РОЗРОБКА ТА ДОСЛІДЖЕННЯ МІКРОХВИЛЬОВОГО ШНЕКОВОГО ЕКСТРАКТОРУ БЕЗПЕРЕРВНОЇ ДІЇ.

О. М., Всеволодов; І. М., Аль-Хамад; С. Г., Терзієв

A critical analysis of the issues related to the grub industry and the development of the sphere of production of phytoextracts was carried out. The scientific method of using traditional technology for the extraction of rosemary is indicated. At the Department of POEM, a scientific and technical hypothesis was formed for the process of extracting from the microbial vip production. The use of microbial energy for the extraction of biologically active substances can significantly improve the efficiency of the process for the intensive infusion of MX onto the material and the restructuring of tissue structures (for the scale barodifusion), in order to increase the yield of target phytochemical substances, reduce energy consumption and shorten the hour of extraction in a manner similar to traditional methods. By relying on a parametric model of the extraction process in the microwine field using the methods of the theory of similarity, the structure of the criterion model for the cheese ball was determined. The main material for conducting a series of experiments was high-altitude soybean. An experimental stand including a resonator chamber, a screw conveyor, electromagnetic energy generators, vanishing and dissolving bunkers, an extractant supply system, elements of a ceramic installation. Very important results were obtained from the study of the final concentration of the extract under the pressure of the magnetron and the hydromodule. Analysis of these experimental studies has shown the superiority of microwilt extraction compared to traditional extraction methods. Increases in the intensity of MX-energy can significantly increase the terminal concentration and ultimately reduce waste, thereby reducing energy consumption for the extraction process. The hydraulic module and the tightness of the microfiber field are the most important parameters when choosing a rational operating mode for extraction equipment. Using these parameters allows you to increase the value of the mass yield coefficient during extraction.

SCIENTIFIC method; SCREW conveyors; ELECTROMAGNETIC waves; HYPOTHESIS; PARAMETRIC modeling

Scientific Works, 2024, Vol 87, Issue 1, p128

2073-8730

Academic Journal

10.15673/swonaft.v88i1.2972