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Investigation of the Non-Thermal Plasma-Based Advanced Oxidation Process for Removal of Organic Contaminants In Azo Dyes Solution

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Języki publikacji
EN
Abstrakty
EN
The present study deals with the development of non-thermal plasma-based AOPs for removal of organic contaminants in wastewater treatment. The plasma itself is generated based on point-to-point geometry under organic solution and can generate hydroxyl radicals, ozone, peroxide and other radicals as the basic species to destruct organic contaminants. Electrical diagnostic in a form of voltage and current waveform was investigated through the variation of time during the formation of plasma channeling. The evolutions of plasma channeling with its physical phenomena were also discussed. The relationship between the electrodes distance towards applied voltage to sustain the plasma were also studied. It was found that the mineralization occurred during plasma treatment to transform the harmful functional group in organic dye solution into harmless species. Simultaneously, the decoloration process by using this submerged plasma treatment system is able to change the orange color of methyl orange solution into clearly transparent water in 30 minutes. The present findings may provide the plasma-based advanced oxidation process as a promising chemical-free and cost competitive AOP process application on specially the waste water treatment in textile industry.
Rocznik
Strony
1--6
Opis fizyczny
Bibliogr. 12 poz., rys.
Twórcy
autor
  • Department of Industrial Engineering, Bina Nusantara University, Jl. KH. Syahdan, No. 9, Palmerah, 11480 Jakarta, Indonesia
Bibliografia
  • 1. Al-Kdasi A., Idris A., Saed K. and Guan C-T. 2004. Treatment of textile wastewater by advance oxidation processes. Global NEST Journal, 6(3), 222–230.
  • 2. Dojčinović B.P., Roglić G.M., Obradović B.M., Kuraica M.M., Tosti T.B., Marković M.D. and Manojlović DD. 2012. Decolorization of Reactive Black 5 using a dielectric barrier discharge in the presence of inorganic salts. Journal of the Serbian Chemical Society, 77(4), 535–548.
  • 3. Gerrity D., Stanford B.D., Trenholm R.A. and Snyder S.A. 2010. An evaluation of a pilot-scale nonthermal plasma advanced oxidation process for trace organic compund degradation. Water Research, 44 (2), 1597–1610.
  • 4. Gunnar R.S, Christopher L.B., Fei Dai, Thomas M.H. and Selma M.T. 2015. Plasma-based water treatment: Conception and application of a new general principle for reactor design. Chemical Engineering Journal, 273, 543–550.
  • 5. Jiang B., Zheng J., Liu Q. and Wu M. 2012. Degradation of azo dye using non-thermal plasma advanced oxidation process in a circulatory airtight reactor system. Chemical Engineering Journal, 204–206, 32–39.
  • 6. Kartohardjono S., Handayani P.L., Deflin S., Nuraeni Y. and Bismo S. 2012. Ammonia removal from wastewater through combination of absorption process in the membrane contactor and advance oxydation process in hybride plasma-ozone reactor. Journal of Environmental Science and Engineering A1, 1101–1107.
  • 7. Nandini R. and Vishalakshi B. 2012. A study of interaction of methyl orange with some polycations. E-Journal of Chemistry, 9 (1), 1–14.
  • 8. Pekárek S. 2003. Non-thermal plasma ozone generation. Acta Polytechnica, 43 (6), 47–51.
  • 9. Ruma, Habib M.A., Hosseini S.H.R., Sakugawa T. and Akiyama H. 2015. Treatment of wastewater by underwater discharge in gas bubbling water. International Journal of Renewable Energy and Environmental Engineering, 3(3), 189–194.
  • 10. Shimizu K., Masamura N. and Blajan M. 2013. Water purification by using microplasma treatment. Journal of Physics: Conference Series 441, 1–7.
  • 11. Tingting S., Chengcheng J., Chen W., Jing S., Xikui W. and Xiaoming L. 2015. A TiO2 modified abiotic–biotic process for the degradation of the azo dye methyl orange. RSC Advances, 5, 58704–58712.
  • 12. Xin L., Huimin Z, Dandan Q., Yang Y., Ying K., Fang Z. and Zucheng W. 2015. Radical-initiated decoloration of methylene blue in a gas-liquid multiphase system via DC corona plasma. Plasma Chemistry and Plasma Processing, 35, 321–327.
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-78ce7a3e-2749-4bd6-91d7-13d6f06346a3
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