Adsorption and desorption process for high recovery and purification of anthocyanins from (Clitoria ternatea L) using macroporous resins

Abstract

The intense coloration of the petals of the butterfly bean flowers (Clitoria Ternatea L.) is attributed to high content of anthocyanins, which are considered as an antioxidant phytochemicals that have many health benefits. In this context, it is so important to implement a new method for the separation and purification of phenolic compounds. Therefore, the objective of this work was to evaluate the adsorption and desorption behavior of anthocyanins extracted from the petals of the butterfly bean flowers, using six different macroporous adsorption resins (XAD 2, XAD 4, XAD 7HP, DAX 8. XAD 1180 N and XAD 16), and to identify the best type of resin for anthocyains recovery from butterfly bean flowers extract. The XAD7HP and DAX8 resins showed high adsorption capacity, (248.55 ± 8.8 mg/g) and (228.84 ± 16.9 mg/g) at pH 5, and the highest recovery values for anthocyanins; (75.66 ± 1.1%) and (52.64 ± 1.2%), respectively. The Langmuir model described better the adsorption isotherm process on DAX 8, in turn, the experimental data of equilibrium were better fitted by Freundlich model for isotherm adsorption of anthocyanin on XAD7HP resin. The pseudo-second order model was the best to fit the experimental data of the adsorption kinetics at the different temperatures used. Both resins XAD 7HP and DAX 8 presented high recovery of anthocyanin, comparing with conventional extracted methods the purified anthocyanin using XAD 7HP and DAX 8 can be used as biological compounds with more purity for food and pharmaceutical applications.