Abstract:
The effect of high relative humidity (RH) storage on the subsequent moisture sorption
of matcha tea powder was examined. The sample of interest was stored above silicagel
(control), at 52.9 and 75.3 % RH for two months at 25 °C. Moisture adsorption and
desorption experiments were performed using a dynamic vapor system, and the
sigmoid-shaped (type II) isotherms obtained with the aid of multi-Freundlich equation.
Hysteresis loop disappeared for powder samples previously exposed to high humidity
environment. According to Caurie and multi-Freundlich equations, higher critical
values of aw, monolayer content, number of monolayers, and surface area of adsorption
were observed for the samples stored under high RH. The change in the particle size
distribution was also discussed.
