Determining the effect of raw materials moisture and lipid content on the technological properties of the extruded protein-fat system

Abstract

The way to solve the problem of correcting technological indicators, in particular porosity and moisture content, in extruded protein-fat systems based on soybean, rapeseed, hemp meal, and corn grits is considered. The peculiarity of the work is the substantiation of the rational ratio of the content of moisture and lipids in the raw components of the extrudate, which is an important aspect of rationalizing the composition and improving the texture of innovative extruded products based on the specified raw materials. The object of the research is technological indicators, in particular the porosity and moisture content of the extruded protein-fat system, depending on the moisture and lipid content in the raw components. A rational ratio of moisture content (10.5...12.5 %) and lipids (3.5...5.0 %) in the raw material for the extruded protein-fat system was determined. The use of refined palm olein as an oil product resistant to oxidative deterioration, which should be added to raw components in order to correct the technological properties of the finished product, is substantiated. The developed protein-fat system of reasonable composition has an advantage over a commercial similar product in terms of crude protein content (29.0 % vs. 8.2 %), porosity (130.0 % vs. 105.0 %) and cost ($ 916/t vs. $ 2,798/t). The obtained data are explained by the fact that a complex of components was used, some of which are production waste, with reasonable moisture and lipid content, which improved the technological characteristics of the extrudate. An applied aspect of using this scientific result is the possibility of rationalizing the extrusion process of oilseed meal to achieve the desired texture, porosity and stability of the lipid component of the product