3.4. Adsorption isothermsThe adsorp

3.4. Adsorption isotherms
The adsorption isotherm describes how the adsorbed molecules
distribute between the liquid phase and the solid phase when the
adsorption process reaches an equilibrium state (Yang and Qui,
2010). The analysis of the isotherm data by fitting them to different
isotherm models is an important step to find the suitable model
that can be used for design purpose (Lin et al., 2013; Li et al.,
2013). In this study, four isotherm models, namely the Langmuir,
Freundlich, Dubinin–Radushkevich (D–R) and Temkin isotherm
were used for describing the results. Comparison of isotherm models
for Yellow 18 adsorption onto activated carbon at different
solution temperatures was shown in Fig. 1. Also, the fitting results,
i.e. isotherm constants and correlation coefficients are shown in
Table 2.
For Langmuir adsorption isotherm, RL values (Eq. (4)) for the
investigated dye-adsorbent system, were found to be between
0.039 and 0.147 at different solution temperatures and confirmed
the activated carbon was favourable for adsorption of Yellow 18
under the conditions used in this study. Also, the Langmuir isotherm
parameters, Q0 and KL, were found to have increased with
increasing temperature. The maximum adsorption capacity increased
from 50.76 to 75.76 mg g1 as the temperature increased
from 298 to 318 K. High temperatures caused to increase the
kinetic energy of the dye and therefore enhanced the mobility of
the dye ions (Karagozoglu et al., 2007). The correlation coefficients
were 0.9905, 0.9858 and 0.9892 for 298, 308 and 318 K,
respectively.