SU866347A1 - Solar power plant monitoring system - Google Patents

Description

(54) MONITORING SYSTEM

one

The invention relates to solar technology, in particular to solar tracking systems for the position of the Sun.

A known solar tracking system comprising a radiation receiver made in the form of two bellows filled with a thermoactive medium and separated by a flat shading screen connected kinematically to the hydraulic fluid distributor connected to the solar thermal and a device for pumping the working fluid to the distributor. .

When the solar system deviates from the direction to the Sun, the pressure of the thermoactive medium in one of the bellows of the radiation receiver rises, causing the shading screen to shift, and the working fluid distributor connects one of the cavities of the hydraulic cylinder with the device for pumping the working fluid made in the form of an electropump 1.

However, in such a system, in addition to solar energy, to carry out its work, electric power is also required to drive the electric pump.

The purpose of the invention is to provide autonomous system operation.

The goal is achieved by the fact that the injection device is made in the form of two vessels, partially filled with working fluid and connected in the lower part of the pipeline with a non-return valve, with the lower part of one vessel

10 is connected to the outlet of the distributor, the upper is in communication with the atmosphere, and in another vessel the diaphragm separating it into two cavities is mounted for movement, the lower part of which is connected to the entrance of the distributor, and the upper one is sealed and optically opaque partly filled with low boiling liquid.

In addition, the walls of the upper cavity have a coating of capillary-porous material on the inner side.

The drawing shows a diagram of the solar tracking system.

The system contains a radiation receiver made of two bellows 1, filled with a thermoactive medium and separated by a flat shading screen 2, kinematically connected with the distributor 3 of the hydraulic cylinder 4, connected to the solar control 5, and the device 6 l pumping the working fluid into the distributor 3 .

The injection device 6 is made in the form of two vessels 7 and 8 partially filled with working fluid and interconnected in the lower part by a pipe 9 with a check valve 10, with the lower part of one vessel, namely vessel 7, connected to the outlet of the distributor 3, the upper communicated with the atmosphere, and in the other vessel 8, the diaphragm I is mounted so that it divides into two cavities 12 and 13, the lower of which (cavity 12) is connected to the inlet of the distributor 3, and the upper {cavity 13) is sealed , is optically opaque s wall and partially filled with low-boiling liquid. The walls of the upper cavity 13 have a coating 14 of capillary-porous material.

The distributor 3 has a plunger 15 and a sleeve 16 with inlet and outlet channels connected via pipelines 17 and 18, respectively, to the cavity 12 and the vessel 7. The sleeve 16 is also hydraulically connected to the cavity of the hydraulic cylinder 4, Bellows 1 are installed inside the bracket 19 and rigidly fixed in it on the one hand, and their other sides are interconnected by a pull 20, made in one piece with the screen 2, and the lower part of the latter is made in the form of a fork-pusher 21, hinged on the plunger rod 15., .. Sleeve 16 distributor 3 rigidly fastened ene solar unit on the frame 5, together with the bracket 19. The frame 5 is mounted on the solar axis 22 via the carrier 23, is pivotally associated with the piston rod 24 of the hydraulic cylinder 4 is also hinged on a fixed support (not shown). The vessel 7 of the injection device 6 has an opening 25 in its upper part, connecting it with the atmosphere.

The system works as follows.

When the solar station 5 deviates from the direction of the Sun, one of the bellows 1 of the radiation receiver, due to shading screen 2, is illuminated less than the other, which causes different heating of the thermoactive medium and mixing of the bellows 1. This mixing is transmitted to the plunger 15 of the distributor 3, which connects the cavities of the hydraulic cylinder 4 with the device 6 for injection. Moreover, one of the cavities of the hydraulic cylinder 4 is connected through the channels of the sleeve 16 and the pipe 18 to the vessel 7, and the other - the pipe 17 to the lower

the cavity 12 of the vessel 8. At the same time, the working fluid is displaced from the cavity of the hydraulic cylinder 4 connected to the vessel 7, and is injected into the cavity connected to the vessel 8.

The working fluid is injected due to solar heating of the low-boiling liquid in the cavity 13 of the vessel 8, which is made hermetic and having walls of an optically opaque material, the internal surface of which, to intensify the evaporation of the liquid, has a coating 14 of capillary-porous material.

Evaporation of liquid increases

5 pressure in the cavity 13, which through the movable diaphragm 11 is transferred to the working fluid in the lower cavity 12 of the vessel 8. The check valve 10 maintains the pressure in the cavity

Q 12 while maintaining the hydraulic connection of the vessel 7 and B

At night, the pressure in the cavity 13 and, accordingly, in the cavity 1 2 of the vessel 8 drops below atmospheric, because the liquid is low boiling water 5, and the working fluid from the vessel 7 under the action of atmospheric pressure (the vessel 7 is connected to the atmosphere with a hole 25) the valve 10 enters the cavity 12 of the vessel B, restoring the initial state of the injection device 6.

The implementation of the device 6 for charging is in the form of two vessels 7 and 8 hydraulically connected through a non-return valve 10, of which the vessel 7 collects the working fluid from the hydraulic cylinder 4 during the day and feeds the vessel 8 with it at night,

 And vessel 8, in turn, provides the daytime supply of working fluid under pressure to hydraulic cylinder 4, due to evaporation of low-boiling liquid under the action of solar radiation, allows refusing external sources of energy, in particular sources of electricity, which ensures autonomy system 1 ° tracking

0 solar power 5.

Claims (1)

Invention Formula J21 A solar tracking system comprising a radiation receiver made in the form of two bellows filled with a thermoactive medium and separated by a flat shading screen kinematically connected with the hydraulic fluid distributor of the hydraulic cylinder connected to the solar power plant and a device for pumping the working fluid into the distributor , 65 what, in order to provide autonomous