Determination of the adsorption isotherms of two flour formulations based on plantain (Musa x paradisiaca) and cassava (Manihot esculenta) intended for the preparation of Foutou

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Research Paper 01/03/2021
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Determination of the adsorption isotherms of two flour formulations based on plantain (Musa x paradisiaca) and cassava (Manihot esculenta) intended for the preparation of Foutou

BL. Yao, AC. Diemeleou, FG. Messoum, K. Tanoh, A. Dembélé
Int. J. Agron. Agri. Res.18( 3), 46-54, March 2021.
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Abstract

This study aims to experimentally determine the adsorption isotherms of two flour formulations consisting of plantain and cassava, intended for the preparation of foutou, a traditional African dish. The bananas and cassava used come from the Agneby-Tiassa region and the Abidjan district. The collected data obtained after analyses were subjected to statistical processing which included nonlinear regression analyzes. The results revealed that the determined adsorption isotherms are type II characterized by a sigmoidal shape. In addition, the GAB model (for 25 and 30°C) and the Peleg model (for 40°C) showed good agreement with the experimental data. Thus, these models make it possible to predict the hygroscopic behavior of the product during storage at these different temperatures.

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Akanbi CT, Adeyemi RS, Ojo A. 2006. Drying characteristics and sorption isotherm of Tomato slices. Journal of Food Engineering 73, 157-163.

Al-Muhtaseb A, McMinn WAM, Magee TRA. 2004. Water sorption isotherms of starch powders. Part 2: Thermodynamic characteristics. Journal of Food Engineering 62(2), 135-142.

Arévalo-Pinedo A, Giraldo-Zuñiga AD, Santos FL, Arévalo ZDS, Arévalo RP. 2004. Application of mathematical models of two and three parameters in the prediction of sorption isotherms for Ingá (Ingá edulis) pulp. In: Drying 2004 – Proceedings of the 14th International Drying Symposium (IDS 2004) São Paulo, Brazil A 628-633.

BNETD. (Bureau National d’Etude Technique et de Développement), 1998. “Rapport final sur le plan directeur du développement agricole,” p.12.

Brou KS, Yué BYC, Konan KH, Tano K. 2014. Comparison and modeling of adsorption isotherms of tropical vegetables: plantain (Musa paradisiaca AAB var.Corne 1), okra (Abelmoschus esculentus var. Tomi) and bell pepper (Capsicumannuum var. Pm17/04a). International Journal of Development Research 4(9), 1868-1874.

Brunauer S, Emmett PH, Teller E. 1938. Adsorption of gases in multimolecular layers. Journal of the American Chemical Society 60, 309-319.

FAO 2012. Food and Agriculture Organization of the United Nations. Etude de la filière Banane plantain en Cote d’Ivoire (PENIA) 66p.

Farahnaky A, Ansari S, Majzoobi M. 2009. Effect of glycerol on the moisture sorption isotherms of figs. Journal of Food Engineering 93, 468-473.

Ferradji A, Acheheb H, Malek A, Hadjad N. 2008b. Isotherme d’adsorption à 25 et 45°C des pommes chargées de solutés et séchées. Revues des Energies Renouvelables 11(4), 165-177.

Ferradji A, Matallah MAA, Malek A. 2008a. Conservation des dates “Deglet Nour” Isotherme d’adsorption à 25, 30 et 50°C. Revues des Energies Renouvelables 8, 207-219.

Ferradji A, Malek A. 2005. Isotherme d’adsorption des Abricots Secs à 25 et 45°C. Revues des Energies Renouvelables 8(1), 39-48.

García-Pérez JV, Cárcel JA, Clemente G & Mule A. 2008. Water sorption isotherms for lemon peel at different temperatures and isosteric heats. Lebensmittel-Wissenschaft und Technologie 41, 18-25.

Goula AM, Karapantsios TD,  Dimitris SA, Adamopoulo KG. 2008. Water sorption isotherms and glass transition temperature of spray dried tomato pulp. Journal of Food Engineering 85(1), 73-83.

Greenspan L. 1977. Humidity Fixed Points of Binary Saturated Aqueous Solutions. Journal of Research of the National Bureau of Standards-A Physics and Chemistry 81A, 89-96.

Johnson PNT, Brennan JG. 2000. Moisture sorption isotherm characteristics of plantain (Musa, AAB). Journal of Food Engineering 44, 79-84.

Karel M. 1975. Physico-chemical modification of the water in foods – Aspeculative survey. In Duckworth R. B (Ed.)Water Relations of Foods. Academc Press, New York 639-651.

Koko AC, Diomandé M, Kouame KB, Assidjo NE. 2018. Détermination expérimentale et modélisation des isothermes d’adsorption d’eau des amandes d’Irvingia gabonensis de la région du Haut-Sassandra (Côte d’Ivoire). Journal of Environmental Science, Toxicology and Food Technology 12(2), 50-60.

Kouhila M, Belghit A, Daguenet M, Boutaleb BC. 2001. Experimental determination of the sorption isotherms of mint (Mentha viridis). Sage (Salviaofficinalis) and verbena (Lippia citriodora). Journal of Food Engineering 47, 281-287.

Labuza TP. 1984. Application of chemical kinetics to deterioration of foods. Journal of Chemical Education 61, 348-358.

Lang KW,  McCUNE TD, Steinberg MP. 1981. A Proximity Equilibration Cell for Rapid Determination of Sorption Isotherms. Journal of Food Science 46(3), 936-938.

Maroulis ZB, Tsami E, Marinos-Kouris D, Saravacos GD. 1988. Application of the gab model to the moisture sorption isotherms for dried fruits.Journal of Food Engineering 7(1), 63-78.

McMinn WAM, McKee DJ, Magee TRA. 2007. Moisture adsorption behaviour of oatmeal biscuit and oat flakes. Journal of Food Engineering 79(2), 481-493.

Medeiros ML, Ayrosa A MB, Pitombo R NM, Lannes SCS. 2006. Sorption isotherms of cocoa and capuassu products. Journal of Food Engineering     73, 402-406.

Oluwamukomi M. 2009. Adsorption isotherm of soy-melon-enriched and un-enriched gari using GAB equation. African Journal of Food Science 3(5), 117-124.

Roca E, Broyart B, Guillard V, Guilbert S, Gontard N. 2008. Predicting moisture transfert and shelf-life of multidomain food products. Journal of Food Engineering 86, 74-83.

Thiémélé DEF, Traoré S, Aby N, Gnonhouri P, Yao N, Kobenan K, Konan E, Adiko A, Zakra N. 2017. Diversité et sélection participative de variétés locales productives de banane plantain de Côte d’Ivoire.Journal of Applied Biosciences 114, 11324-11335.

Tonon RV,  Brabet C, Gibert O,  Pallet D, Hubinger MD. 2009. Water sorption and glass transition temperature of spray dried açai (euterpe oleracea mart.) juice. Journal of Food Engineering 48(2), 215-221.

Vega‐Gálvez A,  Bilbao‐Sáinz C, Yagnam F,  Rojas A. 2008. Mass transfer kinetics during convective drying of red pepper var. hungarian (capsicum annuum l.): mathematical modeling and evaluation of kinetic parameters. Journal of Food and Process Engineering 31(1), 120-137.

Wolf W, Spiess W, Jung G. 1985. Standardisation of isothermmeasurements (COST-project 90 and 90 bis). In D Simatos, & J. L. Multon (Eds.). Properties of water in Food. Dordrecht, The Netherlands.: Martinus Nijhoft Publishers, 661-679.

YAO BL, Ajoumani AL, Messoum FG, Kpan Kpan KG, Dembélé A, Tano K. 2019. Étude des caractéristiques biochimiques, fonctionnelles et sensorielles de différentes formulations de farine à base de banane plantain (musa x paradisiaca) et du manioc (manihot esculenta) destinées à la préparation du foutou. Journal Afrique SCIENCE 15(4), 232-244.

Yué B YC, Tano K. 2008. Experimental Determination of the Sorption Isotherms of “Beta” Lactose, New Water Absorbent and Sodium Bicarbonate. Journal of Food Technology 6(4), 152-157.