Rotor–stator hydrodynamic cavitation reactor for intensifcation of castor oil biodiesel production
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Date
2024-08
Journal Title
Journal ISSN
Volume Title
Type
Article
Publisher
Springer
Series Info
International Journal of Environmental Science and Technology;
Scientific Journal Rankings
Abstract
Nowadays, the intensifcation of the production of biodiesel from non-edible oil crops is mandatory to overcome petrol-fuel
depletion and environmental pollution. For the frst time, enhanced biodiesel production from castor oil via rotor–stator
hydrodynamic cavitation has been studied in this work. Response surface methodology based on one-factor-at-a-time design
of experiments was employed for modelling and optimizing the biodiesel yield and the decrease in feedstock viscosity,
density, and total acid number (TAN). The predicted optimum parameters of 8.15:1 methanol:oil (M:O), 1499 rpm, 29.38 min,
48.43 °C, and a KOH catalyst concentration of 0.74 wt.% resulted in a 96% biodiesel yield with a concomitant decrease
in viscosity, density, and TAN of approximately 95%, 5.12%, and 90.02%, respectively. According to the results of the
breakthrough kinetic calculations, the reaction is pseudo-second order, with the activation energy, frequency factor, and
reaction rate constant being 0.23 M−1 min−1, 18.77 kJ/mol, and 6.32 M−1 min−1, respectively. The fuel properties of the
produced biodiesel and bio-petro-diesel blends were good, comparable to international standards and the marketed Egyptian
petro-diesel.
Description
Keywords
Rotor–stator hydrodynamic cavitation reactor · Castor oil transesterifcation · Process optimization · Process kinetics and thermodynamics · Biodiesel intensifcation