SU953383A2 - Combination solar plant - Google Patents

Description

(54) COMBINED SOLAR INSTALLATION

one

The invention relates to the field of solar use for heat and heat generation.

By ocHOBHCTviy auth. St. Ni 857658 is well-known combined solar installation, containing the contours of heat and cold supply, the first of which includes a solar collector, complete in the form of a housing with a light-jerked jqpbmiKOfi in a boiler located in it, and a tumbler, and in the second - an absorber and a vaporizer, and the battery in The evaporator through the heat exchanger is connected to the consumer, the solar collector is equipped with a condensate tank and a branch pipe to the outlet to the outlet, respectively, in a strong solution of absorbing chambers, over the boiler, under the boiler, into the absorber P ОДКЛУЧЧСО to the inlet B to the a6k: op6eHTa solution tap.

For reconditioned, the working solution is supplied and influenced under the surface of the boiler of the secondary collector (water heater), is heated, and this is released.

Rquanve moisture absorbed by the absorbent from the evaporator. Steam formed at STOIM condenses and is discharged by a co-discharge device. The enriched absorbent solution is returned to the fl absorber.

The disadvantages of the known installation are: low cooling performance due to unevenness of the boiler surface on the boiler surface with the required irrigation density, while the density of the system is 4–8 low reliability in the short service life of the collector, which is Corrosion of the surface of the metal ch) of the boiler under the action of an absorbent (aerated carbon salts UiCC, CoCEj).

The purpose of the invention is to increase the efficiency of solar energy use in the pipes under the boiler.

Claims (1)

The supplied chain is Shaea with the fact that the collector is equipped with a corrugated p & geaerats / poy, installed under the boiler, and the latter is installed as a coil, which was mounted on the tops of the regenerator regenerator. On the phage. 1 is a diagram of a solar installation; in fig. 2 - sets, longitudinal section; in fig. 3 is the same cross section. The combined solar installation contains circuits 1 and 2 of heat and cold supply, the first of which includes a solar collector 3, made in the form of body 4 with a translucent cover 5 and boiler 7 located in it, and the battery 7, and in the second circuit 2 the absorber 8 and the evaporator 9, and the battery 7 and the evaporator 9 are connected to the consumer via the heat meter 10. The solar collector 3 is equipped with a condensate drain 11 and nozzles 12 and 13 for supplying a weak and removal of a strong absorbent solution located under the boiler 6, and the absorber 8 is connected to the nozzles 12 and 13. The collector is equipped with a corrugated regenerator 14 installed under the boiler 6, and the latter is made in. the form of the coil, located on the vertices of the corrugation of the regenerator 14, the Installation works as follows. The sun's rays, hitting the collector 3, pass through the translucent roofs Ku 5, are absorbed by the surface of the boiler 6 and hf of the fritted regenerator 14. When heated inside the boiler 6, the water is supplied through the accumulator 7 to a hot water supply and heating of the heat transfer fluid in the heat exchanger 10 for heating the consumer in the winter, then returning to the solar collector 3 after heating. In summer, part of the moisture that condenses on the back surface of the crutches 5 and is discharged through the absorbent heated in the cavities of the regenerator 14; condensate drain 11. Regenerated absorbent solution through outlet 13 of the outlet. It is fed to the absorber 8, where it is diluted, absorbing water vapor from the evaporator 9, and is fed back to the solar collector 3 through the inlet 12. In the evaporator 9, the coolant is cooled. Due to the fact that the regeneration of the absorbent occurs in the valleys of the corrugations of the regenerator made of chemically resistant to the absorbent material, the boiler does not corrode from the chemically aggressive absorbent to metals, thereby increasing the reliability and service life of the solar collector, and due to the fact that two; the absorbent on the surface of the regenerator is mounted on a flurry, it improves the uniformity of irrigation of the surface of the regenerator, which leads to improved thermal performance of the solar collector ktoru. Regeneration of the absorbent in the valleys of the corrugations of the regenerator and heating of the coolant in the coil located on the angles of the corrugations, allows5pot save the amount of solar energy absorbed by both the coolant and the absorbent of the refrigeration machine, and eliminate corrosion of the collector, which reduces the intensity and installation cost. Claims of the invention Combined solar installation according to the author, St. To 857658, differing from the fact that, in order to increase the efficiency of solar energy use when the branch pipes are located under the boiler, the collector is equipped with a regenerator installed under the boiler, and the latter is made in the form of a coil located on the tops of the corrugator of the regenerator. Sources of information taken into account during the examination 1. Copyright, USSR certificate i№ 857658, cl. F 24 J 3 / 02,178.