Publication: Deodorization of coconut oil using activated charcoal and charcoal regeneration
10
Issued Date
2012-01-01
Resource Type
ISSN
14590263
14590255
14590255
Other identifier(s)
2-s2.0-84869136251
Rights
Mahidol University
Rights Holder(s)
SCOPUS
Bibliographic Citation
Journal of Food, Agriculture and Environment. Vol.10, No.3-4 (2012), 178-181
Suggested Citation
Mohammad N. Eshtiaghi, Jarupan Kuldiloke, Nuttawan Yoswathana Deodorization of coconut oil using activated charcoal and charcoal regeneration. Journal of Food, Agriculture and Environment. Vol.10, No.3-4 (2012), 178-181. Retrieved from: https://repository.li.mahidol.ac.th/handle/123456789/13509
Research Projects
Organizational Units
Authors
Journal Issue
Thesis
Title
Deodorization of coconut oil using activated charcoal and charcoal regeneration
Other Contributor(s)
Abstract
The deodorization of virgin coconut oil using activated charcoal was studied. Deodorization carried out at different coconut/active charcoal ratio (1:2 to 1:8 w/w charcoal:oil ratio). The effect of agitation, vacuum, and size of active charcoal (granular 2.36 mm, middle size 1 mm and powder 0.45 mm) were investigated. The sensory and gas chromatography methods were used to evaluate the deodorization efficiency. The results of deodorization have shown that active charcoal powder is the most effective for deodorization compared to granular and middle size charcoal. Within 1 day the virgin coconut oil could be deodorized after applying 1:2 w/w active charcoal powder:oil. Decreasing the charcoal to oil ratio prolong the deodorization time. The GC analysis of deodorized coconut oil have shown that nearly all composition of virgin coconut oil remain unchanged during deodorization using active charcoal. Used active charcoal containing oil was subjected to oil extraction and regeneration. Extraction of used charcoal using hexane solvent and subsequent evaporation of hexane residue in oven yielded up to 80% reactivation of used active charcoal. Further increasing the activity of used regenerated charcoal could be achieved using chemical charcoal activation by means of ZnCl 2 . Up to 100% recovery of activity could be achieved after ZnCl 2 reactivation of regenerated active charcoal. Subcritical water (at 200°C, 30 min) as physical and environmentally friendly method was suitable for regeneration of used charcoal. Nearly up to 90% recovery of activity could be achieved after subcritical water treatment.