期刊名称:Eastern-European Journal of Enterprise Technologies
印刷版ISSN:1729-3774
电子版ISSN:1729-4061
出版年度:2019
卷号:4
期号:11
页码:64-73
DOI:10.15587/1729-4061.2019.174805
语种:English
出版社:PC Technology Center
摘要:Currently, much attention is paid to the production of organic food. The scientific concept of nanoscience examines the synthesis of an ion-ozone mixture without harmful impurities of nitrogen and carbon oxides in the processing and preservation of food products based on different polarities of electrical current. The negative polarity of the ion-ozone mixture and the positive polarity of the product being processed using cavitation in the electromagnetic field increase the biological and ecological value of the products. Expanding the range of pasta for various categories and segments of the population requires the use of advanced raw materials, which include triticale grain.The method of improving the quality of triticale grain with cavitation and without cavitation on ion-ozone equipment and further processing into flour is proposed. On the basis of full-factor experiments 23 and 24, regression equations have been developed that allow comparing the results of ion-ozone treatment with each other and revealing the basic technological properties of triticale of the “Taza” variety. The input variables are parameters of ion-ozone treatment (ion-ozone concentration, humidity before processing and processing time) and ion-ozone-cavitation processing (overpressure, ion-ozone concentration, humidity before processing and processing time). Output variables are: from the indicators of physical properties – density, mass of 1,000 grains; from biochemical properties – mass fraction of protein and content of raw gluten, and macaroni properties – grain hardness and specific work of deformation. This allows evaluating the effectiveness of using it in pasta production.t is proved by experiments that the technological properties of the control and ion-ozone treated samples are significantly different. The proposed technology of ion-ozone cavitation processing of triticale grain at grain-receiving enterprises allows improving physical, biochemical, and pasta properties of flour, which increases the efficiency of pasta production by more than 15 %.
关键词:triticale;ion-ozone cavitation;ion-ozone equipment;full-factor experiment (FFE);pasta production