Adsorption thermodynamics and prediction of phase equilibria for activated carbon synthesized from waste grease. | ||
Journal of University of Anbar for Pure Science | ||
Article 6, Volume 6, Issue 1, April 2012, Pages 16-20 PDF (326.66 K) | ||
Document Type: Research Paper | ||
DOI: 10.37652/juaps.2012.62769 | ||
Authors | ||
Hiba J. Ali; Ismail Kh. Al-Khateeb* | ||
University of Anbar - College of Science. | ||
Abstract | ||
The research is conducted to evaluate the thermodynamic parameters of adsorption processes and to predict the phase equilibria for carbon produced from a mixture of waste grease and raw sulfur. Phenol and p-nitrophenol were used for adsorption isotherm at different concentrations and temperatures. Thermodynamic functions such as Gibbs function (∆G), enthalpy (∆H) and entropy (∆S) changes during adsorption were calculated. The melting point measurements of waste grease and raw sulfur mixtures were obtained for different ratios. The lever rule is used to represent a quantitative determination in the two-phase region of a phase diagram using a certain equation.The phenol adsorption was mostly an endothermic process while the p-nitrophenol adsorption was an endothermic process for all samples as indicated by positive values of the enthalpy. Generally the adsorption processes were spontaneous as pointed out by entropy and free energy values. Various phases and boundaries were occurred at three regions with 2-phase while 1-phase is exist in the system especially at high temperatures. The ratio of lliquid/lsolid was increased with reducing temperature and the amounts of liquid were reduced | ||
Keywords | ||
adsorption; Activated Carbon; equilibria | ||
References | ||
1.Atkins, P. Physical Chemistry. 6th. Addition, Oxford University Press (2001).
2.Gmehling, J. Pure Appl. Chem. 75:875-888 (2003).
3.Ahlers, J. and Gmehling, J. Fluid Phase Equilib. 191: 177-188 (2001).
4.Ahlers, J. and Gmehling, J. Ind. Eng. Chem. Res. 41: 3489-3498 (2002).
5.Ahlers, J. and Gmehling, J. Ind. Eng. Chem. Res. 41: 5890-5899 (2002).
6.Grolier, J. and Kehiaian, H. J. Chim. Phys. 70: 807-810(1973).
7. Polo, C.; Gutierrez, C.; Kechavaraz, M. and Kehiaian, H. Phys. Chem. 84:525-529(1980).
8. Kehiaian, H.; Tine, M.; Lepori, L.; Matteoli, E. and Marongiu, B. Fluid Phase Equilib. 46: 131-177(1989).
9. Cancellu, D.; Marongiu, B. and Porcedda, S. Thermochim. Acta 178: 33-49 (1991).
10. Dahmani, A.; Kaci, A. and Jose, J. Fluid Phase Equilib. 134: 255-265 (1997).
11. Lee, J.; Cho, S.; Hwang, Y.; Lee, C. and Kim, S. Tribol. Lett. 28:203-208 (2007).
12. Lee, K.; Hwang. Y.; Cheong, S.; Choi, Y.; Kwon, L.; Lee, J. and Kim, S. Ttibol. Lett. 35:127-131 (2009).
13- Bansal,R.C. ,Goyal,M. and Raton,B.,"Activated Carbon Adsorption",Taylor & Francis Group(2005).
14- Prahas,D., Kartika,Y. and Indraswati, N. Chem.Eng.J.140: 32–42 (2008).
15- March, H., and Reinoso,F.R,"Activated Carbon",Elsevier Science & Technology Books,2006.
16. Al-Khateeb, I. I. Al-Mehemdy, A., O. J. Chem. Chem. Eng.5: 715-719 (2011).
17- Sricharoenchaikul V. ,Pechyen C. and Atong D.," Preparation and Characterization of Activated Carbon from the Pyrolysis of Physic Nut (Jatropha curcas L.) Waste", American Chemical Society Magazine (2007).
18- Ali, H. M.Sc. Thesis. Al-Anbar University, Iraq. (2011).
19- Zawani, Z. , Luqman ,C. and Thomas ,S. , Eur. J. Sci. Res., 37 ,67, (2009).
20- Horsfall, M., Spiff, A. and Abia, A. Bull. Korean Chem. Soc. 25:969-976 (2004).
21- Abdel Ghani, N. and Elchaghaby, G. Inter. J. Enviro. Sci. Tech. 4:451-456 (2007). | ||
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