Use of continuous bubble separation process for separating and recovering starch and mucilage from yam ( Dioscorea pseudojaponica yamamoto)

The yam ( Dioscorea pseudojaponica Yamamoto) tuber is abundant in both starch and mucilage. It is difficult to separate yam starch from its tuber because of the presence of viscous polysaccharide polymers (glycoprotein). The surface-active polysaccharide-containing complexes are capable of forming f...

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Bibliographic Details
Published inFood science & technology Vol. 38; no. 7; pp. 735 - 744
Main Authors Fu, Yi-Chung, Huang, Pau-Yau, Chu, Chiao-Jung
Format Journal Article
LanguageEnglish
Published Oxford Elsevier Ltd 01.01.2005
Elsevier
Subjects
ash content
Biological and medical sciences
Bioseparation
Bubble separation
chemical composition
continuous systems
crude protein
Dioscorea
Food industries
food processing
Fundamental and applied biological sciences. Psychology
glycoproteins
lipid content
Mucilage
mucilages
separation
solubility
Starch
Starch and starchy product industries
Yam
yams
Bubble separation
Yam
Mucilage
Starch
Bioseparation
Monocotyledones
Separation
Use
Dioscoreaceae
Continuous process
Bubble
Angiospermae
Tuber
Dioscorea
Separation process
Carbohydrate
Spermatophyta
Polysaccharide
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Summary:The yam ( Dioscorea pseudojaponica Yamamoto) tuber is abundant in both starch and mucilage. It is difficult to separate yam starch from its tuber because of the presence of viscous polysaccharide polymers (glycoprotein). The surface-active polysaccharide-containing complexes are capable of forming foams. The goal of this study was to develop a continuous bubble separation process for separating and recovering starch and mucilage from yam tubers in the absence of undesirable chemical additives or treatments. The results showed that the highest concentration (13.2 g/100 g) of yam slurry mucilage was obtained with a reasonably high yield of recovered starch (91.2 g/100 g) by treating the starch paste with 1 g/100 g Viscozyme ® L and Pectinex ® Ultra SP-L. In comparison with the total amount of yam fed into the system, the yield of soluble carbohydrates and protein in separated mucilage were 98.8 g/100 g and 74.1 g/100 g, respectively. The chemical composition of the separated freeze-dried mucilage was shown to be high in soluble carbohydrates (52.5 g/100 g, dry basis) and protein (40.3 g/100 g, dry basis). A very low amount of starch (0.8 g/100 g) remained in the mucilage. This method is simple, low in operational and capital costs, and especially suitable for polysaccharide–protein-containing complexes recovering from a starch-containing system.
ISSN:0023-6438
1096-1127
DOI:10.1016/j.lwt.2004.09.008