FIELD: heating.
SUBSTANCE: proposed method and system for implementing the method are meant for use in central and automated heating systems, hot water and energy supply and stand-alone energy supply systems. The method involves heat generation using a jet heat-generating device, feeding the heated liquid medium to the user and returning the cooled liquid medium from the user for subsequent heating in the gas-liquid jet device. Energy of the non-condensed gas component of the gas-liquid mixture is taken in and used for generating additional pressure of water coming into the device. Atmospheric air is compressed, and in the gas cycle for pumping heat from the atmosphere and hydrosphere, compression and expansion are carried out in an expansion engine. Electrical energy is obtained from phyto-products obtained in the phyto-complex, linked to a fuel cell and an electro-pyrolysis reactor, and also linked to the circuit for sanitary and process water conditioning. The process cycle is activated by superheated water, which is fed from the generator of superheated water. The system has a jet heat-producing apparatus, made in form of a water-heating gas-liquid jet apparatus, whose outlet of a stream of hot liquid medium is connected to a heat user, while its inlet has a tapering nozzle connected to the outlet of cooled liquid medium from the user, forming a circulation loop of liquid medium, which also has a generator of superheated water, made in form of an electrode water-heating device of the flow type. The system also has expansion valves which use energy of the uncondensed gas component of actuating medium for generating additional pressure of water coming into the system, an aerodynamic evaporator for collecting heat from the hydrosphere, an electro-pyrolysis reactor, linked to the fuel cell and phyto-complex for obtaining electrical energy from phyto-products, a hydrocyclone and elevator, through which the electro-pyrolysis reactor is connected to the circuit for sanitary and process water conditioning. The inlet of the tapered nozzle of the water-heating gas-liquid jet apparatus is made in form of a system of coaxially arranged nozzles for compressing atmospheric air. The technical outcome is obtaining an energy carrier through a stand-alone energy generating system.
EFFECT: obtaining an energy carrier through a stand-alone energy generating system.
2 cl, 4 dwg
