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Physical, chemical, morphological properties and sorption characteristics of anaerobically digested dewatered municipal sewage sludge have been investigated including the surface area, pore size distribution, chemical composition, surface chemistry structure, surface physical morphology, mineralogy, cation exchange capacity, heavy metal content, total solid, total volatile solid, total Kjeldahl-N, total phosphorus content of the sewage sludge. The sorption potential of sewage sludge for the removal of 4-CP and 2,4-DCP from aqueous solutions was examined by investigating their adsorption isotherms and kinetics in a lab-scale batch study. Findings of this study clearly showed that sewage sludge provides chlorophenol removal in the landfill body as disposed with solid wastes.
Czasopismo
Rocznik
Tom
Strony
119--133
Opis fizyczny
Bibliogr. 23 poz., tab., rys.
Twórcy
autor
- Yildiz Technical University, Faculty of Civil Engineering, Department of Environmental Engineering, 34220 Davutpasa, Esenler, Istanbul, Turkey
autor
- Yildiz Technical University, Faculty of Civil Engineering, Department of Environmental Engineering, 34220 Davutpasa, Esenler, Istanbul, Turkey
autor
- Yildiz Technical University, Faculty of Civil Engineering, Department of Environmental Engineering, 34220 Davutpasa, Esenler, Istanbul, Turkey
autor
- Yildiz Technical University, Faculty of Civil Engineering, Department of Environmental Engineering, 34220 Davutpasa, Esenler, Istanbul, Turkey
autor
- Yildiz Technical University, Faculty of Civil Engineering, Department of Environmental Engineering, 34220 Davutpasa, Esenler, Istanbul, Turkey
autor
- Yildiz Technical University, Faculty of Civil Engineering, Department of Environmental Engineering, 34220 Davutpasa, Esenler, Istanbul, Turkey
autor
- Yildiz Technical University, Faculty of Civil Engineering, Department of Environmental Engineering, 34220 Davutpasa, Esenler, Istanbul, Turkey
Bibliografia
- [1] BAGREEV A., BASHKOVA S., LOCKE D.C., BANDOSZ T.J., Sewage sludge-derived materials as efficient adsorbents for removal of hydrogen sulfide, Environ. Sci. Technol., 2001, 35, 1537.
- [2] ROZADA F., OTERO M., MORAN A., GARCIA A.I., Activated carbons from sewage sludge and discarded tyres. Production and optimization, J. Hazard. Mater., 2005, B124, 181.
- [3] BAGREEV A., BANDOSZ T.J., LOCKE D.C., Pore structure and surface chemistry of adsorbents obtained by pyrolysis of sewage sludge-derived fertilizer, Carbon, 2001, 39 , 1971.
- [4] XIAOGE C., JEYASEELAN S., GRAHAM N., Physical and chemical properties study of the activated carbon made from sewage sludge, Waste Manage., 2002, 22 (7), 755.
- [5] YU L., ZHONG Q., Preparation of adsorbents made from sewage sludges for adsorption of organic materials from wastewater, J. Hazard. Mater., 2006, 137 (1), 359.
- [6] OTERO M., ROZADA F., CALVO L.F., GARCIA A.I., MORAN A., Elimination of organic water pollutants using adsorbents obtained from sewage sludge, Dyes and Pigm., 2003, 57 (1), 55.
- [7] TAY J.H., CHEN X.G., JEYASEELAN S., GRAHAM N., A comparative study of anaerobically digested and undigested sewage sludge in preparation of activated carbons, Chemosphere, 2001, 44 (1), 53.
- [8] APHA, Standard methods for the examination of water by American Public Health Association (APHA), Washington, D.C., 2005.
- [9] BRUNAUER S., EMMET P.H., TELLER F., Surface area measurements of activated carbons, silica gel and other adsorbents, J. Am. Chem. Soc., 1938, 60, 309.
- [10] LOWELL, S., SHIELDS, J.E., Powder Surface Area and Porosity, Wiley, New York 1984.
- [11] BARRETT E.P., JOYNER L.G., HALENDA P.P., The determination of pore volumes and area distributions in porous substances, J. Am. Chem. Soc., 1951, 73 (1), 373.
- [12] HORVATH G., KAWAZOE K., Method for the calculation of effective pore size distribution in molecular sieve carbon, J. Chem. Eng. Japan, 1983, 16 (5), 470.
- [13] BHATTACHARYYA K.G., GUPTA S.S., Kaolinite, montmorillonite, and their modified derivatives as adsorbents for removal of Cu(II) from aqueous solution, Sep. Purif. Technol., 2006, 50 (3), 388.
- [14] TCHOBANOGLOUS G., STENSEL H.D., TSUCHIHASHI R., BURTON F., Wastewater Engineering. Treatment and Reuse, Metcalf and Eddy, McGraw Hill, 2002.
- [15] O’Kelly B.C., Mechanical properties of dewatered sewage sludge,Waste Manage., 2005, 25 (1), 47.
- [16] CHEN X., JEYASEELAN S., GRAHAM N., Physical and chemical properties study of the activated carbon made from sewage sludge, Waste Manage., 2002, 22 (7), 755.
- [17] LEOFANTI G., PADOVAN M., TOZZOLA G., VENTURELLI B., Surface area and pore texture of catalysts, Catal. Today, 1998, 41 (1–3), 207.
- [18] KULEYIN A., Removal of phenol and 4-chlorophenol by surfactant-modified natural zeolite, J. Hazard. Mater., 2007, 144 (1–2), 307.
- [19] SATHISHKUMAR M., BINUPRIYA A.R., VIJAYARAGHAVAN K., YUN S., Two and three-parameter isothermal modeling for liquid-phase sorption of Procion Blue H-B by inactive mycelial biomass of Panus fulvus, J. Chem. Technol. Biotechnol., 2007, 82 (4), 389.
- [20] PERIĆ J., TRGO M., VUKOJEVIĆ MEDVIDOVIĆ N., Removal of zinc, copper and lead by natural zeolite. A comparison of adsorption isotherms, Water Res., 2004, 38 (7), 1893.
- [21] TREYBAL R.E., Mass-transfer operations, 3rd ed., McGraw-Hill, 1981.
- [22] BLANCHARD G.,MAUNAYE M., MARTIN G., Removal of heavy metals from waters by means of natural zeolites, Water Res., 1984, 18 (12), 1501.
- [23] HO Y.S., PORTER J.F., MCKAY G., Equilibrium isotherm studies for the adsorption of divalent metal ions onto peat: copper, nickel and lead single components systems, Water Air Soil Poll., 2002, 141, 1
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-16512062-635a-4344-a448-7491ea248859