Adsorption of Surface Active Agents By Adsorbents Produced From Spent Bleaching Earth
Surface active agents are not only related to soaps and detergents in daily life. They are also used in many industrial processes. They enter the environment primarily through waste water. These compounds produce environmental pollution. Surface active agents are not eliminated with conventional treatments such as decantation, filtration, chlorination, coagulation.
Adsorption processes are widely used to remove organic pollutions from waters and are very suitable to remove surface active agents.
In this study a new adsorbent was produced from spent bleaching earth and this adsorbent was used to remove three surface active agents (sodium dodecyl benzene sulphonate, triton X- 100 and n-dodecyl pyridinium chloride).
The adsorption process is influenced by time, initial concentration and pH of the solutions. Therefore adsorption experiments were carried out as a function of time, initial concentration and pH.
The adsorption process for three surface active agents followed the first order Lagergren equation. Intra-particle diffusion coefficients were calculated. The data obtained from equilibrium studies were analyzed and fitted to the Langmuir isotherm for all the surface active agents. It was seen that the pH had effect on the adsorption capacities.
Column studies were also carried out. The effect of the initial concentration and flow rate was studied. The increase of the flow rate decreased the column capacity and increase of initial concentration increased the column capacity.
The results show that the adsorbent produced from spent bleaching earth may be a suitable material in the removal of surface active agents.
AL Mukadder
Danışman : Doç. Dr. Mehmet MAHRAMANLIOĞLU
Anabilim Dalı : Kimya
Programı : Fiziksel Kimya
Mezuniyet Yılı : 2009
Tez Savunma Jürisi : Doç.Dr. Mehmet MAHRAMANLIOĞLU
Prof.Dr. İzzet TOR
Doç.Dr. İrfan KIZILCIKLI
Doç.Dr. Ayben KİLİSLİOĞLU
Doç.Dr. Filiz İMER
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