Asian Journal of Research in Chemistry

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Synthesis, Characterization, and Catalytic Ability Evaluation of Mgo-γ-Al2O3/Tio2-so4 2- for Transesterification of Waste Cooking Oil by Methanol


Affiliations
1 Department of Chemistry, University of Education, The University of Danang, Viet Nam
2 Department of Chemistry, Hanoi University of Science, Viet Nam
3 Hanoi University of Science and Technology, Viet Nam
     

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The catalytic system Mgo-γ-Al2O3/Tio2-so4 2- was synthesized, and then characterized by XRD, IR, NH3 - TPD, CO2-TPD, BET, EDX methods. As can be seen from the results of physical characterization, the synthesized Mgo-γ-Al2O3/Tio2-so4 2- material owns a large surface area of 261.85 m2/g, a mean capillary diameter of 95.5 Å. The presence of TiO2 and SO4 2- creates strong acid sites on the catalyst surface, as indicated by the NH3 desorption temperature peak at 509.5°C and 546.6°C. The presence MgO phase creates strong basic sites, as specified by the CO2 desorption temperature peak at 502.1°C. A transesterification between methanol and waste cooking oil (the volume ratio of methanol to oil of 1:1) using Mgo-γ-Al2O3/Tio2-so4 2- as a catalyst was carried out at 120°C for 4 hours. The reaction efficiency was about 98.1%.

Keywords

Biodiesel synthesis,Mgo-γ-Al2O3/Tio2-so4 2- , Acid-Base catalyst, Mesoporous Material, Transesterification.
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  • Synthesis, Characterization, and Catalytic Ability Evaluation of Mgo-γ-Al2O3/Tio2-so4 2- for Transesterification of Waste Cooking Oil by Methanol

Abstract Views: 175  |  PDF Views: 2

Authors

Minh Duc Ngo
Department of Chemistry, University of Education, The University of Danang, Viet Nam
Thi Nhu Mai Tran
Department of Chemistry, Hanoi University of Science, Viet Nam
Thi Phuong Ly Giang
Hanoi University of Science and Technology, Viet Nam
Ba Trung Nguyen
Department of Chemistry, University of Education, The University of Danang, Viet Nam

Abstract


The catalytic system Mgo-γ-Al2O3/Tio2-so4 2- was synthesized, and then characterized by XRD, IR, NH3 - TPD, CO2-TPD, BET, EDX methods. As can be seen from the results of physical characterization, the synthesized Mgo-γ-Al2O3/Tio2-so4 2- material owns a large surface area of 261.85 m2/g, a mean capillary diameter of 95.5 Å. The presence of TiO2 and SO4 2- creates strong acid sites on the catalyst surface, as indicated by the NH3 desorption temperature peak at 509.5°C and 546.6°C. The presence MgO phase creates strong basic sites, as specified by the CO2 desorption temperature peak at 502.1°C. A transesterification between methanol and waste cooking oil (the volume ratio of methanol to oil of 1:1) using Mgo-γ-Al2O3/Tio2-so4 2- as a catalyst was carried out at 120°C for 4 hours. The reaction efficiency was about 98.1%.

Keywords


Biodiesel synthesis,Mgo-γ-Al2O3/Tio2-so4 2- , Acid-Base catalyst, Mesoporous Material, Transesterification.