Mobile educational platform together with the renewable energy sources system

摘要

The mobile educational platform, together with the system of renewable energy sources, using solar collectors and wind turbines, is characterised by the solar collector (KS) heating the hydraulic medium, preferably glycol, then glycol is converted by the solar pump group (SGP) to heat exchanger, placed inside the container (Z),for storage of hot water for use where the glycol funnel transfers heat to the water stored in the tank (Z),After which, through the solar pump group (SGP), the cooled glycol is transferred back to the solar collector (KS),where the work of the solar collector (KS) is supported by an air heat pump (PPC),when the solar collector (KS) does not provide a sufficiently high useful water temperature in the tank (Z),then the air heat pump (PPC) sees the water stored in the tank (Z),with the operation of a solar collector (KS) and an air heat pump (PPC) operated by a solar controller (SS),which receives and transmits signals from the solar collector (KS) and the air heat pump (PPC),Whereas the solar controller (SS) is powered by voltage, preferably 12-volt, from the battery (AKU),in addition, the battery (AKU) also supplies the air heat pump (PPC),where the air heat pump (PPC) is powered by voltage, preferably 230-volt, via a converter (P),in addition, the battery (AKU) is charged with voltage generated by a wind generator (GW) and/or a photovoltaic module (MF),with the work of a wind generator (GW) and a photovoltaic module (MF) operated by a charging controller (KC),which is equipped with a voltage regulator responsible for the non-recharging and non-discharge of the battery (AKU).