Process Optimisation of Effective Partition Constant in Coconut Water via Progressive Freeze Concentration

Concentration technique via progressive freeze concentration was applied to increase the concentration of coconut water for commercialisation. The process will eliminate portion of water from coconut water and retain pure nutritional compound with high sugar content. To obtain the optimum condition,...

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Bibliographic Details
Published in:Chemical engineering transactions Vol. 63
Main Authors: Mazura Jusoh, Noor Naimah Mohamed, Norshafika Yahya, Rohashimah Musa, Zurina Mohamad, Norzita Ngadi, Roshanida A Rahman, Anwar Johari, Zaki Yamani Zakaria
Format: Journal Article
Language:English
Published: AIDIC Servizi S.r.l 01-05-2018
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Summary:Concentration technique via progressive freeze concentration was applied to increase the concentration of coconut water for commercialisation. The process will eliminate portion of water from coconut water and retain pure nutritional compound with high sugar content. To obtain the optimum condition, which is the objective of this study, optimisation process was conducted using Response Surface Methodology (RSM) through STATISTICA Software. RSM was utilised to optimise the process parameters for effective partition constant(K) in progressive freeze concentration (PFC) of the coconut water. The effects of circulation flowrate, circulation time, initial solution concentration and coolant temperature on effective partition constant were observed. Results show that the data adequately fit the second-order polynomial model. The linear and quadratic independent variables, circulation flowrate, circulation time, initial concentration and coolant temperature have significant effects as well as interactions on the effective partition constant. It was observed that the optimum process parameters within the experimental range for the best K would be with circulation flowrate of 3,400 mL/min, circulation time of 23 min, initial concentration of 3.4 % Brix and coolant temperature of -7 °C. Under these conditions, the K can be enhanced up to 0.3.
ISSN:2283-9216
DOI:10.3303/CET1863068