly used for AOTs  MB oxidation depends on the initial concentration and temperature, BUT does it depend on the reactor configuration?

Centre for Plasma and Laser Engineering The Szewalski Institute of Fluid-Flow Machinery Polish Academy of Sciences Gdańsk, Poland Experimental setup Solution parameters:  Methylene blue concentration 4 ppm  pH 7  Temp C  No flow system  Volume 20 ml Diagnostics:  Metertech UV-VIS SP-8100 spectrophotometer

Centre for Plasma and Laser Engineering The Szewalski Institute of Fluid-Flow Machinery Polish Academy of Sciences Gdańsk, Poland Experimental setup Reactor parameters:  Cylinder, PMMA (Plexiglass)  Diameter 50 mm, 45 mm high  Gap between water and high voltage electrode 10 mm  Platinum wire, φ 0,2 mm  Dielectric barrier PMMA, 1 mm, ε=3-3,7  Stainless steel plate and mesh electrode. Wire-mesh-dielectric configuration Wire-plate-dielectric configuration Air, 0.1 MPa

Centre for Plasma and Laser Engineering The Szewalski Institute of Fluid-Flow Machinery Polish Academy of Sciences Gdańsk, Poland Experimental setup Power supply:  28 kV AC  Frequency 6 kHz  Discharge power 2.2 ± 0.2 W

Centre for Plasma and Laser Engineering The Szewalski Institute of Fluid-Flow Machinery Polish Academy of Sciences Gdańsk, Poland Results Decoloration process: First order reaction in wire-dielectric-plate configuration Zero order reaction observed in wire- mesh-dielectric configuration Reactor 1 wire - mesh-dielectric configuration Reactor 2 wire -dielectric-plate configuration

Centre for Plasma and Laser Engineering The Szewalski Institute of Fluid-Flow Machinery Polish Academy of Sciences Gdańsk, Poland Results Reactor type Initial conc. (mg/l) k(min -1 ) Wire-mesh-dielectric reactor 4 k 0 =0,065 Wire-dielectric-plate reactor 4 k 1 =0,021 Point-point reactor with air bubbles [Benetoli et al. J. Braz. Chem. Soc., Vol. 22, No. 9, , 2011 ] 20 k 1 = 0,0226 Underwater 6 needle- cylinder with oxygen bubbles [Magureanu et al. Plasma Chem. Proc. 2008] k 1 = 0,109-0,096 Wire-dielectric-plate reactor [Paradisi et al. Eur. Phys. J. Appl. Phys 2011] Phenol: 9,4 – 70,5k 1 = 0,06-0,012

Centre for Plasma and Laser Engineering The Szewalski Institute of Fluid-Flow Machinery Polish Academy of Sciences Gdańsk, Poland Results By-products at 205 nm

Centre for Plasma and Laser Engineering The Szewalski Institute of Fluid-Flow Machinery Polish Academy of Sciences Gdańsk, Poland Methylene blue degradation  Colourless by-products  Intermediates with absorption at 205 nm Degradation mechanism proposed by Huang et al. Chem Eng. J., 2010

Centre for Plasma and Laser Engineering The Szewalski Institute of Fluid-Flow Machinery Polish Academy of Sciences Gdańsk, Poland Conclusions  Methylene blue (MB) decoloration/oxidation in two reactor configuration was studied  Order of MB oxidation depends strongly on the reactor configuration Zero –order – in wire-mesh-dielectric reactor there may be a free flow of oxidizing ions towards the grounded mesh of large area First –order – in wire-dielectric-plate reactor flow of ions is disturbed by the dielectric barrier and then the reaction is governed by diffusion from the gas- liquid interface

Centre for Plasma and Laser Engineering The Szewalski Institute of Fluid-Flow Machinery Polish Academy of Sciences Gdańsk, Poland THANK YOU FOR YOUR ATTENTION