SU1490396A1 - Solar liquid heater - Google Patents

Abstract

The invention relates to solar technology and makes it possible to increase the efficiency of a solar heater. In the case with a translucent coating, pipes 3 with an absorbing surface are arranged in parallel. Reflectors 4 are optically connected with pipes 3 to a semi-cylindrical surface, the axis 5 of each of which is located above the level of axis 6 resp. pipes. The radius R of the reflector and the distance L between the axes of the reflector and the pipe are related to the radius R of the pipe by the relations R = 2.5 R

L = 0.5 R. At the same time, max. pipe surface is used. Edges 7 adjacent reflectors m. interconnected by means of an absorbing flat lintel 8, to-ra captures a portion of the radiant flux, converts it into heat and creates a thermal barrier between the casing and the tubes 3. 1 hp f-ly, 6 ill.

Description

Fi.6

3U90396

the invention relates to heliotechnology

nick, to focusing collectors.

The aim of the invention is to improve efficiency by maximizing the use of the absorbing surface of pipes.

FIG. 1 is a top view of a solar heater; in fig. 2 - section A-Anafig, 1; FIG. 3 is a section BB in FIG. 2; in figs; heating option according to p. 2 of the claims; in fig. 5 section bb in FIG. 4; Fig. 6 shows an assembly consisting of an optically coupled reflector and a tube, a section;

The liquid gel heater contains a body 1 with a translucent coating 2 and parallel to it pipes 3 with an absorbing outer surface and optically associated reflectors 4 with a semi-cylindrical surface, axis 5 of each of which is located above the level 6 of the corresponding pipe 3, Radius R reflector A and the distance 1 between axes 5 and 6 of the reflector 4 and the pipe 3 is related to the radius g of the pipe 3 by the following relationship:, 5r;

5g

When performing a solar heater according to FIG. 4, the edges 7 of adjacent reflectors 4 are interconnected by means of a heat absorbing flat web 8, Pipes 3 and reflectors 4 are installed in the housing 1 on the heat insulating supports 9. The pipes 3 are connected in parallel to the collectors 10 and 11 to the branch pipe and the branch pipe 12 and 13,

A liquid gel heater works as follows.

Through inlet 12 and

Q 5

0 5

0

0

five

As the experiment showed, when the axis 6 of the tube 3 is removed from the axis 5 of the reflector 4 at a distance of 1 greater than 0.5 g with, 5, the reflected radiation partially passes the surface of the tube 3, and partially falls on it in the scattered form, if the axis of the tube 6 3 is above the level of the axis 5 of the reflector 4, or if the axis 6 of the pipe 3 is located below the level of the axis 5 of the reflector 4, the latter obscures the surface of the pipe 3 during the morning and evening hours. Thus, with, 5r and 5g, the surface of the tube 3 is used to the maximum and the energy losses during radiation re-reflection are relatively small.

Jumpers 8 capture a portion of the radiant flux and converting it into heat, heat the coolant and air in the housing 1, creating a thermal barrier between the housing 1 and the pipes 3, reducing heat loss through the housing 1.

Thus, the described design features of the solar heater increase its K1SC,

Claims (2)

Invention Formula 1, a liquid solar heater, comprising a housing with a translucent coating and parallelly arranged pipes with an absorbing surface and optically associated reflectors with a semi-cylindrical surface, the axis of each of which is located above the level of the axis of the corresponding pipe, which differs in order to increase the efficiency, the radius of the reflector and the distance between the axes of the reflector and the tubes are connected the collector 10 of the coolant (for example, 45 with the radius of the pipe as follows) goes into the pipes 3. Through the translucent coating 2 of the housing 1, the sun's rays are partially absorbed by the outer surface of the pipes 3 and bridges 8, if they are provided, causing them to heat. The sun rays that do not fall on the pipes 3 and the lintels 8 are reflected from the surface of the reflector 4 and directed onto the lower surface of the pipe 3, and then absorbed by it. The heat medium heated therewith is discharged through a collector 11 and a branch pipe 1 3, 50 55 by: , 5r; 5g where R is the radius of the reflector: g is the radius of the pipe; 1 - the distance between the pipe axis and the reflector, 2. The solar heater of 1,. O t l in that the edges of the adjacent reflectors are interconnected by means of an absorbing flat web. by: , 5r; 5g where R is the radius of the reflector: g is the radius of the pipe; 1 - the distance between the pipe axis and the reflector, 2. The solar heater of 1,. O t l in that the edges of the adjacent reflectors are interconnected by means of an absorbing flat web. J. Jn 12 10 figure 1 ten A- A 11 r 2 ; j t A V eleven H : E H 5-6 Fig.Z FIG. 5 Editor M. Bandura Compiled C, Overseas Tehred A. Kravchuk Proofreader S. Cherni Order 3733 / AI Circulation 634 VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113035, Moscow, Zh-35, 4/5 Raushsk Nab. 1490396 5-H AT -C Subscription