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Revista mexicana de ingeniería química

versión impresa ISSN 1665-2738

Rev. Mex. Ing. Quím vol.14 no.2 Ciudad de México may./ago. 2015

 

Ingeniería de alimentos

 

Nixtamalization assisted with ultrasound: effect on mass transfer and physicochemical properties of nixtamal, masa and tortilla

 

Nixtamalización asistida con ultrasonido: efecto en la transferencia de masa y propiedades fisicoquímicas de nixtamal, masa y tortilla

 

L.E. Moreno-Castro1, A. Quintero-Ramos1*, M.G. Ruiz-Gutiérrez1, M.Á. Sánchez-Madrigal1, C.O. Meléndez-Pizarro1, I. Pérez-Reyes1 and D. Lardizábal-Gutiérrez2

 

1 Universidad Autónoma de Chihuahua, Facultad de Ciencias Químicas, Circuito Universitario s/n. Campus Universitario # 2, Chihuahua, Chihuahua México C.P. 31125. *Corresponding author. E-mail: aqura60@gmail.com; aquinter@uach.mx Tel. +52 614-23-66-000.

2 Centro de Investigación en Materiales Avanzados, S. C. Avenida Miguel de Cervantes 120, Complejo Industrial. Chihuahua, Chihuahua, México.

 

Received December 7, 2014
Accepted April 20, 2015

 

Abstract

The effects of ultrasound during maize nixtamalization at different temperatures on the properties of nixtamal, masa and tortilla were evaluated. White maize; was nixtamalized at 85 and 95 °C, with and without ultrasound (843 W-m-2). Pericarp removal, the water and calcium absorption kinetics, and the apparent diffusion coefficients (DA) from Fick's second law, the thermal and structural properties of the nixtamalized flours and thee texture of the masa and tortillas were; determined. The ultrasound and temperature affected significantly the water and calcium absorptions kinetics, showing linear and asymptotic tendencies during cooking and steeping , respectively. These were described adequately by Fick's model, and the ultrasound significantly increased the DA of water (2.54-3.93x 10-10m2.s-1). Over 80% of the pericarp was removed during cooking. The gelatinization enthalpy showed a decreaseat 95 °C. Microscopy images showed spherical and polygonal granules at 85 °C, and a shape loss with increasing diameter by ultrasound effect (95 °C). Nixtamalization assisted by ultrasound reduced the processing time compared with traditional or industrial process.

Key words: nixtamalization, ultrasound, calcium, texture, tortilla.

 

Resumen

Se evaluó el efecto del ultrasonido durante la nixtamalización a diferentes temperaturas en las propiedades de nixtamal, masa y tortilla. Se nixtamalizó maíz; blanco a 85 y 95 °C, con y sin ultrasonido (843 W-m-2). Se determinaron cinéticas de remoción de pericarpio, de absorción de agua y calcio, coeficientes de difusión aparente (DA) a partir de la segunda ley de Fick, propiedades térmicas y estructurales de las harinas nixtamalizadas y textura de masa y tortillas. El ultrasonido y la temperatura afectaron significativamente a las cinéticas de absorción de agua y calcio, mostrando una tendencia lineal y asintótica durante la cocción y el reposo, respectivamente. Estas fueron descritas adecuadamente por el modelo de Fick, y el ultrasonido incrementó significativamente el DA de agua (2.54-3.93x10-10m2.s-1). Más del 80% del pericarpio fue removido durante la cocción. La entalpia de gelatinización mostró una disminución a 95 °C. Las imágenes de microscopía mostraron gránulos esféricos y poligonales a 85 °C, y una pérdida de su forma con incrementos en el diámetro por efecto del ultrasonido (95 °C). La nixtamalización asistida con ultrasonido redujo el tiempo de proceso comparado con un proceso tradicional o industrial.

Palabras clave: nixtamalización, ultrasonido, calcio, textura, tortilla.

 

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References

Alvarado, G., Vargas, H., Sánchez, F., González, J. and Miranda, L. (1999). Effect of time content on the processing conditions of cooked maize tortillas: change of thermal structural and rheological properties. Optical Engineering 36, 348-357.         [ Links ]

AOAC (1998). Official Methods of Analysis ofAOAC International, Association of Official Analytical Chemists International, Washington.         [ Links ]

Arámbula-Villa, G. González-Hernández, J. and Ordorica-Falomir, C.A. (2001). Physicochemical, structural and textural properties of tortillas from extruded instant corn flour supplemented with various types of corn lipids. Journal Cereal Science 33, 245-252.         [ Links ]

Atkin, N.J., Abeysekera, R.M. and Robards, A.W. (1998). The events leading to the formation of ghost remnants from the starch granule surface and the contribution of the granule surface to the gelatinization endotherm. Carbohydrate Polymers 36, 193-204.         [ Links ]

Bedolla, S. and Rooney, L.W. (1982). Cooking maize for masa production. Cereal Foods World 27, 219-221.         [ Links ]

Bonner, O.D. and Cerutti, P.J. (1976). The partial molar heat capacities of some solutes in water and deuterium oxide. Journal of Chemistry Thermodynamics 8, 105-112.         [ Links ]

Chemat, F., Hume, Z. and Khan, M.K. (2011). Applications of ultrasound in food technology: Processing, preservation and extraction. Ultrasonics Sonochemistry 18, 813-835.         [ Links ]

Chen, P., Yu, L., Kealy, T., Chen, L. and Li, L. (2007). Phase transition of starch granules observed by microscope under shearless and shear conditions. Carbohydrate Polymers 68, 495-501.         [ Links ]

Cortés-Gómez, A., San Martín-Martínez, E., Martínez-Bustos, F. and Vázquez-Carrillo, G. (2005). Tortilla of blue maize (Zea mays L.) prepared by a fractionated process of nixtamalization: Analysis using response surface methodology. Journal of Food Engineering 66, 273-281.         [ Links ]

Ebringerová, A. and Hromádkova, Z. (2010). An overview on the application of ultrasound in extraction, separation and purification of plant polysaccharides. Central European Journal of Chemistry 8, 243-257.         [ Links ]

Estrada-Girón, Y., Aguilar, J., Morales-del Rio, J.A., A.J. Valencia-Botin, A.J., Guerrero-Beltrán, J.A., Martínez-Preciado, A.H., Macías, E.R., Soltero, J.F.A., Solorza-Feria, J. and Fernández, V.V.A. (2014). Effect of moisture content and temperature, on the rheological, microstructural and thermal properties of masa (dough) from a hybrid corn (Zea mays sp.) variety. Revista Mexicana de Ingeniería Química 13, 429-446.         [ Links ]

Fernández-Muñoz, J., Rojas-Molina, I., González-Dávalos, M.L., Leal, M., Valtierra, M.E., San Martín-Martínez, E. and Rodríguez, M.E. (2004). Study of calcium ion diffusion in components of maize kernels during traditional nixtamalization process. Cereal Chemistry 81, 65-69.         [ Links ]

Fernández-Muñoz, J., San Martín-Martínez, E., Díaz-Góngora, J., Calderón, A., Alvarado-Escobar, A., Ortiz-Cárdenas, H. and Leal-Pérez, M. (2006). Steeping time and cooking temperature dependence of calcium ion diffusion during microwave nixtamalization of corn. Journal of Food Engineering 7, 568-572.         [ Links ]

Gaytán-Martínez, M., Martínez-Bustos, F. and Morales-Sánchez, E. (2000). Aplicación de un proceso de cocimiento dieléctrico en la elaboración de harinas instantáneas de maíz amarillo para preparación de frituras de masa y tortillas. Archivos Latinoamericanos de Nutrición 50, 366-373.         [ Links ]

González, R., Reguera, E., Mendoza, L., Figueroa, M. and Sánchez-Sinencio, F. (2004). Physicochemical changes in the hull of corn grains during their alkaline cooking. Journal of Agricultural and Food Chemistry 52, 3831-3837.         [ Links ]

González, R., Reguera, E., Figueroa, J.M. and Sánchez-Sinencio, F. (2005). On the nature of the Ca binding to the hull of nixtamalized corn grains. LWT-Food Science and Technology 38, 119-124.         [ Links ]

Hatton, W.E., Hildenbrand, D.L., Sinke, G.C., Stull, D. R. (1959). The chemical thermodynamic properties of calcium hydroxide. Journal of the American Chemical Society 81, 5028-5030.         [ Links ]

Huijbrechts, A., Desse, M., Budtova, T., Franssen, M., Visser, G., Boeriu, C. and Sudholter, E. (2008). Physicochemical properties of etherified maize starches. Carbohydrate Polymers 74, 170-184.         [ Links ]

Janve, B., Yang, W., Kozman, A., Sims, C., Texeira, A. Gunderson, M.A., Rababa, T.M. (2013). Enhancement of corn nixtamalization by power ultrasound. Food and Bioprocess Technology 6, 1269-1280.         [ Links ]

Johnson, B.A., Rooney, L.W., and Khan, M.N. (1980). Tortilla making characteristics of micronized sorghum and corn flours. Journal of Food Science 46, 671.         [ Links ]

Laria, J., Meza, E., Mondragón, M., Silva, R. and Peña, J. (2005). Comparison of overall water uptake by corn kernel with and without dissolved calcium hydroxide at room temperature. Journal of Food Engineering 67, 451-456.         [ Links ]

Laria, J., Meza, E. and Peña, J. (2007). Water and calcium uptake by corn kernel during alkaline treatment with different temperature profiles. Journal of Food Engineering 78, 288-295.         [ Links ]

Lide, D.R. (2005). Handbook of Chemistry and Physics, Internet Version 2005, http://www.hbcpnetbase.com, CRC Press, pp. 5-93. Boca Raton, FL.         [ Links ]

Lingyun, W., Jianhua, W., Xiadong, Z., Da, T., Yalin, Y., Chenggang, C., Tianhua, F. and Fan, Z. (2006). Studies on the extracting technical conditions of inulin from Jerusalem artichoke tubers. Journal of Food Engineering 79, 1087-1093.         [ Links ]

Lloyd, R.W. and Millares-Sotres, R. (1952). Method of making a tortilla flour. US patent 2,584,893.         [ Links ]

Lu, R., Siebenmorgen, J. and Archer, R. (1994). Absorption of water in long-grain rough rice during soaking. Journal of Food Process Engineering 17, 141-154.         [ Links ]

Maple V 16. Maplesoft. (2012). Waterloo Maple Software Inc, Waterloo, Ontario.         [ Links ]

Martínez-Bustos, F., Martínez-Flores, H.E., San Martín-Martínez, E., Sánchez-Sinencio, F., Chang, Y.K., Barrera-Arellano, D. and Ríos, E. (2001). Effect of the components of maize on the quality of masa and tortillas during the traditional nixtamalisation process. Journal of the Science of Food and Agriculture 81, 1455-1462.         [ Links ]

Mason, T.J. (2000). Sonochemistry. Oxford Chemistry Primers, pp. 68. Oxford, UK,         [ Links ]

Mason, T., Paniwnyk, L. and Chemat, F. (2003). Ultrasound as a Preservation Technology, In: Food Preservation Techniques. (P. Zeuthen and L. Bǿgh-Sǿrensen Woodhead Publishers, eds.) pp. 303-337, Cambridge, UK,         [ Links ]

Mensah-Agyapong, J. and Horner, A.F.W. (1992). Nixtamalization of maize (Zea mays L.) using a single screw cook-extrusion process on lime-treated grits. Journal of the Science of Food and Agriculture 60, 509-514.         [ Links ]

Minitab (2010). Statistical Software Minitab 16. Minitab, Inc., State College, PA, USA.         [ Links ]

Mondragón, M., Bello-Pérez, L.A., Agama-Acevedo, E., Betancur-Ancona, D. and Peña, J.L. (2004). Effect of cooking time, steeping and lime concentration on starch gelatinization of corn during nixtamalization. Starch/Starke 56, 248-253.         [ Links ]

O'Donnell, C.P., Tiwari, B.K., Bourke, P. and Cullen, P.J. (2010). Effect of ultrasonic processing on food enzymes of industrial importance. Trends in Food Science & Technology 21, 358-367.         [ Links ]

Pardo-Rueda, A.J., Quintero-Ramos, A., Genovese, D. B., Camacho-Dávila, A., Zepeda-Rodríguez, A., Contreras-Esquivel, J.C., Bizarro, A.P. (2015). Efficient extraction of fructans from sotol plant (Dasylirion leiophyllum) enhanced by a combination of enzymatic and sonothermal treatments. Food Bioproduct Processing 94, 398-404. http://dx.doi.org/10.1016/j.fbp.2014.05.005.         [ Links ]

Quintero-Ramos, A., Bourne, M.C., Barnard, J., Anzaldúa-Morales, A., González-Laredo, R., Pensaben-Esquivel, M. and Márquez-Meléndez, R. (2003). Kinetics of absorption of calcium ion into carrot tissue during immersion in calcium chloride solutions. Journal of Food Processing and Preservation 27, 75-85.         [ Links ]

Quiroz-Reyes, C.N., Aguilar-Méndez, M.A., Ramírez-Ortiz, M.E. and Ronquillo-De Jesús, E. (2013). Comparative study of ultrasound and maceration techniques for the extraction of polyphenols from cocoa beans (Theobroma cacao L.). Revista Mexicana de Ingeniería Química 12, 11-18.         [ Links ]

Rawson, A., Tiwari, B.K., Tuohy, M.G., O'Donnell, C.P. and Brunton, N. (2011). Effect of ultrasound and blanching pretreatments on polyacetylene and carotenoid content of hot air and freeze dried carrot discs. Ultrasonics Sonochemistry 18, 1172-1179.         [ Links ]

Robles, R.R., Murray, E.D. and Paredes-López, O. (1988). Physicochemical changes of maize starch during the lime-heat treatment for tortilla making. International Journal of Food Science and Technology 23, 91-98.         [ Links ]

Rodríguez, M.E., Yáñez, J. M., Cruz-Orea, J., Alvarado-Gil, J.J., Zelaya-Ange, O., Sánchez-Sinencio, F., Vargas, H., Figueroa, J.D., Martínez-Bustos, F., Martínez-Montes, J.L., González-Hernández, J. and De Moura-Miranda, L.C. (1995). The influences of slake content on the processing conditions of cooked maize tortillas: changes of thermal structural and rheological properties. Zeitschrift für Lebensmittel-Untersuchung und Forschung 201, 236-240.         [ Links ]

Rosentrater, K.A., Richard, T.L., Bern, C. and Flores, R.A. (2003). Economic simulation modeling of reprocessing alternatives for corn masa by products. Resources Conservation and Recycling 39, 341-367.         [ Links ]

Ruiz-Gutiérrez, M.G., Quintero-Ramos, A., Meléndez-Pizarro, C.O., Lardizábal-Gutiérrez, D., Barnard, J., Márquez-Meléndez, R. and Talamás-Abbud, R. (2010). Changes in mass transfer, thermal and physicochemical properties during nixtamalization of corn with and without agitation at different temperatures. Journal of Food Engineering 98, 76-83.         [ Links ]

Ruiz-Gutiérrez, M.G., Quintero-Ramos,A., Meléndez-Pizarro, C.O., Talamás-Abbud, R., Barnard, J., Márquez-Meléndez, R. and Lardizabal-Gutiérrez, D. (2012). Nixtamalization in two steps with different calciumsalts and the relationship with chemical, texture and thermal properties in masa and tortilla. Journal of Food Process and Engineering 35, 772-783.         [ Links ]

Sánchez-Madrigal, M.A., Meléndez-Pizarro, C.O., Martínez-Bustos, F., Ruiz-Gutiérrez, M.G., Quintero-Ramos, A., Márquez-Meléndez, R., Lardizábal-Gutiérrez, D. and Campos-Venegas, K. (2014). Structural, functional, thermal and rheological properties of nixtamalised and extruded blue maize (Zea mays L.) flour with different calcium sources. International Journal of Food Science and Technology 49, 578-586.         [ Links ]

Soto-León, S., Zazueta-Patrón, I.E., Piña-Valdéz, P., Nieves-Soto, M., Reyes-Moreno, C. and Contreras-Andrade, I. (2014). Extracción de lípidos de Tetraselmis suecica: Proceso asistido por ultrasonido y solventes. Revista Mexicana de Ingeniería Química 13, 723-737.         [ Links ]

Suhendro, E. Almeida, H., Rooney, L. and Waniska, R. (1998). Objective rollability method for corn tortilla texture measurement. Cereal Chemistry 75, 320-324.         [ Links ]

Toma, S., Gaplovsky, A. and Luche, J.L. (2001). The effect of ultrasound on photochemical reactions. Ultrasonics Sonochemistry 8, 201-207.         [ Links ]

Verma, R. and Prasad, S. (1999). Kinetics of absorption of water by maize grains. Journal of Food Engineering 39, 395-400.         [ Links ]

Wang, Y.J., Chong, S.W. and Yang, W. (2006). Effect of pericarp removal on properties of wet-milled corn starch. Cereal Chemistry 83, 25-27.         [ Links ]

Yang, W., Liu, Z. and Siebenmorgen, T. (2002). Ultrasound processing of foods-A case study of corn component separation. ASAE Paper No. 026022. ASAE: St. Joseph, MI.         [ Links ]

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