SOLAR AERO-PRESSURE THERMAL POWER STATION Russian patent published in 2009 - IPC F24J2/42 F03G6/06 

FIELD: heating systems.

SUBSTANCE: invention refers to solar power engineering. At solar aero-pressure thermal power station (SAP TPS) there used is energy of direct and reflected sun beams, energy of wind, ambient air, phase water transformations and other solar power components. Solar aero-pressure thermal power station includes high temperature solar heat converting devices in which heat energy of solar beams is transferred to fluid heat carrier at temperature of 90 and more Celsius degrees, heat accumulator by using heat-insulated loose or liquid material and pipelines located in it, and solar hotbed generators of heat air flows with temperature of up to 90 Celsius degrees. There used are at least three energy-converting thermal aerodynamic modules in which a central power air flow bringing a wind turbine generator into rotation is energetically saturated and attains rotary-and-forward vortex motion path due to impact thereon of high-temperature liquid heat carrier in combination with appropriate aerodynamic surfaces, thermal air flows and some other process means used. Besides at solar aero-pressure thermal power station there installed is the second electric energy manufacturing circuit which includes independent pipe header arranged in heat accumulator whereto liquid with decreased boiling point is supplied, and the steam obtained in pipe header is directed to steam turbine connected to the second electric generator. Waste steam is supplied from steam turbine to cooler-condenser where it is changed into light-volatile liquid by means of condensation and directed with a pump to the above pipe header. Heat energy of steam condensation is supplied through heat converter, namely heat pump, to central energy air flow, due to which increase of electric energy with wind turbine generator is provided. In addition, in ambient air environment there installed along perimetre of solar aero-pressure thermal power station is moisture-condensing header to which the cooling working medium is supplied, owing to which ambient air moisture is condensed on it. This allows producing stock fresh water, and on the other hand it forms an additional source of thermal energy converting this component of solar energy into purposeful heat flows in solar aero-pressure thermal power station.

EFFECT: invention improves technical and economic efficiency of proposed solar aero-pressure thermal power station, which creates the possibility of wide-range construction of industrial solar power engineering objects.

10 cl, 8 dwg