SU1010410A1 - Solar plant - Google Patents

Abstract

A SOLAR INSTALLATION, containing a concentrator made in the form of a tank, having a rotational drive filled with a reflective fluid and divided by partitions, and a receiver installed in the focus of the concentrator, characterized in that, in order to expand its functionality, openings are made in the partitions controlled dampers. 2. Installation according to Claim 1, characterized in that it is supplied to the next heliostat and contra-reflector, the receiver and contra-reflector being mounted with the possibility of moving one relative to the other. ABOUT)

Description

This invention relates to a helium hetica and can be used to produce high temperatures. The known solar installation, containing a concentrator, is designed in the form of a tank, having a drive driven by a reflective fluid and divided by partitions and a receiver installed at the focus of the Cll concentrator. The known installation has great functionality because it does not allow changing the mode over a wide range. roar receivers of various configurations. The purpose of the invention is to expand the functionality. This goal is achieved by the fact that in a solar system containing a concentrator made in the form of a tank, having a rotational drive filled with a reflective bone and divided by partitions, and a receiver installed in the focus of the concentrator, holes are made in the partitions. controllable flaps. In addition, the installation is equipped with a follow-up heliostat and a counter-reflector, the receiver and the counter-ram being mounted to move one relative to another. The drawing shows the proposed solar installation. The device comprises a concentrator made in the form of a tank 1, having a drive 2 of rotation filled with a reflective liquid and separated by concentric ring partitions 3, as well as radial partitions (not shown), and a receiver 4 installed in the focus of the concentrator. In partitions 3 are made from version 5 with control valves installed in them. B. The installation is equipped with a follow-up heliostat 7 and a counter-reflector 8, with the receiver 4 and the counter-reflector 8 being installed with the possibility of shifting. Sharing one relative to another. Mercury can be used as a reflecting fluid. To eliminate toxic fumes, a layer of mercury is covered with a protective film of a transparent liquid, for example, glycerol or petroleum jelly. The capacitance 1 is located in a ferromagnetic fluid that fills a stationary tank 9. As a ferromagnetic fluid, magnetite suspension in kerosene can be used and stabilized with oleic acid. The recirculating water 2 of rotation is made in the form of a source of a rotating magnetic field. The movement of the contrasher 8 is carried out with the help of the movable arm 10, and the receiver 4 with the help of the movable arm 11. The rotation, displacement and tracking actuators are connected to a control unit (not shown). . Solar installation works as follows. In the stopped tank 1, the flaps 6 of the openings 5 in the partitions 3 are closed, which turns the annular zones into non-communicable. The rotational drive 2 is turned on, in the result of which the ferrofluid, and with it the tank 1 floating in it, is brought into uniform rotation around the vertical axis. The surface of the reflecting fluid Srtuti) in each of the annular zones formed takes the form of a section of paraboloid of rotation displaced relative to each other along the vertical axis (due to the presence of radial partitions excluding the rotation of mercury relative to capacitance 1). The sun's rays (partially shown by arrows), reflected from the following heliostat 7, fall along the optical axis of the paraboloid concentrator, which, together with the counterreflector 8, concentrates them on a cylindrical receiver 4 with a sufficient degree of irradiation of its surface. If necessary, change or adjust the mode of irradiation of the receiver 4 the focal distance of the concentrator is simple by simply changing the speed of rotation of the capacitance 1 at the command of the control unit or by relative movement of the counterrefector 8 or receiver 4, both along and across the optical axis of the concentrator. When irradiating weak receivers (for example, flat surfaces), the shutter 6 is left open, which results in the formation of a continuous paraboloid of rotation during the container 1 (its surface is shown by a dotted line). If unilateral heating is necessary, the contrasher 8 is removed from the light beam zone by means of a bracket 10. Since the rotation of the reflecting fluid tank 1 occurs in ferrofluid, in the start-stop mode uncontrolled movements of the vessel do not occur due to the high viscosity of the ferrofluid in a magnetic field. Since the tank 1 is completely unloaded in a liquid, its working dimensions are limited only by the diameter of the heliostat, which allows for the realization of high energy densities in the concentration zone of solar radiation. Working angular ck (at

51010410

real values of focal lengths of wide spectral range

A hub of a hub (on the order of 1 set of receivers of different horsepoints more) amounts to several configurations without replacing the units of rotations per minute. Installation of parts, i.e. Thus, with the help of prepa- raging its functional units, it is possible to realize this.

Claims (2)

(57) 1SUNNY INSTALLATION, comprising a concentrator made in the form of a container having a rotation drive filled with reflective liquid and separated by partitions, and a receiver installed in the focus of the concentrator, characterized in that, with the aim of expanding the functionality, openings are made in the partitions with installed they are controlled by dampers. 2. Installation pop. 1, characterized in that it is provided with ¹ on a tracking heliostat and a counter-guard, moreover, the receiver and the counter-guard are mounted to move one relative to the other.