DE3030359A1 - Solar heat collection column - has collector for air and water heat and one for solar heat - Google Patents

Abstract

The collector column with heat absorber is intended for a solar heating system, particularly for supplying hot water. The absorber comprises a collector of max. efficiency each for air and water heat, and one of max. efficiency for solar heat. Each collector can have a separate circuit for its own working medium, or alternatively, the medium can flow first through the air and water heat collector and then through the solar heat collector. At least one collector can have heat-absorbent and/or heater pipes, and the absorbent pipes can include one of good heat conductivity, with apertures in a grid pattern.

Description

Description A collector column with a heat absorber is known the German utility model 78 27 235 published on January 4, 1979.

The heat absorber is hollow on the head and / or shaft, the and discharge for the working medium containing column arranged, if necessary Has power and control lines and thermal insulation.

The heat absorber can be round, oval or polygonal in cross section cylindrical and / or conical or frustoconical in longitudinal section be. It can also be part spherical or spherical.

The heat absorber of the well-known collector column not only takes heat from solar radiation, but also gains heat from the air, from rain and also from snow. To raise the temperature to the desired heating and hot water temperatures a heat pump is also required0 The entire heat absorber of the known Collector column can be used to achieve a high collector efficiency when absorbing heat from sunlight with a translucent closed wall or multi-walled glass or synthetic glass hoods. On days with sunshine The heating of such covered heat absorbers is also high in winter and the heat gain is great.

The mounting and dismantling of the translucent hood is special with large and very high heat absorbers it is always a difficult and lengthy one Work so that it is not even possible to take the hood down night after night and to grow again the next worry.

Heat absorbers for solar heating systems, which are both collectors for air u.Water heat and collectors for solar heat are also available for other collector types.

So an energy roof is known that not only luStu, water heat, but can also collect significant amounts of solar heat. For this purpose, the as Copper roof covering that serves as a heat absorber with glass insulation cells the size of roof tiles covered.

By the intentionally not hermetically sealed cover is has been achieved that both air and water heat as well as solar heat collected will.

The efficiency would be with a hermetically sealed cover when collecting solar heat, on the other hand, the efficiency would be higher Collecting air and water heat extremely low.

The use of energy fences and energy packs is also known with tubes as heat absorbers, but without a translucent cover. they collect also not only air and water heat, but are also added when the sun is shining heated by the sun's heat. However, the efficiency is not that high as with heat absorbers with translucent covers.

Also known is an energy stack that acts as a heat absorber surface having pipelines for the working medium. The heat absorbing surfaces are horizontally one above the other. arranged. With a high degree of efficiency, they collect Lurt and water heat. The one from the sun. irradiated part of the total surface is however not very large and there is no translucent cover. the additional heating of the energy stack when exposed to sunlight can therefore. not have the same high level of efficiency.

An energy column is also known. Your heat absorber is made from vertically or frustoconically arranged finned tubes in a circle, which by a working medium is flowed through. The finned tubes mainly collect Lurt- u0 water heat.

The additional heating in sunlight is effective, because the part of the total surface illuminated by the sun is large. A very However, high efficiency cannot be achieved because the finned tubes are not translucent Have cover.

The present application is based on the object for the known Collector column to find heat absorbers that are as efficient as possible Collect both air and water heat as well as solar heat, without the known collector column required constant attachment and dismantling of a translucent Hood.

The solution to this problem is that according to claim 1 of Heat absorber from at least one collector with the highest possible efficiency fiir Air and water heat and a collector with the highest possible efficiency for solar heat consists.

According to claim 2, each collector can füe its own circuit have their own working medium, this is advantageous in many cases. Separate circuits are z0B. required if the collector for luSt and water heat of a heat pump a liquid working medium -zB. a brine solution feeds, while the collector for Solar heat in a zeolite long-term heat store or a stone heat store Introduces warm air at the highest possible temperature.

According to claim 3, both collectors can successively from the same working medium are flowed through.

If both collectors have a heat accumulator serving as a buffer, e.g. to charge a geothermal heat storage, the result is a very simple line routing.

If the collector columns are right next to the geothermal heat storage, will the line is very short and has little heat loss.

According to claim 4, at least one of the collector heat absorber tubes and / or heat pipes0 Both are particularly suitable for building im Diameter not too large, but high heat absorbers from collector columns. the The use of heat pipes results in collectors for solar heat with a very high degree of efficiency.

According to claim 5 is in the heat absorber tubes through which the working medium flows a tube with sieve-like or grid-like openings. This creates a strong turbulence of the working medium flowing in the heat absorber tube and the heat transfer significantly improved from the heat absorber tube to the working medium0 Another Improvement can be achieved if the heat absorber tube is made translucent is.

The working medium can then be colored dark.

According to claim 6, the heat absorber tubes and / or the heat pipes be provided with washers.

It is known that in this way the effective surface is quite considerable can be enlarged, so that the heat transfer is significantly improved.

According to claim 7, the disks have openings and / or corrugated or incised edges. This makes it possible to prevent condensation from forming and leave rainwater on the panes for such a long period of time that as much heat as possible is transferred from the water to the panes.

According to claim 8, the heat absorber tubes and / or the heat pipes be encased in translucent tubes. This results in the known design of tube collectors that have a high degree of efficiency.

According to claim 9, the heat absorber tubes and / or the heat pipes between two cylinders or truncated cones arranged coaxially to the collector column be installed, of which at least the outer one is translucent. So that results the Common design for flat-plate collectors. By evacuating it is also possible with this design to increase the efficiency, according to claim 10 are the heat absorber tubes and / or the heat pipes in the collector for solar heat enclosed by a translucent hood with translucent elements Has closable openings. In the German utility model application G 80 18 624.9 of July 11, 1980, this proposal is already included. With him will achieves that when the hood is closed, the collection of solar heat is highly efficient and that the collection of air and water heat by opening the hood Night and on grape sunless days is made possible. The collector supports then the actual collector for luxury and water heat is essential and the overall efficiency is thereby increased considerably.

All of the measures specified in the subclaims serve to reduce the to train both collectors as effectively as possible.

In the first embodiment, a collector column is shown at the heat absorber tubes through which a working medium flows.

The absorber pipes of the collector for air and water heat are for enlargement their surface provided with horizontal discs and circularly coaxial to the Collector column between a lower annular container for the working medium and a central annular container installed.

The solar heat collector's absorber tubes are on the surface selectively coated and provided with longitudinal ribs to enlarge their surface. They are also circular and. coaxial to the collector column between the middle one built-in ring-shaped container and an upper container. You are enveloping with provided translucent tubes that are evacuated.

The central ring-shaped container has a horizontal inside Partition wall so that each collector has its own circuit with its own working medium arises.

The collector column ends at the lower container in order for the collector of LuSt and water heat as large a free cross-section as possible for air to pass through to obtain.

Inside the collector for solar heat there is one on the outside Mirrored tube for the reflection of sun and heat rays in the direction of the absorber tubes.

In the second embodiment, a collector column is shown at which flowed through for the collector of Lurt and water heat from a working medium Double-walled plate washers are used, which have corrugated edges. she are installed between the lower and the middle container for the working medium.

The disks sitting on top of each other at a distance are each rotated by half a shaft, so that condensation and rain water from pane to pane drips off.

Air flowing through the plates is caused by the corrugation swirled and thus the heat transfer higher.

The solar heat collector has heat pipes that are hollow inside Absorber cylinder are arranged. They lead the absorber heat to the upper container to. The absorber cylinder has longitudinal waves that are shaped to fit the heat pipes largely encompass 0 Further longitudinal waves can be arranged between the heat pipes, be parabolic in cross-section and mirrored on the surface. You reflect a significant part of the solar radiation towards the heat pipes. Internally Thermal insulation is arranged on the absorber cylinder. Its surface is selective coated and of a double-walled and translucent cylinder is the Absorber cylinder enveloped.

Without any difficulty you can get to the surface of the absorber cylinder some light tubes are attached.

This ensures that their heat by means of the heat pipes Working medium is supplied in the upper container.

With this version, too, each collector has its own cycle for a separate working medium.

In the third embodiment, a collector column is shown at the heat absorber tubes through which a working medium flows in a frustoconical shape between the lower and the upper ring container are arranged. The working medium flows first through the collector for air and water heat and then through the collector for solar heat.

The collector for Lurt ue water heat has to increase the surface horizontally arranged single-walled discs with a flat plate rim. they are connected to the heat absorber tubes with good thermal conductivity.

Forming condensation and rainwater drip from the window pane Disc.

The collector for solar heat has two large, coaxially arranged truncated cones. The heat absorber tubes are arranged between these truncated cones. The outer one The truncated cone is translucent. The inner truncated cone has a mirrored reflective Surface and on the inside a thermal insulation. The space between the truncated cones is evacuated.

The working medium flows from the upper container into the pipe system return.

In the fourth exemplary embodiment, a collector column is shown at the collector for air and water heat arranged horizontally at a distance one above the other, has single-walled disks, alternating with rimless disks that are perforated and are provided with vertical pins, and plate washers with a low outer edge, identify the pipelines for the working medium The working medium flows from the lower Ring container through these pipes to the middle ring container, the one in the middle has a horizontal partition, the perforated pin washer is used for stronger Turbulence of the air flowing through and thus to improve the heat transfer0 Of course the plates could also be sliced with them be equipped with perpendicular pins.

The solar heat collector has plumb heat absorbing tubes o you are in several coaxial circles between the middle and upper ring containers built in and form a cylindrical tubular body.

The heat absorber tubes are designed to increase their surface area with horizontal panes and the entire surface is selectively coated.

The cylindrical tubular body is of a translucent cylinder enveloped. At night and on cloudy, sunless days, the collector is for solar heat ineffective, therefore the translucent cylinder has wings that at night and Opened manually or automatically using servomotors during sunny days werden0 The wings are shaped in such a way that in the open position there is additional flow Catch air and feed it to the cylindrical tube body. The translucent one The cylinder is turned by hand or automatically by means of servomotors so that the The wing openings are always in the direction of the wind, the upper collector then works as a collector of LuStu. water heat and thereby improves the overall efficiency of the plant considerably.

Literature considered 1. Utility model GM 78'27 235, F 24J 3-02, publication date 40 1. 1979 "Collector column with heat absorber".

2nd conference report of the 3rd Int. Sonnenforum from June 24th to 27th, 1980, Hamburg, DGS-Sonnenenergie-Verlag, 8 Munich, pp. I68-177 "ZINCO - Energy Roof".

3. ZeitschriSt "Solar- und Wärmetechnik", Bielefelder Verlagsanstalt, 4800 Bielefeld, issue 2/1980, title page, p. 40 and 48 "Genkinger - Energiezaun and energy package ".

4. Journal "Sanitary and Heating Technology", Krammer-Verlag, 4 Düsseldorf, Issue 5/1980, pp. 454 and 456 "Ritter - Energiesäule".

5th conference report of the 30th Int. Sun Forum from June 24th - 27th, 1980, Hamburg, DGS-Sonnenenergie-Verlag, 8 Munich, pp. 263-274 "RWE - Energie - StapeL.

6, conference report of the 3rd Ink Sun Forum from June 24th - 27th, 1980, Hamburg, DGS-Sonnenenergie-Verlag, 8 Munich, pp. 674 - 682 "Zeolite - long-term - Heat storage ".

7. Book "SonnenkraCt für Jedermann" C.C. Cobarg, Verlag Frech, 7 Stuttgart, 1977S 5. 100 and 101 "Philips tube collectors".

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Claims (10)

Collector column with heat absorber for solar heating systems, in particular for hot water preparation requirements collector column with heat absorber for solar heating systems, in particular for hot water preparation, characterized in that the heat absorber from at least one collector with the highest possible efficiency for air and water heat and a collector with the highest possible efficiency for solar heat. 2. Collector column with heat absorber according to claim 1, characterized in that that every collector has its own circuit for its own working medium0 3. Collector column with heat absorber according to Claim 1, characterized in that both Collectors are flowed through one after the other by the same working medium, where - in the Seen flow direction of the working medium - the collector for LuCt and water heat can be connected upstream of the collector for solar heat0 4. Collector column with heat absorber according to one of claims 1 to 3, characterized in that at least one of the Has collector heat absorber tubes and / or heat pipes. 5. collector column with heat absorber according to claim 4, characterized0 that in the heat absorber tubes through which the working medium flows, a heat absorbing well and a highly conductive pipe is arranged which has sieve-like or grid-like openings. 6. collector column with heat absorber according to claim 4 or 5, characterized characterized in that the heat absorber tubes and / or heat pipes are provided with washers are single-walled or double-walled with a cavity for the working medium and can be plate-shaped or disc-shaped. 7. collector column with heat absorber according to claim 6, characterized in that. that for the water drainage the discs have openings and / or corrugated or incised Have margins0 8. Collector column with heat absorber according to one of Claims 4 to 7, characterized in that the collector for solar heat has one heat absorber tube or several and / or one heat pipe each or several of one translucent Tube or are encased by two translucent tubes, and that the translucent Pipes can be evacuated. 9o collector column with heat absorber according to one of claims 4 to 7, characterized in that the heat absorber tubes in the collector for solar heat and / or the heat pipes between two cylinders arranged coaxially to the collector column or truncated cones are built in, of which only the outer one is translucent, or that both are translucent and that the space between the two cylinders or truncated cones can be evacuated. 10. Collector column with heat absorber according to one of claims 4 to 7, characterized in that the heat absorber tubes in the collector for solar heat and / or the heat pipes from a translucent single or multi-walled glass or artificial glass hoods are enclosed, with a licit-permeable for air passage Elements has closable opening or several or many openings that can be both fully closed and fully opened continuously0