Abstract
A tubular reactor with ultrasound clamps (US reactor) was used to produce methyl ester from refined palm oil (RPO) as a continuous process. The US reactor had 16 units of ultrasound clamps attached to the tube wall. The clamps were operated at 20 kHz fixed frequency with maximally 400W power per clamp. The ultrasound clamps were fixed 100 mm apart along the length of the reactor. The effects of varying methanol content (5, 10, 15 or 20 vol.%) and KOH loading (4, 6, 8, 10 or 12 g L−1) on the purity of methyl ester were investigated. The results show that the lowest 5 vol.% methanol content tested was unable to convert the glycerides in RPO to over 64.2 wt.% methyl ester purity at any of the KOH loadings. The maximum 99.9 wt.% purity of methyl ester was achieved with 10 g L−1 KOH loading, 10 vol.% methanol, and 400 mm reactor tube length. However, the methyl ester reached its equilibrium level at 300 mm reactor length. Regarding the average energy consumption, 0.035 kW h L−1 was required to produce biodiesel when using ultrasound clamps on the tubular reactor.
Acknowledgments
This work was supported by the Energy Policy and Planning Office of Thailand (EPPO), by the Prince of Songkla University (Grant No. ENG601985S), and by the National Research Council of Thailand (NRCT) under Development of Alternative Energy and Its Applications in Green Communities project that provided research funding (Grant No. ENG590898a).
Disclosure statement
No potential conflict of interest was reported by the authors.