TY - JOUR
T1 - Advanced treatment by chemical oxidation of pulp and paper effluent from a plant manufacturing hardboard from waste paper
AU - Tünay, O.
AU - Erdeml, E.
AU - Kabdaşli, I.
AU - Ölmez, T.
PY - 2008/10
Y1 - 2008/10
N2 - This study attempts to evaluate the applicability of chemical oxidation processes to polish biologically treated effluent of a plant manufacturing hardboard from waste paper to comply with the discharge limit of 120 mg l-1 chemical oxygen demand (COD). In the first step, a chemically assisted settling was applied. The optimum results were obtained with alum plus lime with the alum dose of 200 mg l-1. In the second step, chemically assisted settling effluent was fed into an activated sludge system and over 80% COD removal was achieved. In the last step of the experimental study, a series of ozone oxidation and Fenton oxidation methods were tested to remove residual COD. Ozone oxidation provided 80% COD removal. An ozone dose of 40 mg min-1 with a reaction time of two hours was found to be optimum. Catalytic ozonation by using ferric iron, as well as high pH ozonation, Fenton process and H2O2/O3 oxidation did not prove to be more efficient than plain ozonation under these study conditions.
AB - This study attempts to evaluate the applicability of chemical oxidation processes to polish biologically treated effluent of a plant manufacturing hardboard from waste paper to comply with the discharge limit of 120 mg l-1 chemical oxygen demand (COD). In the first step, a chemically assisted settling was applied. The optimum results were obtained with alum plus lime with the alum dose of 200 mg l-1. In the second step, chemically assisted settling effluent was fed into an activated sludge system and over 80% COD removal was achieved. In the last step of the experimental study, a series of ozone oxidation and Fenton oxidation methods were tested to remove residual COD. Ozone oxidation provided 80% COD removal. An ozone dose of 40 mg min-1 with a reaction time of two hours was found to be optimum. Catalytic ozonation by using ferric iron, as well as high pH ozonation, Fenton process and H2O2/O3 oxidation did not prove to be more efficient than plain ozonation under these study conditions.
KW - Advanced oxidation processes
KW - Biological treatment
KW - Fenton oxidation
KW - Hardboard manufacturing wastewater
KW - Ozone oxidation
UR - http://www.scopus.com/inward/record.url?scp=50649124432&partnerID=8YFLogxK
U2 - 10.1080/09593330802175823
DO - 10.1080/09593330802175823
M3 - Article
C2 - 18942572
AN - SCOPUS:50649124432
SN - 0959-3330
VL - 29
SP - 1045
EP - 1051
JO - Environmental Technology (United Kingdom)
JF - Environmental Technology (United Kingdom)
IS - 10
ER -