Electrochemical treatment method in paper recycling industry effluent

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Research Paper 01/11/2015
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Electrochemical treatment method in paper recycling industry effluent

Somayeh Soltani Paraftabi, Mahnaz Nasrabadi, Shademan Pourmousa
J. Bio. Env. Sci.7( 5), 214-219, November 2015.
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Abstract

This industries in terms of water and, accordingly wastewater production considered as pollutant effluent due to having various kinds of organic and mineral materials. Therefore, in order to pump it to environment or reuse it, electro coagulation method was used to remove various compounds from effluent produced in paper recycling industry. The objective of this paper is to study the possibility of produced effluent treatment in paper recycling industry using electro coagulation in order to reach necessary standards and easy implementation of wastewater treatment procedures. At first, raw effluent was analyzed after a sedimentation phase in which solid suspended substances such as fibers were separated from liquid phase. Then they were transferred to electro coagulation phase and removal efficiency of measured parameters such as COD, BOD, TSS, TDS, Conductivity, Turbidity levels were studied in electric potential range of 6-12 volt during 10, 20, and 30 minutes in three different pH (pH=7, 5.5 ,8.5 ). The results showed that increased electric potential and reaction time rise electro coagulation efficiency in that the maximum The maximum contaminant removal efficiency measures of pollutant indicators happened at potential difference of 12 volt, reaction time of 30 minutes, and pH=8.5 for COD, BOD, TSS, Turbidity, TDS and Conductivity which are reported 51.04%, 51.8%, 95.6%, 83.7%, 1.34%, and 2.69%, respectively. It is inferred that electro coagulation process enjoys appropriate efficiency to remove pollutants in paper mill effluent industry.

VIEWS 10

Ali M, Sreekrishnan TR. 2001. Aquatic toxicity from pulp and paper mill effluents: a review. Advances in Environmental Research 5, 175–196.

Asselin M, Drogui P, Benmoussa H, Blais JF. 2008. Effectiveness of electrocoagulation process in removing organic compounds from slaughter house wastewater using monopolar and bipolar electrolytic cells. Chemosphere 72, 1727-1733.

Bayramoglu M, Kobya M, Eyvaz M, Senturk E. 2006. Technical and economic analysis of electrocoagulation for the treatment of poultry slaughterhouse wastewater. Separation and Purification Technology 51, 101-108.

Bazrafshan E, Kordmostafa Pour F, Farzadkia M, Ounagh K, Jafari Mansurian H. 2012. Application of electrocoagulation and chemical coagulation compound process for slaughterhouse wastewater treatment, Health and environment magazine, Seasonal science and research magazine of Iran of environmental health, No.1, 5th period 115-126.

Cecen F, Urban W, Haberl R. 1992 .Biological and advanced treatment of sulfat pulp bleaching effluent, Wat. Sci. Tech 26 (1-2), 135-119.

Daneshvar N, Ashassi-Sorkhabi H, Kasiri MB. 2001. Decolonization of dye solution containing acid red 11 by electrocoagulation with a comparative investigation of different electrode connections. J. Hazard. Mater. B 112, 55–62.

Hemmatabadi H, Rabi B. 2012. Capability of using electrocoagulation process using aluminum electrodes to reduce TSS and COD of paper recycling mill effluent, Magazine of wood and paper industries, 3rd year 2, 53-61.

Jafar Zadeh N, Daneshvar N. 2006. Treating Textile wastewater including bazik dyeing material by electrocoagulation method, Magazine of water and effluent 57, 22-29.

Khansorthong S, Hunsom M. 2009. Remediation of wastewater from pulp and paper mill industry by the electrochemical technique. Chemical Engineering Journal 151, 228–231.

Manjunath NT, Mehrotra I, Mathur RP. 2000. Treatment of wastewater from slaughterhouse by DAF-UASB system. Water Research 31(6), 1930-36.

Nouri J, Mahvi AH, Bazrafshan E. 2010. Application of Electrocoagulation Process in Removal of Zincand Copper from Aqueous Solutions by Aluminum Electrodes. International Journal of Environmental Research 1(2), 201-208.

Palatsi J, Vinas M, Guivernau M, Fernandez B, Flotats X. 2011. Anaerobic digestion of slaughter house waste: Main process limitations and microbial community interactions. BioresourceTechnolog 102, 2219-27

Parga JR, Cocke JL, Gomes JA, Kesmez M, Irwin G, Moreno H, Weir M. 2005. Arsenic removal via electrocoagulation from heavy metal contaminated groundwater in La Comarca Lagunera Mexico. J. Hazard. Mater. B 121, 217–251.

Pokhrel D, Viraraghavan T. 2001. Treatment of pulp and paper mill wastewater-a review.Science of the Total Environment 333, 37-58.

Ragunathan R, Swaminathan K. 2001. Biological treatment of a pulp and paper industry effluent by Pleurotus. W. J. Microbiology and Biotechnology 20, 389-393.

Torkian A, Eqbali A, Hashemian SJ. 2003. The effect of organic loading rate on the performance of UASBreactor treating slaughterhouse effluent. Resources, Conservation and Recycling 10(1), 1-11.

Ugurlua M, Gurses A, Dogar C, Yalcın M. 2008. The removal of lignin and phenol from paper mill effluents by electrocoagulation. Journal of Environmental Management, 87(3), 120-128.

Wang CT, Chou WL, Kuo YM. 2009. Removal of COD from laundry wastewater by electrocoagulation /electroflotation. Journal of Hazardous Material 161(1), 81–86.

Yousuf M, Mollah A, Schennach R, Parga JR, Cocke DL. 2001. Electrocoagulation (EC) science and applications. J. Hazard. Mater. B 81, 29–11.