A starchy food that is initially a single-phase body turns into a multiphase body during boiling because of starch gelatinization. Fick's law is applicable only to a homogeneous system and is not applicable to such a multiphase system. Relative Water Content (RWC) model has been proposed as an alternative model that is able to describe water migration in multiphase food systems. In the RWC model, water migration is driven by the gradient of water content divided by the water holding capacity (WHC), m/m*. In this study a WHC profile (WHC plotted against water content with which starchy food is heat-treated) was assumed based on information concerning starch gelatinization. Using this WHC profile, the correlation between WHC profile and transient water content profile in a wheat flour dough slab during boiling was examined. A modified WHC profile was found to be applicable for describing certain characteristic features of the transient water content profile in a slab of wheat flour dough during boiling.

In order to utilize rice flour in food systems with high water content, rice flour was dispersed into water to prepare a rice flour suspension and emulsion. Stability of the suspension was significantly increased by heating processes in combination with homogenization processes. The improved stability was probably due to finely dispersed rice flour particles (-10microm) and gelatinized starch granules. Since oil droplets with a size of several micrometers disperse in an aqueous phase of many real food emulsions, rice flour is expected to be utilized as a fat replacer mimicking oil droplets. Emulsions were prepared dispersing soybean oil into a rice flour suspension. The emulsion was relatively stable to oil droplet coalescence for 7 days. Starch and proteins such as 10-16 kDa prolamin adsorbed to oil droplet surfaces to stabilize the emulsion. These results suggest that rice flour is expected to be utilized as a natural emulsifier in the food industry.