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Information × Registration Number 0224U033441, (0123U102810) , R & D reports Title A highly efficient autonomous power supply system for the polymer waste processing plant into diesel fuel popup.stage_title Високоефективна автономна система електроживлення установки переробки полімерних відходів у дизпаливо Head Martynyuk Valeriy Volodymyrovych, Доктор технічних наук Registration Date 27-12-2024 Organization Khmelnytskyi National University popup.description1 The aim of R&D is to develop scientific and applied methods and combined systems for creating a highly efficient power supply system for a mobile polymer waste processing unit based on photovoltaic modules, batteries, supercapacitors, and a diesel generator popup.description2  The object of research is physical phenomena that are the basis of a highly efficient power supply system for a mobile polymer waste processing plant based on photovoltaic modules, batteries, supercapacitors and a diesel generator. The purpose of the research is to develop scientific and applied methods and combined systems for creating a highly efficient power supply system for a mobile polymer waste processing plant based on photovoltaic modules, batteries, supercapacitors and a diesel generator. Research methods and equipment - full-scale experiment, computer simulation modeling, mathematical modeling, automatic testing stand for supercapacitors up to 100A. Theoretical and practical results. An experimental model of a highly efficient autonomous power supply system for a polymer waste processing plant into diesel fuel has been developed using effective methods of tracking the maximum power point, charging and discharging the battery and supercapacitor battery, and controlling the tracker, which will ensure maximum efficiency and reliability of operation as a whole. Novelty: for the first time, four scientific and applied methods have been combined, in particular: a method of two-coordinate tracking of the sun's trajectory with dynamic positioning of the working surface of photovoltaic modules perpendicular to solar radiation; a method of selecting electrical energy from photovoltaic modules using supercapacitors; a method of charging and discharging the battery and supercapacitor battery according to the developed algorithm, which ensures minimal energy losses on voltage converters. Implementation effectiveness – implemented for the power supply of the Khmelnytskyi National University shelter lighting system. Scope of use - a reliable mobile source of electrical energy, which has great potential for powering facilities for various purposes that cannot be connected to the power grid. Product Description popup.authors Bys Serhii S. Kosenkov Volodymyr D. Martynіuk Valerii V. Onofriichuk Volodymyr I. Syniuk Oleh M. Fedula Mykola V. popup.nrat_date 2024-12-27 Close