SU1281836A1 - Arrangement for water demineralization by solar energy - Google Patents

Abstract

The invention relates to solar technology and can be used to obtain distilled water from saline and polluted waters. The aim of the invention is to increase the productivity of the device by reducing heat losses. The housing 3 of the desalination plant 2 is made with a light-transparent coating 4 and has thermal insulation 6 between the bottom and the back plates (P) 5, absorbed, Ayush, their radiation. The evaporators of 9 heat pipes are stirred, enis in the housing 3 above P 5 and have a mirror surface. On a part of the evaporator 9 surface facing the coating 4, there are installed flat reflecting elements (PE) 11. The RPE P at the intersection form a dihedral angle oL with the apex directed towards the floor 4. Between the evaporators 9 and the OPE 11, heat insulation is placed. The sun's rays fall on the blackened surface of the P 5, which does not heat up the heat pipe surface exposed to the sun. Part of the sunny. having reflected from water on P 5, as well as secondary radiation from heated P 5 fall on the bottom surface of the evaporator 9, from which they return to P 5 upon repeated reflection. f-ly, 2 ill. 6 (L

Description

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The invention relates to solar technology, and specifically to devices using solar energy to produce distilled water.

The purpose of the invention is to increase productivity by reducing heat loss.

FIG. 1 is a schematic of a desalination device; in fig. 2 - heat pipe evaporators, cross section.

A device for desalination of water by solar energy contains a heat exchanger 1 of preheating, a solar desalination plant 2 associated with it, made in the form of a heat-insulated casing 3 with a translucent coating 4 and absorber 5 located in it and chutes 6 for collecting condensate. The housing 3 has an insulation 7 and a nozzle 8 for supplying water for desalination from the heat exchanger 1. The desalination device also contains heat pipes with evaporators 9 and condensers 10. The surface of the evaporators 9, engraved to the absorber 5, is mirrored, and portions of the surface of the evaporators 9 facing the translucent coating 4 are installed flat elements reflecting solar radiation 11, which form a dihedral angle оС at the intersection. with the apex directed to the translucent coating 4. Thermal insulation 12 is placed between the surface of the evaporators and the flat elements 11.

The device works as follows.

Water from heat exchanger 1, heated due to the heat absorbed from condensers 10 heat pipes, flows through pipe 8 to blackened absorber 5. In desalination plant 2 water under the action of solar energy is heated, evaporated and most of it condenses on the cooler surface of heat pipes and the residue is on the light-transparent coating 4. The condensate formed flows into the channels 6 and is discharged outside into the condensate collection tank (not shown).

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FIG. 2

Compiled by M. Valov

Editor A. VorovichTechred I. VeresKorrektor L. Patay

Order 7172/33 Circulation 659 Subscription

VNIIPI USSR State Committee for Inventions and Discoveries

113035, Moscow, Zh-35, Raushsk nab. 4/5 Production and printing company, Uzhgorod, ul. Project, 4

The sun's rays, the passage through the light-transparent coating 4 and, partially reflecting from the flat elements 11, fall on the blackened surface of the absorber 5, without heating the surface of the heat pipes facing the sun.

Under the action of solar irradiation, the surfaces of the flat elements 11 are heated, but do not cause the evaporators 9 of the heat pipes to heat up due to thermal insulation 12 installed between them.

Part of the sunlight reflected from the water on the absorber 5, as well as secondary radiation from the heated absorber 5, falls on the lower mirror surface of the evaporators 9 heat pipes, from which they return to the absorber 5 upon repeated reflection.

Claims (2)

1. A device for desalination of water by solar energy, containing a heat exchanger for preheating water, an associated solar watermaker, made in the form of a heat-insulated body with a translucent coating and placed in it, a solar energy absorber and chutes for condensate collection, and heat pipes evaporators of which placed in the desalination unit under the translucent 0 coating over the absorber, and condensers in the heat exchanger, characterized in that, in order to increase productivity by reducing heat losses, the surface of the evaporators of heat pipes facing the absorber is mirrored, and on the part of the evaporators surface facing the translucent coating there are reflective at the intersection between the flat elements, the flat elements form a dihedral angle with the apex directed toward the translucent coating. 2. The device according to claim 1, characterized in that between the evaporators of the heat pipes and the reflecting flat elements there is thermal insulation. // 0