DE7623143U1 - SOLAR COLLECTOR MADE OF LIGHT ALLOY WITH SELECTIVE SURFACE - Google Patents

Description

(It becomes the priority of the Italian patent application No. 50678 A / 75 of July 25, 1975 claimed).

The present invention relates to a special, high-performance solar collector, which is able to provide temperatures of about 80 ⁰ C.

It can also be used for air conditioning in apartments, for solar pumps, used for distillation and desalination of water, etc.

The known, in a simple way the incident radiation absorbing solar collectors for the heating of Household liquids usually consist of a flat or nearly flat metal surface.

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You to be heated liquid must flow in its own passages, which underhall) the surface mentioned and arranged are thermally connected to this.

An attempt is made to the flow channels for the su warinende Forming the liquid in one piece in the part forming the absorption surface and using a material with high thermal conductivity (copper or aluminum). Through this it is achieved that the temperature of the Afcsorptionsflache only is slightly higher than the temperature of the liquid, whereby heat losses are reduced.

The cheapest material, which is therefore normally used, is aluminum and its alloys.

A well-developed concept for the creation of solar collectors is that as an absorption surface To use aluminum construction known as "roll bond". Two thin sheets of aluminum will be after on them the cooling channels were recorded, placed next to each other. in the In the area of these recorded locations, a substance is interposed, which is capable of a connection through To prevent rolling of the two sheets. The two sheets are now rolled, so that a mutual connection of the adjacent surfaces, with the exception of those in the area of the Cooling channels, is achieved. With a pneumatic system one can now the plastic deformation of the sheets in the Cause area of the non-welded zones, whereby the cooling channels corresponding to the original sketch are formed. Of course, at the inlets and outlets of the jsu A connection to the inlet and outlet pipes can be established for the heating liquid, which is usually done by welding.

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The aforementioned system is quite cheap as it mainly uses a cheap material (aluminum), but they are The technologies required for the creation of the collector are nevertheless quite complicated and have to work in several successive phases for the formation of the final product can be applied, thereby increasing working hours and labor costs. Another disadvantage of the aforementioned The concept is given by the fact that in this mode of operation the shape of the absorbent surface can not be optimized, but rather that one can must be satisfied with obtaining a flat or approximately flat surface which is practically the surface of the the original sheet.

Another disadvantage is that the diameter of the channels is very small and thereby the risk of clogging Channels.

The surface properties can of course be improved, by matting and blackening the surfaces, for example by applying a matt black lacquer. A further improvement of the absorption capacity can be achieved by a suitable treatment of the surfaces, so that a so-called selective surface is obtained.

The principle is to use a material, in the given case aluminum, which normally reflects solar radiation and has a low emission in the infra-red range, in order to subject it to a surface treatment so that it absorbs solar radiation as much as possible, however, it retains its own low emissivity in the infrared region. This can be achieved, for example, by depositing thin films of CuO, CuS, MoS ₂ , NiS or iron oxides on the aluminum.

In this way the absorption of solar radiation is up

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to values between 40 and 75 ° / ° , depending on the type of treatment carried out. It is obvious, however, that "with flat surfaces, a good part of the incident energy is always lost through reflection.

In order to obtain surfaces with low emission and total absorption, it is not enough to use a suitable treatment the flat surfaces, as it is normally carried out in solar panels of known types, but it is also necessary to have an optimalized Determine the shape of the surfaces yourself.

According to the main feature of the invention is the solar collector characterized in that it consists of a monoblock made of light metal with high thermal conductivity, the one multi-reflective surface to capture the incident radiation and integral with the monoblock formed channels for the passage of the liquid, which surface has depressions in the longitudinal direction and provided with radiation-absorbing films or paints, the monoblock being on top through a plate Radiation-permeable material and at the bottom by heat-insulating material Material is protected.

Another feature of the invention is that the radiation absorbing surface in the longitudinal direction with adjacent parallel grooves is provided with a V-shaped cross section.

Another feature of the invention is that the radiation absorbing surface in the longitudinal direction with adjacent parallel grooves is provided with an ogival cross-section.

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By means of the solar collector according to the invention, In its main component, which is the plate that absorbs solar radiation and heats the liquid all of the following optimal properties are achieved:

1) using a material with high conductivity, cheap price and relatively low specific weight; According to the invention, aluminum is proposed as a suitable material,

2) Formation of cooling channels that are enclosed in the heating element to, as already mentioned, the tea temperature difference to reduce as much as possible between the absorbing surface and the liquid to be heated »

3) Application of a work system that enables a Obtain heating element of optimal shape in the cheapest and fastest way, with the least possible number of working phases is used to get to the end product; The production of Profiles by extrusion and their parallel connection with the inlet and outlet pipes by tight connections, such as for example by welding. This work system enables the creation of compound Profiles for the absorbent surface and also allows the formation of cooling channels contained therein with a About half an inch in diameter so that there is no risk of prone to clogging the ducts. A Working stone, namely injection molding, which makes it possible would have to get the finished element including the inlet and outlet pipes in a single work phase discarded because it turned out that the finished product contains too much material (it is not possible to produce small diameters below a certain value), and that the aluminum obtained is inferior Has thermal conductivity,

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4) Influence of selective surfaces, i.e. of absorbent surfaces that have been appropriately treated, to keep your emissions in the infrared range to a minimum decrease (below 0.10),

5) Realization of optimally shaped absorption surfaces, in order to increase the absorption capacity of the system to a maximum in view of the use of selective surfaces in the system

This point is actually tied to the possibility of using selective surfaces, since significant advantages are obtained by eliminating the only disadvantage which is due to the losses due to reflection. on the other hand is only then the aforementioned measure of increasing the absorption through a suitable geometric arrangement of the surface advantageous and beneficial if selective surfaces are used, whereas this measure would be discouraged in the case of surfaces with high emissivity.

It should also be noted that when flat selective surfaces are used, the losses due to emission in the infrared range would probably be small, but the losses due to the reflection of the flat surface could not be avoided.

The proposal according to the invention to eliminate the aforementioned disadvantage and to increase the effective absorption of the surface to values which are practically in the vicinity of 100 % of the incident radiation consists in the creation of folded surfaces.

The invention will now be better explained in one embodiment with reference to the drawings. It shows:

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Pig. 1: a profile according to the invention Solar panel, and

Pig. 2 »two examples of profiles 2a and 2b of the surface and the reflections of the incident Radiation.

With reference to the drawing, the solar collector consists of a monoblock, with the surface 2 with rollers 3 and with the channels 4.

The simplest way of realizing a surface profile88 consists of a series of adjoining small Vs of a depth of a few millimeters and with an opening angle between 40 and 60 °.

The profile obtained by extrusion is thereby made up of a series of adjacent parallel grooves with a V-shaped cross-section covered (Fig. 1).

The solar collector consists of a series of profiles mounted side by side, which are oriented in such a way that the The axis of the grooves is approximately perpendicular to the plane created by the rotation of the direction of incident radiation during the day it is described, which has the advantage that it is not necessary to turn the collector, because its surface is always perpendicular to the incident radiation, as with flat collectors, but im trap according to the invention, the grooves allow the rays to be used throughout the useful hours of the day.

It can be seen that in this way each incident light beam is reflected several times before it leaves the profile escape from the surface (an average of 2 to 3 reflections, depending on the direction of the incident rays).

A small number of reflections usually results in the solar collector having "the greatest possible effective absorption capacity, which is very close to 100 $> of the incident radiation.

Another way of realizing the profile of the Grooves instead of the V-shape with straight sides is the ogive shape with two circular or parabolic ones Arch sections, the concavity of which is seen from the surface on the outside. Of course, many other types of profile can also be used for the grooves, all of which are based on the aforementioned Principle based without thereby exceeding the scope of the invention.

An example of a profile for solar panels in use the basic idea underlying the proposal according to the invention is shown in the accompanying drawing.

The profile is 300 mm wide, so that a parallel arrangement of three profiles next to each other results in a 900 mm wide Receives collector plate. The grooves are 5 mm deep and are arranged in a pitch of 4 mm.

The incorporated cooling channels have a division or a distance of 100 mm, so that there are three channels on each profile are. Each solar collector is then completed by placing a transparent plate 5 on the profiles of glass or plastic at a distance of about 3 to 4 cm, which delimits the upper insulating chamber, and by the profiles are placed on a bed of insulating material 6 in order to reduce heat losses by convection. The cooling channels are connected to the inlet and outlet pipes at both ends.

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Claims (8)

Protection claims 1. Solar collector for direct heating of liquids » characterized in that it consists of a monoblock made of light metal with high thermal conductivity, which has a multiple reflective surface to capture the incident radiation and is integral with it the monobloc * has channels formed below the surface for the passage of the liquid) which surface has depressions in the longitudinal direction and with radiation-absorbing films or paints is provided, the monoblock at the top through a plate made of radiation-permeable material and through the bottom heat is ο because the material is protected. 2. Solar collector according to claim 1, characterized in that the monoblock made of aluminum and its alloys consists. 7623143 25J17S _ 2 - 3. Solar collector naoh claim 1, characterized in that that the radiation absorbing surface in the longitudinal direction with adjacent parallel grooves with V-shaped Cross-section is provided. 4. Solar collector according to claim 1, characterized in that the surface absorbing the radiation in the longitudinal direction provided with adjacent parallel grooves with an ogival cross-section. 5. Solar collector according to claims 1, 3 and 4, characterized in that the opening angle of the grooves is between 40 ° and 60 °. 6. Solar collector according to claims 1, 3 and 4, characterized in that that the grooves have a depth of 5 mm and a pitch of 4 mm. . ^ .. 7. Solar collector according to claim 1, characterized in that the absorbent surface by covering with Iron oxides is made selective. 8. Solar collector according to claim 1, characterized in that the absorbent surface by covering with dark colored metal compounds selectively made j.st.