Synthesis of Na+ trapped bentonite/zeolite-P composite as a novel catalyst for effective production of biodiesel from palm oil; Effect of ultrasonic irradiation and mechanism

[Display omitted] •Bentonite/zeolite-P catalyst was synthesized for effective transesterification of palm oil.•Its catalytic activity was studied by normal stirring and under ultrasonic irradiation.•The best biodiesel yields are 96.2% (normal stirring) and 98.8% (ultrasonic irradiation)•The ultrason...

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Bibliographic Details
Published in:Energy conversion and management 2019-09, Vol.196, p.739-750
Main Authors: Abukhadra, Mostafa R., Ibrahim, Sherouk M., Yakout, Sobhy M., El-Zaidy, Mohamed E., Abdeltawab, Ahmed A.
Format: Article
Language:English
Subjects:
Bentonite
Biodiesel
Biodiesel fuels
Biofuels
Catalysis
Catalysts
Catalytic activity
Conversion
Cost analysis
Diesel
Heterogeneous catalyst
Hydrothermal treatment
International standards
Irradiation
Methanol
Palm oil
Physiochemistry
Radiation
Reaction time
Stirring
Temperature effects
Transesterification
Ultrasonic
Yield
Zeolite
Zeolites
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Summary:[Display omitted] •Bentonite/zeolite-P catalyst was synthesized for effective transesterification of palm oil.•Its catalytic activity was studied by normal stirring and under ultrasonic irradiation.•The best biodiesel yields are 96.2% (normal stirring) and 98.8% (ultrasonic irradiation)•The ultrasonic irradiation reduced the operating values of the reaction parameters.•The catalyst is of high stability and the obtained biodiesel match the international standards. Bentonite/zeolite-P composite (B/ZP) was synthesized by simple alkaline hydrothermal treatment at 150 °C for 4 h and characterized by different analytical techniques. The composite was introduced as a low-cost catalyst of enhanced physiochemical properties and catalytic activity in the transesterification of palm oil into biodiesel. The catalytic activity of B/ZP catalyst was inspected by normal stirring mixing and under ultrasonic irradiation of different powers (20–60%). The best biodiesel yield by normal stirring (96.2%) was achieved at operating conditions of 210 min as conversion time, 20:1 as a methanol-to-oil molar ratio, 5 wt% as a catalyst loading, 90 °C as temperature and 900 rpm as stirring speed. The conversion reaction under the ultrasonic irradiation (power 60%) gives biodiesel yield of 98.8% after 120 min as reaction time using 5 wt% as catalyst loading, 20:1 as a methanol-to-oil ratio, and 90 °C as temperature. The ultrasonic irradiation is of positive impacts in reducing the conversion time interval, reaction temperature, catalyst loading, and methanol-to-oil molar ratio with biodiesel yield similar to that obtained by normal stirring at its best conditions. The catalyst is of higher activities than several homogenous and heterogeneous catalysts and can be reused several times with high catalytic activity especially using an organic solvent either by normal stirring or under the ultrasonic irradiation. The physicochemical specification of the obtained biodiesel by both methods matches the requirements of STM D-6571 and EN 14214 international standards.
ISSN:0196-8904
1879-2227
DOI:10.1016/j.enconman.2019.06.027