RU2021117953A - INSTALLATION FOR EXTRACTION OF BIOLOGICALLY ACTIVE SUBSTANCES FROM VAPOR-PERMEABLE PLANT RAW MATERIAL - Google Patents

Claims (2)

1. An installation for the extraction of biologically active substances from a vapor-permeable plant material, consisting of a container for an extractant and an extractor connected by a pipeline, a condensate collector and a receiver, a vacuum pump connected to the receiver, a reflux condenser installed above the extractor, which ensures the condensation of extractant vapors, a heater and a pump, providing heating and supply of heating fluid to the jacket of the container of the extractant and extractor, characterized in that a feature of the installation is the presence of an extractor, a collection cube of alcohol-soluble biologically active substances; cube-collector of alcohol-insoluble biologically active substances; alcohol receiver; refrigerator; dephlegmator; refrigerant supply systems, with the implementation of all the processes of extraction, evaporation, concentration, recirculation of the main solvent and drying of the input raw materials in one vat apparatus, using water vapor supplied directly to the extractor and mixed with vapor-permeable raw materials, which significantly speeds up the maceration process and allows substances to be extracted from the solution with one portion of the solvent with more efficient degassing of the raw material. 2. An installation for the extraction of biologically active substances from a vapor-permeable plant material according to claim 1, characterized in that a feature of the installation is the possibility of using convective heat transfer (convective diffusion) to carry out the process of heat propagation in a liquid from the surface of a solid body or to its surface simultaneously by convection and thermal conductivity, carrying out the distribution of heat, i.e. contact heat transfer, circulation-type extraction applications based on the circulation of the extractant, ensuring an effective extraction rate determined by the difference in the concentrations of the extractable substance in the liquid filling the pores of the raw material and in the bulk of the solvent in contact with the surface of the solid particles and diffusion resistance at each stage.