SU1084546A1 - Helio plant - Google Patents

Abstract

A solar installation containing a solar collector in the form of at least one heat pipe with evaporation and condensation zones, the first of which is made absorbing solar radiation, and the second is placed in a heat exchanger equipped with inlet and outlet nozzles, which is designed to simplify the design, the solar system is equipped an additional heat exchanger, - communicated via a switch with inlet and outlet nozzles, and the evaporation zone is provided in the lower part with an additional section, the latter Placed in an additional heat exchanger. SP X 00 ate 4 ;; Oi / 2 - &

Description

The invention relates to solar technology, and can be used in solar collectors in the form of heat pipes.

A well-known solar plant contains a solar collector in the form of at least one heat pipe with evaporation and condensation zones, the first of which is made absorbing solar radiation, and the second is placed in a heat exchanger equipped with inlet and outlet nozzles 1.

A disadvantage of the known solar plant is the complexity of the design associated with the presence of a tube rotation assembly made in the wall of the heat exchanger and designed to ensure alternate contact with the heat exchanger of the evaporation and condensation zones by rotating the pipe around a horizontal axis.

The purpose of the invention is to simplify the design.

The goal is achieved by the fact that a solar plant containing a solar collector in the form of at least one heat pipe with evaporation and condensation zones, the first of which is made absorbing solar radiation, and the second is placed in a heat exchanger equipped with inlet and outlet nozzles and equipped with an additional heat exchanger communicated through the switch with the inlet and outlet nozzles, and the evaporation zone is provided at the bottom with an additional section, the latter being located in the additional heat exchanger.

FIG. 1 depicts a solar system when operating as an absorber of solar heat; in fig. 2 - switch position when working as a heat diffuser.

The solar station contains a solar collector 1 in the form of parallel-connected heat pipes 2 with evaporative and condensation zones 3 and 4, respectively, the first of which is made absorbing, and the second is placed in a heat exchanger 5, equipped with inlet and outlet nozzles 6 and 7, respectively. The solar plant is equipped with an additional heat exchanger 8, communicated through a three-way valve 9 with patrubki 6 and 7. The evaporative zone 3 is provided with an additional section 10 located in the heat exchanger 8. The nozzles 6 and 7 are connected to: heat accumulator 11

0 with the formation of a closed circulation circuit. The latter is equipped with a pump 12.

The proposed solar system works: as follows.

 When operating as a collector of solar energy, the evaporation zone 3 absorbs solar energy and converts it into heat, which is transferred to the coolant in the heat pipe. The latter is evaporated in the evaporation zone 3 and condenses in the condensation zone 4, where the heat of condensation is transferred to the coolant in the heat exchanger 5 and discharged to the battery 11. The valve 9 is in the position shown in FIG. one.

If it is necessary to remove heat from the battery or from another source into the surrounding space, for example, when ice forms on the surface of the collector 1, the valve 9 is switched to the position shown in FIG. 2. The heated coolant is supplied by the pump 12 to the heat exchanger 8 and heats the coolant in section 10 of the evaporation zone 3 heat pipes. The heat carrier heated and evaporated in zone 3 condenses outside of it, and the heat of condensation is removed to the surrounding

space. When this happens, the ice is thawing and the collector can again operate in the mode of absorption of solar heat.

Thus, the ability of the collector to operate in heat absorption and dissipation modes is provided by simple structural means.

Claims (1)

A solar installation containing a solar collector in the form of at least one heat pipe with evaporation and condensation zones, the first of which is made to absorb solar radiation, and the second is placed in a heat exchanger equipped with inlet and outlet pipes, which differs from gas supply, which, in order to simplify the design, the solar installation is equipped with an additional a heat exchanger communicated through a switch with inlet and outlet nozzles, and the evaporation zone is equipped in the lower part with an additional section, the last schena additional heat exchanger.