Variación del color de macroalga Lessonia trabeculata deshidratada con secador de rayos infrarrojos

IF 0.6 Q3 MULTIDISCIPLINARY SCIENCES Revista Investigaciones Altoandinas-Journal of High Andean Research Pub Date : 2022-02-21 DOI:10.18271/ria.2022.309
Daphne H. Castro Arata, Yuri K. Castillo Flores, Edwin L lamoca Domínguez, Joanuel Anthony Quinteros, Sheda Méndez Ancca
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引用次数: 1

Abstract

Fishmeal concentrates a high percentage of protein and its monetary cost is relatively high, searching for possible alternatives in macroalgae for improvement purposes is an option. Color is a fundamental characteristic of food, however, drying by the Infrared method as an emerging technology for the study of the macroalga Lessonia trabeculata is little studied. For this reason, the degradation and change of color in the drying process by infrared rays (IR) at different temperatures 40°C, 55°C and 70°C were objectively characterized with the color space scale (CIE-L*a *b*), through the use of a spectrophotometer. Drying was carried out with infrared rays in an infrared radiant heating chamber with a power of 4.5kW, 20.5 Amps. The results indicate that the best color treatment determined was for the macroalga Lessonia trabeculata at a temperature of 40°C with values for: L*= 44.758±0.227, a*= -1.564 ± 0.016 and b*= 11.050±0.017; obtaining a first order kinetics for logarithmic scale corresponding to the parameters L*.b* as a function of time, likewise an activation energy value of Ea = 24.062 KJ/mol and the Arrhenius constant k0 = 0.0197 min- was reached. one. It is concluded that there is inverse variability between the color of the macroalgae and the temperature applied in the drying process; being the values of the color parameters L*, a*, b* of the macroalga decreases as the temperature increases, thereby leading to color degradation.
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红外线干燥机干燥的小梁大藻颜色变化
鱼粉浓缩了高比例的蛋白质,其货币成本相对较高,寻找大型藻类的可能替代品以改善目的是一种选择。颜色是食物的基本特征,然而,红外干燥技术作为研究小梁藻的新兴技术,研究很少。为此,利用分光光度计,用彩色空间标度(CIE-L*a *b*)客观表征了不同温度(40°C、55°C和70°C)下红外(IR)在干燥过程中的降解和颜色变化。在功率为4.5kW, 20.5安培的红外辐射加热室中使用红外线进行干燥。结果表明,在40℃条件下对小梁藻进行最佳显色处理,其值分别为:L*= 44.758±0.227,a*= -1.564±0.016,b*= 11.050±0.017;得到与参数L*对应的对数尺度的一级动力学。b*作为时间的函数,得到活化能Ea = 24.062 KJ/mol, Arrhenius常数k0 = 0.0197 min-。一个。结果表明:大藻的颜色与干燥温度成反比;为大藻的颜色参数L*、a*、b*的值随着温度的升高而减小,从而导致颜色退化。
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来源期刊
自引率
60.00%
发文量
24
审稿时长
24 weeks
期刊最新文献
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