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Salib, B., Abdel Dayem, H., El-Hosiny, F. (2019). Catalytic performances of traditional ɣ-Al2O3, Graphene Oxide and Graphene oxide-alumina in transesterification of oil to biodiesel. International Journal of Development, 8(1), 95-104. doi: 10.21608/idj.2019.64040
Basant Salib; Hany Abdel Dayem; Fouad El-Hosiny. "Catalytic performances of traditional ɣ-Al2O3, Graphene Oxide and Graphene oxide-alumina in transesterification of oil to biodiesel". International Journal of Development, 8, 1, 2019, 95-104. doi: 10.21608/idj.2019.64040
Salib, B., Abdel Dayem, H., El-Hosiny, F. (2019). 'Catalytic performances of traditional ɣ-Al2O3, Graphene Oxide and Graphene oxide-alumina in transesterification of oil to biodiesel', International Journal of Development, 8(1), pp. 95-104. doi: 10.21608/idj.2019.64040
Salib, B., Abdel Dayem, H., El-Hosiny, F. Catalytic performances of traditional ɣ-Al2O3, Graphene Oxide and Graphene oxide-alumina in transesterification of oil to biodiesel. International Journal of Development, 2019; 8(1): 95-104. doi: 10.21608/idj.2019.64040

Catalytic performances of traditional ɣ-Al2O3, Graphene Oxide and Graphene oxide-alumina in transesterification of oil to biodiesel

Article 8, Volume 8, Issue 1, 2019, Page 95-104  XML PDF (650.39 K)
Document Type: Original Article
DOI: 10.21608/idj.2019.64040
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Authors
Basant Salib; Hany Abdel Dayem; Fouad El-Hosiny*
Chemistry Department, Faculty of Science, Ain Shams University, 11566 Abassia, Cairo, Egypt
Abstract
The catalytic properties of alumina (ɣ-Al2O3), Graphene Oxide (GO) and Graphene Oxide –alumina was studied in transesterification of sunflower oil to biodiesel. The catalytic tests were carried out at standard reaction conditions; reaction temperature 60˚C, methanol to oil ratio 12:1, catalyst to oil ratio 1:100 and reaction time 1 hr.In the case of graphene oxide samples their performances in conversion of oil to biodiesel depends on the method of preparation. On the other hand, the catalytic activity results showed that addition of graphene oxide to alumina significantly improved its transesterification reaction where, conversion increased from 13% for neat alumina and 18% for GO to 28% for GO-alumina. This effect was attributed to that GO-alumina had higher amounts of acidic sites than its parent materials.
 
Keywords
Catalytic performance; ɣ-Al2O3; graphene oxide; Graphene oxide-alumina; transesterification; sunflower oil; Biodiesel
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