Comparison of Acid Blue 25 Adsorption Performance on Natural And Acid – Thermal Co-Modified Bentonite: Isotherm, Kinetics And Thermodynamics Studies

Comparison of Acid Blue 25 Adsorption Performance on Natural And Acid – Thermal Co-Modified Bentonite: Isotherm, Kinetics And Thermodynamics Studies

In the present study, natural bentonite and acid-thermal co-modified bentonite were utilized for Acid Blue 25 (AB25) removal. The adsorption experiments were executed at the temperature values of 298K, 308K and 318K. According to the results, Freundlich isotherm becomes more convenient model compare...

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Bibliographic Details
Published in:Mühendislik bilimleri dergisi Vol. 26; no. 7; pp. 1335 - 1342
Main Authors: Aldemir, Adnan, Kul, Ali Rıza
Format: Journal Article
Language:English
Published: Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi 01-01-2020
Pamukkale University
Subjects:
acid blue 25
adsorption
bentonite
Eğitim Bilimleri
isotherm model
kinetic coefficient
Mühendislik
thermodynamic parameter
Denizli
Izoterm model
Termodinamik parametre
adsorption
Kinetic coefficient
Isotherm model
Kinetic katsayı
Thermodynamic parameter
Bentonite
Adsorpsiyon
Bentonit
Acid blue 25
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Summary:In the present study, natural bentonite and acid-thermal co-modified bentonite were utilized for Acid Blue 25 (AB25) removal. The adsorption experiments were executed at the temperature values of 298K, 308K and 318K. According to the results, Freundlich isotherm becomes more convenient model compared with Langmuir and Temkin model. Freundlich model coefficients rise when the temperature increases. Kinetic coefficients were calculated by pseudo first order (PFO) and pseudo second order (PSO) models. Coefficients of R2 evaluated were higher than 0.99 with experimental and obtained qe values close to each other explained that this process fits PSO kinetic model. The concentration of AB25 elevates from 30 to 80 mg/L adsorption capacity onto natural, acid-thermal co-modified bentonite increases from 8.36 to 27.00 mg/g and 9.30 to 29.09 mg/g for 298 K, respectively. Absolute values of free energy of AB25 onto natural and acid-thermal co-modified bentonite changes from 4.065 kJ/mol to 8.586 kJ/mol, respectively. Enthalpy values of AB25 onto natural and acid-thermal co-modified bentonite changes from 5.483 kJ/mol to 11.249 kJ/mol and entropy values of AB25 on natural and acid-thermal co-modified bentonite changes from 4.759 J/mol K to 8.940 J/mol K, respectively. It was also found that modified bentonite has higher adsorption capacity than natural bentonite.
ISSN:1300-7009
2147-5881
DOI:10.5505/pajes.2020.03525