___

• Wu S, H., Pendleton, P., ‘‘Adsorption of anionic
• surfactant by activated carbon: effect of surface
• chemistry, ionic strength, and hydrophobicity’’,
• Journal of Colloids Interface Science, 243,
• –315, 2001.
• Karaca, S., Gürses, A. and Bayrak, R., ‘‘Effect
• of some pre-treatments on the adsorption of
• methylene blue by Balkaya lignite’’, Energy
• Conversion and Management, 45, 1693-1704,
• -
• Aksu, A., Murathan, A., Koçyiğit, H.,
• ‘‘Adsorption of reactive blue 221 on pumice
• stone and kinetic study”, Journal of the Faculty
• of Engineering and Architecture of Gazi
• University, 26, 4, 807-812, 2011.
• Mirmo hamadsadeghi, S., Kaghazchi, T.,
• Soleimani, M., Asasian, N., ‘‘An efficient
• method for clay modification and its application
• for phenol removal from wastewater’’, Applied
• Clay Science , 59–60, 8–12, 2012.
• Sabah, E., Turan, M., Celik, M. S., “Adsorption
• mechanism of cationic surfactants onto acid- and
• heat-activated sepiolites”, Water Research, 36
• (16), 3957-3964, 2002.
• Zhang, M., L, X.P., Shı, B., “Adsorption of
• surfactants on chromium leather waste”,
• Journal of the Society of Leather
• Technologists and Chemists, 90, 1, 2005.
• Su kirliliği kontrolü yönetmeliği, Resmi Gazete
• Sayısı: 26786, 2008.
• Rozzi, A., Antonelli, M., Angeretti, C.,
• “Removal by an Adsorbent Resin of Non-Ionic
• Surfactants Used in Tannery Processes”,
• Journal of the Society of Leather
• Technologists and Chemists, 84, 266-270,
• -
• Ying, Q., Andrew, H.F.A., Alan, C.L., Gil, G.,
• ‘‘Characterisation of lignite as an industrial
• adsorbent’’, Fuel , 90, 1567–1574, 2011.
• Yavuz, R., Küçükbayrak, S., ‘‘An investigation
• of some factors affecting the dispersant
• adsorption of lignite’’, Powder Technology,
• , 89-94, 2001.
• Karatepe, N., ‘‘Adsorption of a non-ionic
• dispersant on lignite particle surface’’, Energy
• Conversion and Management, 44, 1275–1284,
• -
• Polat, H., Molva, M., Polat, M., ‘‘Capacity and
• mechanism of phenol adsorption on lignite’’,
• Int. Journal of Mineral. Process, 79, 264- 273,
• -
• Gode, F., Pehlivan, E., ‘‘Adsorption of Cr(III)
• ions by Turkish brown coals’’, Fuel Processing
• Technology, 86, 875–884, 2005.
• Yavuz, R., Küçükbayrak, S., ‘‘Adsorption of an
• anionic dispersant on lignite’’. Energy
• Conversion and Management, 42, 2129-2137,
• -
• Aktaş, Z., ‘‘Adsorption of Non-ionic Surface
• Active Agent on Fine Coal and Lignite’’,
• Turk Journal of Chem., 25, 311-321, 2001.
• Aktaş, Z., Woodburn, E.T., ‘‘The adsorption
• behaviour of nonionic reagents on two low rank
• British coals’’ Minerals Engineering, 7(9),
• -1126, 1994.
• Paritosh, D. P., Anjali, P., Manas, B.,
• “Adsorption of anionic surfactant by a low- cost
• adsorbent”, Journal of Environmental Science
• and Health - Part A Toxic/Hazardous
• Substances and Environmental Engineering,
• (5), 925-938, 2002.
• Gürses, A., Bayrakçeken, S., Gülaboğlu M.Ş.,
• ‘‘Adsorption of o-cresol from aqueous solution
• on coal’’, Colloid Surface, 64, 7-13, 1992.
• Azmi, A.S., Yusup S., Muhamad, S., ‘‘The
• influence of temperature on adsorption capacity
• of Malaysian coal’’, Chemical Engineering
• Process, 45, 392-396, 2006.
• Tarasevich, Y.I., ‘‘Porous structure and
• adsorption properties of natural porous coal’’,
• Colloids and Surfaces A, 176, 267-272, 2001.
• Mishra, S.K., Panda, D., ‘‘Studies on the
• adsorption Studies on the adsorption of Brij-35
• and CTAB at the coal–water interface’’, Journal
• of Colloid and Interface Science, 283, 294–
• , 2005.
• Mishra, S.K., Kanungo S.B.,
• Rajeev,.‘‘Adsorption of sodium dodecyl
• benzenesulfonate onto coal’’, Journal of
• Colloid and Interface Science, 267, 42–48,
• -
• Gürü,M., Venedik, D., Murathan, A., “ Removal
• of trivalent chromium from water using low-cost
• natural diatomite”, Journal of Hazardous
• Materials, 160, 318-323, 2008.
• Ünal, İ., Aktaş, Z.,‘‘Effect of Various Bridging
• Liquids on Coal Fines Agglomeration
• Performance’’, Fuel Processing Technology,
• , 141-155, 2001.
• Ünal, İ., Erşan, M.G., ‘‘Oil agglomeration of a
• lignite treated with microwave energy: Effect of
• particle size and bridging oil’’, Fuel Processing
• Technology, 87, 71-76, 2005.
• Mohan, S.V., Rao, N.C., Karthikeyan, J.,
• ‘‘Adsorptive removal of direct azo dye from
• aqueous phase onto coal based sorbents: a
• kinetic and mechanistic study’’, Journal of
• Hazardous Materials B, 90, 189-204, 2002.
• Marsalek, R., Pospisil, J., Taraba, B., “The
• influence of temperature on the adsorption of
• CTAB on coals” Colloids and Surfaces A:
• Physicochem. Eng. Aspects, 383, 80–85, 2011.
• Paria, S., Khilar, K.C., “A review on
• experimental studies of surfactant adsorption at
• the hydrophilic solid–water interface”,
• Advances in Colloid and Interface Science,
• (3) , 75-95, 2004.
• Imran, A., Mohd., A., Tabrez, A. Khan., ‘‘Low
• cost adsorbents for the removal of organic
• pollutants from wastewater’’, Journal of
• Environmental Management, 113, 170-183,
• -
• Wu, X., Wu, D., Fua, R., “Studies on the
• adsorption of reactive brilliant red X-3B dye on
• organic and carbon aerogels” Journal of
• Hazardous Materials, 147(3) 1028-36 , 2007.
• Lin, S.Y., Chen, W., Cheng, M.T., Li, Q.,
• “Investigation of factors that affect cationic
• surfactant loading on activated carbon and
• perchlorate adsorption”, Colloids and Surfaces
• A: Physicochem. Eng. Aspects, 434, 236-242,
• -
• Garcia, A. B., Tarazona, M. R. M., Vega, J. M.
• G., Wheelock, T. D., ‘‘On the role of oil wetting
• in the cleaning of high rank coals by
• agglomeration’’, Fuel, 77, 387-392, 1998.
• Wajima, T., Sugawara, K., ‘‘Adsorption
• behaviors of mercury from aqueous solution
• using sulfur-impregnated adsorbent developed
• from coal’’, Fuel Processing Technology, 92,
• –1327, 2011.