Adsorption Study of A Number of Di-Azo Dyes On A Nano Activated Carbon ; Prepared From Stem of Eucalyptus Tree

Authors

  • Mohamed H. Hanoody Department of Religious Education and Islamic Studies, Sunni Endowment Directorate, Mosul, Iraq Author
  • Alaa Abdul Azeez Department of Chemistry, College of Education for Pure Sciences, University of Mosul, Mosul, Iraq Author
  • Dalal E. A AL-Hyali Nineveh Education Directorate, Mosul, Iraq Author

DOI:

https://doi.org/10.58916/jhas.v9i5.564

Keywords:

Activated Carbon, Adsorption, Di-azo Dyes, eucalyptus leaves, Thermodynamics Thermodynamics.

Abstract

This work included equilibrium and thermodynamic studies of the adsorption of two azo dyes on activated carbon prepared from Fallen eucalyptus leaves collected from the forests of Mosul city which is located in the north part of Iraq. The preparation is followed by thermal stimulation where the efficiency and capacity of adsorption were estimated. The optimal conditions of the adsorption system such as; effect of amount of adsorbent (dose), contact time, temperature and initial concentration were conducted. The research included the application of three types of isotherms to the adsorption system under study, namely Langmuir, Freundlich, and Flory-Huggins (FH), The Freundlich isotherm equation is better fitted to the practical data of adsorption of the studied dyes at all temperatures indicated by the values of the correlation coefficients (R2) that, ranged between (0.9999 –0.9924) and this pointing to the possibility of the formation multi-layer adsorption distributed on a heterogeneous surface area. Thermodynamic study was also conducted at various initial concentration (35, 87, 140, and 197 mg/L), each concentration at range of temperatures (293-333 Kelvin). The results proved that, the values of equilibrium constant (K) decreases with increasing temperature. This is agree with the physical nature of the adsorption process. The values of the thermodynamic functions proved that adsorption system under consideration are spontaneous, the forces dominate the connection between the dye molecules and the active sites on the carbon surface are physical in nature. The adsorption process leads to more ordered system at a concentration of 35 mg/L, while at higher concentrations the results were more random order for both dyes (D1 and D2). This can be attributed to the fact that increasing the concentration increases the number of remaining molecules in the dye solutions, thus increasing the randomness of the system, especially after equilibrium.

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Author Biography

  • Mohamed H. Hanoody, Department of Religious Education and Islamic Studies, Sunni Endowment Directorate, Mosul, Iraq

    السيرة الذاتية للباحث محمد حسين حنودي

    الاسم الثلاثي: محمد حسين حنودي

    الحالة الزوجية : متزوج

    السكن: محافظة نينوى – جمهورية العراق

    الشهادة: بكالوريوس علوم كيمياء سنة 1995م

                ماجستير علوم كيمياء سنة 2023م

    عنوان الرسالة: رسالة ماجستير "دراسة اتزان وثرموديناميكية امتزاز عدد من اصباغ الازو على الكاربون المنشط المحضر من اوراق اشجار اليوكالبتوس المتساقط من غابات مدينة الموصل"

    البريد الالكتروني: mhmdalhnwdy70@gmail.com

    البحوث المنشورة : بحث منشورة في مجلة سامراء بعنوان" دراسة وحركية امتزاز صبغة الميثلين الزرقاء باستخدام نوع جديد من الكاربون المنشط المحضر من اشجار اليوكالبتوس"

                            بحث قيد النشر في مجلة بغداد بعنوان " دراسة حركية لامتزاز بعض اصباغ الازو على طين البتونايت المحلي المحفز حراريا"

References

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Published

2024-12-08

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How to Cite

Mohamed H. Hanoody, Alaa Abdul Azeez, & Dalal E. A AL-Hyali. (2024). Adsorption Study of A Number of Di-Azo Dyes On A Nano Activated Carbon ; Prepared From Stem of Eucalyptus Tree. Bani Waleed University Journal of Humanities and Applied Sciences, 9(5), 340-359. https://doi.org/10.58916/jhas.v9i5.564

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