Drying kinetics and mathematical modeling of hot air drying of coconut coir pith

Drying kinetics of coir pith was studied and the properties of compressed coir pith discs were analyzed. Coir pith particles were oven dried in the range of temperatures from 100 to 240 °C and the rehydration ability of compressed coir pith was evaluated by finding the volume expansion. The optimum...

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Bibliographic Details
Published in:SpringerPlus 2016-06, Vol.5 (1), p.807-807, Article 807
Main Authors: Fernando, J. A. K. M., Amarasinghe, A. D. U. S.
Format: Article
Language:English
Subjects:
Engineering
Humanities and Social Sciences
multidisciplinary
Science
Science (multidisciplinary)
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Summary:Drying kinetics of coir pith was studied and the properties of compressed coir pith discs were analyzed. Coir pith particles were oven dried in the range of temperatures from 100 to 240 °C and the rehydration ability of compressed coir pith was evaluated by finding the volume expansion. The optimum drying temperature was found to be 140 °C. Hot air drying was carried out to examine the drying kinetics by allowing the coir pith particles to fluidize and circulate inside the drying chamber. Particle motion within the drying chamber closely resembled the particle motion in a flash dryer. The effective moisture diffusivity was found to increase from 1.18 × 10 −8 to 1.37 × 10 −8 m 2 /s with the increase of air velocity from 1.4 to 2.5 m/s respectively. Correlation analysis and residual plots were used to determine the adequacy of existing mathematical models for describing the drying behavior of coir pith. The empirical models, Wang and Singh model and Linear model, were found to be adequate for accurate prediction of drying behavior of coir pith. A new model was proposed by modifying the Wang and Singh model and considering the effect of air velocity. It gave the best correlation between observed and predicted moisture ratio with high value of coefficient of determination (R 2 ) and lower values of root mean square error, reduced Chi square (χ 2 ) and mean relative deviation (E%).
ISSN:2193-1801
2193-1801
DOI:10.1186/s40064-016-2387-y