Oluklu Mukavva Kutu Üretimi Atıksuyunun Elektrokoagülasyon Yöntemi ile Arıtımı

Bu çalışmada, oluklu mukavva kutu üretim tesisi atık suyunun elektrokoagülasyon yöntemi ile arıtılabilirliği incelenmiştir. Ayrıca elektrot türü, uygulanan gerilim, işlem zamanı ve destek elektrolit(NaCl) ilavesinin KOİ giderim yüzdesi ve enerji tüketimine olan etkileri araştırılmıştır. Sonuç olarak; oluklu mukavva kutu üretimi atıksularının elektrokoagülasyon yöntemi ile yaklaşık %90’a kadar arıtımının yapılabileceği ve özellikle enerji tüketimi bakımından paslanmaz çelik elektrotların kullanımının daha uygun olduğu görülmüştür.

Treatment of Corrugated Cardboard Box Manufacturing Plant Wastewater by Using Electrocoagulation Method

In this study, treatment of a corrugated cardboard box manufacturing plant wastewater with electrocoagulation method was investigated. Also, the effects of anode type, applied voltage, treatment time and support electrolyte (NaCl) on energy consumption and COD removal rate was studied. As a result; the treatment of corrugated box production wastewater with electrocoagulation method can be made with up to 90%, and especially in terms of energy consumption the use of stainless steel electrodes is more available.

Keywords:

Electrocoagulation COD removal, corrugated cardboard box manufacturing plant wastewater,

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[1] Phalakornkule, C., Polgumhang, S., Tongdaung, W., Karakat, B., ve Nuyutt, T., Electrocoagulation of blue reactive, red disperse and mixed dyes, and application in treating textile effluent, Journal of Environmental Management, 91, 918- 926, (2010).
[2] Moises, T.P., Patricia, B.H., Barrera-Diaz, C.E., ve Gabriela, R.M., Treatment of industrial effluents by a continuous system: electrocoagulation–activated sludge, Bioresource Technology, 101, 7761-7766, (2010).
[3] Mollah, M.Y.A., Schennach, R., Parga, J.R., ve Cocke, D.L., Electrocoagulation (ec)- science and applications, Journal of Hazardous Materials, B84, 29-41, (2001).
[4] Zodi, S., Potier, O., Lapicque, F. And Leclerc, J-P., Treatment of the Industrial wastewaters by electrocoagulation: Oprimization of coupled electrochemcal and sedimentation processes, Desalination, 261, 186-190, (2010).
[5] Daneshvar, N., Oladegaragoze, A., ve Djafarzadeh, N., Decolarization of basic dye solutions by electrocoagulation: an investigation of the effect of operational parameters, Journal of Hazardous Materials, B129, 116-122, (2006).
[6] Moussavi, C., Khosravi, R., Farzadkia, M., Removal of petroleum hydrocarbons from contaminated ground water using an electrocoagulatin process: Batch and continuous experiments, Desalination, 278, 288-294, (2010).
[7] Zhao, X,, Zhang, B., Liu, H., Chen, F. , Li, A., Qu, J., Transformation characteristics of refractory pollutants in plugboard wastewater by an optimal electrocoagulation and electro-Fenton process, Chemosphere, 87 631–636, (2012).
[8] Daneshvar, N., Ashassi Sorkhabi, H., ve Kasiri, M.B., Decolarization of Dye Solution Containing Acid Red 14 By Electrocoagulation With A Comparative Ġnvestigation of Different Electrode Connections, Journal of Hazardous Materials, B112, 55-62, (2004).
[9] Ren, M., Song, Y., Xiao, S., Zeng, P., Peng, J., Treatment of berberine hydrochloride wastewater by using pulse electrocoagulation process with Fe electrode, Chemical Engineering Journal, 169, 84-90, (2011).
[10] Mollah, M.Y.A., Pathak, S.R., Patil, P.K., Vayuvegula, M., Agrawal, T.S., Gomes, J.A.G., Kesmez, M., ve Cocke, D.L., Treatment of orange II azo-dye by electrocoagulation (EC) technique in a continuous flow cell using sacrifical iron electrodes, Journal of Hazardous Materials, B109 , 165-171, (2004).
[11] Aoudj, S., Khelifa, A., Drouiche, N., Hecini, M., ve Hamitouche, H., Electrocoagulation process applied to wastewater containing dyes from textile industry, Chemical Engineering and Processing, 491, 176-118, (2010).
[12] Chen, G., Electrochemical technologies in wastewater treatment, Separation and Purification Technology, 38, 11–41, (2004).
[13] Akyol, A., Treatment of paint manufacturing wastewater by electrocogulation, Desalination, 285, 91-99, (2012).