Emmanuel S.A. Ajisegiri scite author profile

Adsorption-desorption behavior of maize and sorghum between a, = 0.10 -0.98 at temperatures of 20, 25 and 40C was studied. The grains exhibited type I1 sorption isotherm. The sorption data were analyzed using six sorption models and the coeflcients of determination were between 0.6965-0.9994. The Caurie model gave the poorest fit and the Henderson model the best. Some models were better for adsorption than for desorption. The GAB and BET monolayer moisture contents were not significantly @ > 0.05) different. Monolayer values were temperature-dependent with activation energy from I . 36-10.08 MJ/moE and the maize monolayer values exhibited the highest sensitivity to temperature. Heat of sorption was obtained by applying Claussius-Clapeyron equation to the sorption isotherms at the three temperatures. The heat of sorption decreased with an increase in moisture content and an exponential equation was used to describe the relationship. The processing and storage consequences of this information were discussed.

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Moisture sorption isotherms of Nigerian millet at varying temperatures

Ajisegiri

Sopade

1990

Journal of Food Engineering

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Moisture‐sorption Isotherms of Irish and Sweet Potatoes

Sopade¹,

Ajisegiri²,

Chukwu³

et al. 2010

J Food Process Engineering

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The sorption properties of dried white varieties of Irish and sweet potatoes were studied at 34C over a range of water activity, 0.10–0.98. A static gravimetric procedure was employed and five sorption models – Bradley; Brunauer, Emmet and Teller (BET); Oswin; Henderson; and Guggenheim, Anderson and de Boer (GAB) – were used in the analysis. For the entire isotherm, both Bradley and Henderson models were suitable for the Irish potato, while Oswin and Bradley models better described the behavior of the sweet potato. Monolayer moisture contents (Mo) for the two potato varieties were calculated using both the BET and GAB equations, and it was found that both crops exhibited the BET type II pattern. The Mo for the two varieties were recommended as the least moisture required for stable storage. PRACTICAL APPLICATIONS Information on moisture sorption regime is required for the storage and the enhancement of stability of stored potatoes both in raw and processed forms. Moisture sorption isotherm is also needed for the prediction and practice of drying, frying and other thermo‐related processing of potatoes. It is also required in the determination of critical values for processing such asequilibrium moisture content, critical moisture content and other moisture regimes. It is, in addition, required for the determination of the minimum moisture required for stability of the processed potatoes and therefore necessary information during packaging, and the determination/selection of packaging materials.

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Moisture-sorption isotherms of Bambara nut and Tiger nut

Chukwu

Ajisegiri

2011

IJPTI

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