SU1103050A1 - Solar power plant - Google Patents

Abstract

SOLAR ELECTRIC POWER STATION, containing a spherical shape of a heliog concentrator with a central hole and oriented by a longitudinal axis into the center of the CURVATURE of the latter, a mobile solar radiation detector, fixed by means of a displacement mechanism on a support passing through the central opening, which is different in that at the same time simplifying its design, the helio-concentrator is made composite in the form of long-focus ring strips, the movement mechanism in the form of rotatably about a support axle radial thereto peremescheioscheys along with the last trolley and provided with a solar receiver electrically connected to the solar sensor movement mechanism and pivotally fasten-g flax trolley. (L

Description

l:. The invention relates to solar technology, in particular to solar power plants. A solar power plant is known that has a spherical shape of a solar concentrator with a central bore and a longitudinal axis oriented to the center of curvature of the latter by means of a displacement mechanism on a support ij passing through the central bore. . In this solar power station, the radiation receiver monitors the movement of the focal zone of the stationary helio-concentrator and is fixed at the center of curvature of the latter on the rotating arm. The longitudinal axis of the radiation receiver passes through the center of curvature of the solar concentrator and is directed towards the sun. At the same time, the power of the solar power plant og. limited by the size of the helio-concentrator. An increase in the size of the last condition: kn, and with a large radius of curvature, the helix concentrator makes it impossible to directly fix the radiation receiver in the center of curvature. The aim of the invention is to increase the unit power of the station while simplifying its design. The goal is achieved by the fact that in a solar power plant containing a spherical helioconcentrator with a central hole and oriented longitudinally to the center of curvature of the latter, a movable solar radiation detector fixed by means of a displacement mechanism on the support passing through the central orifice, is a long-focused solar concentrator annular lanes, the movement mechanism - in the form of a bridge installed with the possibility of rotation on the support of the radial Along the latter, a carriage, and the solar radiation receiver is provided with an electrically connected to the movement mechanism by a solar sensor and is hinged on the carriage. The drawing shows a structural diagram of a solar power station. The scheme contains a spherical helical concentrator 1 with a centerpiece of version 2 and oriented by a longitudinal axis 3 into the center 4 of curvature of the last mobile receiver 5 of solar radiation, fixed with the help of mechanism 6 to move on the support 7 passing through the center concentrator i a composite in the form of long-focal annular strips 8, a movement mechanism b in the form of a bridge 9 mounted for rotation on a support 7 with a trolley 10 moving along the latter, and a receiver 5 of radiation is provided electrically connected to the movement mechanism 6, and a solar sensor 11 is pivotally mounted on the carriage 10. The solar power plant is further provided with flat solar heaters 12 located in between the strips 8 Singles gelikotsentratora 1 intervals. The flat heaters 12 are hydraulically connected to each other and to the receiver 5 by means of pipes 13. The solar power station works as follows. The rays of the Sun fall directly on the spherical mirror strips 8 of the solar concentrator I and the flat heaters 12. The reflected rays fall on the receiver 5, where industrial parameters are produced. The rest of the incident and reflected rays that do not reach the mobile receiver 5 is absorbed by the blackened surface of the flat heaters 12. This absorbed energy can be used to warm the feed water or the heat carrier of the mobile receiver 5. The mobile receiver 5 catches the rays reflected from the spherical strips 8, thanks to the rotation of the bridge 9, the movement of the trolley 10 along it and the rotation of the receiver 5 along the signals of the solar sensor 11. The performance of the helicopter concentrator 1 in the long-focus ring strips j о allows It is possible to significantly increase the area of the solar concentrator 1 with a single curvature center 4, which, combined with the fixing of the mobile receiver 5 solar radiation outside the center 4 RIVISION of the solar concentrator 1 and with the centration of a% longitudinal axis 3 through the center 4 curvature on the Sun with the sensor 11, provides a single power of the solar power plant while simplifying its design.

Claims (1)

454) A SOLAR POWER PLANT containing a spherical Forceme solar collector with a central hole and oriented by the longitudinal axis to the center of curvature of the last movable solar radiation receiver mounted on a support passing through the central hole, characterized in that, in order to increase the unit power of the station while simplifying its design, the solar concentrator is made integral in the form of long-focus annular bands, the movement mechanism in the form set with rotation on the support of a radial bridge to it with a trolley moving along the last, and the solar radiation receiver is equipped with a solar sensor electrically connected to the movement mechanism and pivotally fixed to the trolley.