The external mass transfer model for the hydrolysis of palm olein using immobilized lipase in a scaled-up recirculated packed-bed reactor

Abstract

An external mass transfer model has been developed for immobilized lipase at small scale, which is JD = 0.093Re−0.5. However, this developed model has not been validated at a larger scale before it can be applied in the industry. Thus, the objective of this study is to validate the external mass transfer model for the hydrolysis of palm olein using immobilized lipase in a scaled-up recirculated packed-bed batch reactor (RPBBR). The hydrolysis of palm olein in RPBBR was run at different flow rates. The values of the mass transfer coefficient, km from experiments were compared with the value of km calculated from theoretical. From the result, percent error between theoretical km values and experimental km values were around 2% to 30% for different flow rates. One correction had been made on the external mass transfer model for the immobilized lipase in the packed-bed reactor to increase the accuracy of the model. The form of the more accurate external mass transfer model for immobilized lipase in the packed-bed reactor for a scaled-up RPBBR is JD = 0.093xRe−0.5, where x is a correction factor. The average value of the correction factor, x found is 1.194725. This work can be further investigated to involve higher concentration using a more complete kinetic model such as ping-pong bi-bi model and Michaelis-Menten model as well as the surface modification of enzyme.