摘要:Adsorption isotherms provide insight into the thermodynamic properties governed by food storage conditions. Adsorption isotherms of purple corn of the Canteño variety were evaluated at 18, 25, and 30 °C, for the equilibrium relative humidity (ERH) range between 0.065 and 0.95. The equilibrium moisture (
X
e
) was determined by the continuous weight-change method. Seven mathematical models of isotherms were modeled, using the coefficient of determination R
2, mean absolute error (MAE), and estimated standard error (ESE) as the convergence criterion. Thermodynamic parameters such as isosteric heat (
q
st
), Gibbs Free Energy (Δ
G), differential entropy (Δ
S), activation energy (
E
a
), and compliance with the isokinetic law were evaluated. It was observed that the adsorption isotherms presented cross-linking around 75% ERH and 17%
X
e
, suggesting adequate storage conditions at these values. The GAB and Halsey models reported better fit (R
2 > 97%, MAE < 10%, ESE < 0.014 and random residual dispersion). The reduction of
X
e
from 17 to 7%, increases
q
st
, from 7.7022 to 0.0165 kJ/g, while Δ
G decreases considerably with the increase in
X
e
, presenting non-spontaneous endergonic behavior, and linear relationship with Δ
S, evidencing compliance with the isokinetic theory, governed by
q
st
.
E
a
showed that more energy is required to remove water molecules from the upper layers bound to the monolayer, evaluated using
C
GAB
. The models predicted the storage conditions, and the thermodynamic parameters show the structural stability of the purple corn grains of the Canteño variety during storage.
关键词:enpurple cornadsorption isothermisosteric heatGibbs free energydifferential entropyactivation energyisokinetic theory
