SOLAR THERMAL POWER STATION WITH MOISTURE-CONDENSING PLANT Russian patent published in 2009 - IPC F03G6/02 F24J2/05 F24J2/30 F24J2/34 F03D1/04 

Abstract RU 2373428 C2

FIELD: heating systems.

SUBSTANCE: invention refers to solar thermal power stations. Thermal power station includes wind turbine with electric generator, air discharge channel above wind turbine, channel converting and increasing the power of central air flow before it is supplied to wind turbine, heat accumulator, device for heating heat carrier with sun beams, and intake channel connected by means of air guide opening. The channel converting and increasing the power of central air flow includes power-converting modules with built-in heat exchange elements and air guide aerodynamic elements. Moisture-condensing pipe is header installed on the territory of thermal power station. Below the moisture-condensing pipe header level there located is water-collecting channel connected to treatment and accumulation devices of commercial drinking water and distilled water capacity for internal technological use.

EFFECT: increasing solar energy use coefficient.

3 cl, 1 dwg

Similar patents RU2373428C2

Title Year Author Number
SOLAR AEROBARIC THERMAL POWER PLANT WITH SUPPLEMENTARY ELECTRIC GENERATING SOURCES 2007
  • Nikitin Al'Bert Nikolaevich
  • Chabanov Alim Ivanovich
  • Chabanov Vladislav Alimovich
  • Solov'Ev Aleksandr Alekseevich
RU2341733C1
SOLAR AERO-PRESSURE THERMAL POWER STATION 2007
  • Nikitin Al'Bert Nikolaevich
  • Chabanov Alim Ivanovich
  • Chabanov Vladislav Alimovich
  • Solov'Ev Aleksandr Alekseevich
RU2377473C2
SOLAR THERMAL POWER STATION USING VORTEX CHAMBERS 2007
  • Nikitin Al'Bert Nikolaevich
  • Chabanov Alim Ivanovich
  • Chabanov Vladislav Alimovich
  • Solov'Ev Aleksandr Alekseevich
RU2373430C2
SOLAR THERMAL POWER STATION WITH WIND GUIDE SURFACES 2007
  • Nikitin Al'Bert Nikolaevich
  • Chabanov Alim Ivanovich
  • Chabanov Vladislav Alimovich
  • Solov'Ev Aleksandr Alekseevich
RU2373429C2
POWER CASCADE OF VORTEX CHAMBERS 2007
  • Nikitin Al'Bert Nikolaevich
  • Chabanov Alim Ivanovich
  • Chabanov Vladislav Alimovich
  • Solov'Ev Aleksandr Alekseevich
RU2361157C2
HELIOAEROBARIC THERMOELECTRIC POWER STATION 2007
  • Nikitin Al'Bert Nikolaevich
  • Chabanov Alim Ivanovich
  • Chabanov Vladislav Alimovich
  • Solov'Ev Aleksandr Alekseevich
RU2353866C2
WATER-BASED HELIUM HEAT RECLAIM UNIT FOR HELIUM THERMAL POWER STATIONS 2007
  • Nikitin Al'Bert Nikolaevich
  • Chabanov Alim Ivanovich
  • Chabanov Vladislav Alimovich
  • Solov'Ev Aleksandr Alekseevich
RU2344354C1
HELIUM HEAT REGENERATOR WITH FLUID HEAT-CARRIER FOR HELIUM HEAT POWER STATIONS 2007
  • Nikitin Al'Bert Nikolaevich
  • Chabanov Alim Ivanovich
  • Chabanov Vladislav Alimovich
  • Solov'Ev Aleksandr Alekseevich
RU2344353C1
SOLAR ENERGY CONVERSION METHOD 2002
  • Chabanov A.I.
  • Sobolev V.M.
  • Solov'Ev A.A.
  • Chabanov V.A.
  • Sevast'Janov V.P.
  • Chepasov A.A.
  • Chabanov D.A.
  • Zhigajlo V.N.
  • Voronkov A.A.
  • Voronov Ju.P.
  • Otmakhov L.F.
  • Gunja M.A.
  • Kosov Ju.M.
RU2265161C2
POWER COMPLEX 2000
  • Chabanov Alim Ivanovich
  • Chabanov V.A.
  • Pavljuk Vitalij Grigor'Evich
  • Andrianov Ivan Timofeevich
  • Smarzh Ivan Il'Ich
  • Korolev V.M.
  • Sobolev V.M.
  • Titov N.F.
  • Golovchenko A.I.
  • Ryzhenkov A.Ja.
  • Malenkov A.G.
  • Elagin V.F.
RU2199703C2

RU 2 373 428 C2

Authors

Nikitin Al'Bert Nikolaevich

Chabanov Alim Ivanovich

Chabanov Vladislav Alimovich

Solov'Ev Aleksandr Alekseevich

Dates

2009-11-20Published

2007-05-25Filed