Investigation of equilibrium, kinetic, thermodynamic and mechanism of basic blue 16 adsorption by montmorillonitic clay
Künye
Günay A., Ersoy B., Dikmen S., Evcin A. “Investigation of equilibrium, kinetic, thermodynamic and mechanism of Basic Blue 16 adsorption by Montmorillonitic Clay” Adsorption 19:757–768 (2013)Özet
The adsorption of a cationic dye, Basic Blue 16
(BB16), by montmorillonitic clay was studied in detail.
Changes in the molecular structure during adsorption were
analyzed by FTIR spectroscopy. BB16 adsorption onto the
clay mainly results from hydrogen bonding between OH
and NH
groups of dye molecules and OH groups of clay
and electrostatic interaction between the negatively
charged clay surface and cationic dye. The montmorillonitic
clay dose had an inverse effect on the adsorption performance,
while the highest dye removal was 305 mg/g at
pH 3.6. An increase in temperature and dye concentration
positively enhanced the adsorption capacity of the montmorillonitic
clay. Temperature had no effect on the
adsorption at a dye concentration less than 500 mg/L,
while dye adsorption was positively enhanced at elevated
dye concentrations. Three-parameter equations provided
higher better fitting than two-parameter equations while the
Freundlich model had the highest correlation coefficient
and the lowest error values with experimental data. The
BB16 adsorption was well followed by pseudo-second
order model and the rate of adsorption process was controlled
by surface and intraparticle diffusion. Thermodynamic
evaluations revealed that the adsorption process was
spontaneous and endothermic, while the randomness
increased during adsorption. Experimental results indicate
that montmorillonitic clay from Eskisehir is a promising
adsorbent for the removal of cationic dye molecules from
aqueous solutions.