Regulating the functional and technological properties of mince dinghies by applying structural additives

Autor: A. T. Vasyukova, D. A. Tikhonov, T. A. Tonapetyan, D. A. Kulikov
Jazyk: ruština
Rok vydání: 2020
Předmět:
Zdroj: Vestnik Voronežskogo Gosudarstvennogo Universiteta Inženernyh Tehnologij, Vol 82, Iss 1, Pp 151-156 (2020)
ISSN: 2310-1202
Popis: The basic information about the possibility of regulating the functional and technological properties of forcemeat systems from skinny ocean fish using fat-containing products, flavoring additives, structure-forming agents and functional food supplements is presented. This mutual addition of the recipe with various components allows you to create a combined special-purpose mincemeat and products based on it that best meet the needs of the body for nutritional and biological value. The purpose of the research is to regulate the functional and technological properties of forcemeat systems from skinny ocean fish using functional supplements. The objects of study in regulating the functional and technological properties of minced systems were pollock, cod, wheat bread from premium flour, butter extract of dried mushrooms, Provencal mayonnaise and Mobi-Lux Universal as a dietary supplement. Oil extracts of plant materials made it possible to stabilize the functional and technological properties of the raw materials, increase the biological value, and emphasize the organoleptic characteristics of the finished product. Nutritional supplements along with Mobi-Universal Universal enriched minced Ca, Fe and I, as well as vitamins, dietary fiber and protein. We used standard and generally accepted sensory, rheological, physicochemical and microbiological methods for studying raw materials, semi-finished products, and finished products. A comparative analysis of the chemical composition of raw materials with ocean fish was carried out to establish benefits. The high protein content in fish raw materials and Mobi-Lux Universal will help to structure the product, increase nutritional value, and adjust the structural and mechanical properties of minced systems. It was found that the WCS for the experimental sample of pollock minced meat reaches a maximum value of 75.9–77.1%, which is 3.5% higher than the WCS of the control sample; a similar tendency is observed for a sample of minced meat from cod - the WCL reaches 78.3–79.9%, which is 3.9% higher than the same indicator for the control sample. The PNS of minced meat containing pollock is almost 2 times higher than the value of this indicator in the control sample; for cod PNS is 25% higher than that of the control.
Databáze: OpenAIRE