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International Journal of Chemical Engineering and Applications, Vol. 4, No. 5, October 2013 REFERENCES [1] E. C. Committee, “An Electricity Intensive Sector Exposed to Carbon Leakage,” In: CHLOR, E. (ed.), The European Chlor-Alkali industry, Brussels: Celfic, 2010. [2] T. Bommaraju, P. J. Orosz, and E. A. Sokol. (2011). Brine Electrolysis. [Online]. Available: http://electrochem.cwru.edu/encycl [3] R. Santorelli and A. Schervan, “Energy Production from Hydrogen Co-Generated in Chlor-Alkali Plants by the Means of Pem Fuel Cells Systems,” Nuvera Fuel Cells Europe, Via XXV Aprile 2, 2009. [4] H. K. Abdel-Aal, S. M. Sultan, and I. A. Hussein, “Parametric Study for Saline Water Electrolysis - part i: Hydrogen Production,” International Journal of Hydrogen Energy, vol. 18, no. 6, pp. 485-489, 1993. [5] N. Saksono, B. Ariawan, and S. Bismo, “Hydrogen Productions System Using Non-Thermal Plasma Electrolysis in Glycerol-KOH Solution,” International Journal of Technology, vol. 1, pp. 8-15, 2012. [6] T. Mizuno, T. Akimoto, K. Azumi, T. Ohmori, Y. Aoki, and A. Takahashi, “Hydrogen Evolution by Plasma Electrolysis in Aqueous Solution,” Japanese Journal of Applied Physics, vol. 44, no. 1A, pp. 396- 401, 2005. [7] J. H. Chaffin, S. M. Bobio, and H. Inyang, “Hydrogen production by Plasma Electrolysis,” Journal of Energy Engineering, ASCE, vol. 132, no. 3, pp. 104-108, 2006. [8] A. Slade, S. A. Campbell, T. R. Ralph, and F. C. Walsh, “Ionic conductivity of an extruded Nafion 1100 EW series of membranes,” Journal of the Electrochemical Society, vol. 149, no. 12, pp. A1556-A1564, 2002. [9] S. K. Sengupta, A. K. Srivastava, and R. Singh, “Contact glow discharge electrolysis: a study on its origin in the light of the theory of hydrodynamic instabilities in local solvent vaporization by Joule heating during electrolysis,” Journal of Electrochemical Chemistry, vol. 427, pp. 23-27, 1997. [10] R.C.C.Moustakas,“DemonstrationPlasmaGasification-Vitrification System for Effective Hazardous Waste Treatment,” Journal of Hazardous Materials, vol. B123, pp. 120 – 126, 2005. [11] C.B.Wei,X.B.Tian,S.Q.Yang,X.B.Wang,R.K.Y.Fu,andP.K. Chu, “Anode current in plasma electrolytic oxidation,” Surface and Coatings Technology, vol. 201, pp. 5021-5024, 2006. [12] S.K.SenguptaandO.P.Singh,“Contactglowdischargeelectrolysis:a study of its chemical yields in aqueous inert-type electrolytes,” Journal of Electroanalytical Chemistry, vol. 369, pp. 113-120, 1994. [13] X.L.Jin,X.Y.Wang,H.M.Zhang,Q.Xia,D.B.Wei,andJ.J.Yue, “Influence of Solution Conductivity on Contact Glow Discharge Electrolysis,” Plasma Chem Plasma Process, vol. 30, pp. 429-436, 2010. [14] A. Slade, S. A. Campbell, T. R. Ralph, and F. C. Walsh, “Ionic conductivity of an extruded Nafion 1100 EW series of membranes,” Journal of the Electrochemical Society, vol. 149, no. 12, pp. A1556-A1564, 2002. Nelson Saksono and his group are now doing research in application of plasma electrolysis technology for Hydrogen and chlor production, and wastewater treatment. Results of his research have been published in several international journals/seminars in the last three years. Plasmas in liquids are already being used in nanoscience for nanoparticle, film growth and surface functionalisation. The pressing issue in optimizing and extending the use of plasmas in liquids is to understand the plasma-induced physical and chemical phenomena exhibited in current, well defined applications. This understanding can then identify and inform the implementation of other potential applications. 270PDF Image | Plasma Electrolysis of Chloralkali Production
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