DE2836179A1 - Solar reactor for chemical processes - with concentric spherical shells located in focus of solar rays - Google Patents

Abstract

A solar reactor for the use of focussed sunlight for water gas or methane processes or for coal gasification is located in the focus of a parabolic mirror. The rays enter through an opening in a spherical shell, permeable to radiation, which is surrounded by a concentric shell, impermeable to radiation. The space between them which contains baffles to enforce a swirling flow, receives the feedstock gas, if the rays enter from the 7 o'clock position, from a pipe in the 12 o'clock position, two cracked gas outlets, one with a dust taphole, are in the 9 and 3 o'clock position. This facilitates the assembly of the solar reactor in a parabolic mirror or in heliostat towers.

Description

Solar reactor

The invention relates to a solar reactor for water gas, methane or similar process, especially for coal gasification by means of irradiation from concentrated sunlight.

From DE-OS 27 22 209 a solar radiation reactor has become known, which consists of a reactor chamber made of concrete or similar, into which bundled sunlight reflected through an opening and through a reflector cone to the inner walls of the reactor is scattered. Two feed lines are used to feed in chlorine and hydrogen into the chamber in which both substances ionize as a result of solar radiation will. The products obtained in this way enter a due to the overpressure effect Combustion chamber into which atmospheric oxygen is used to induce a controlled explosion is initiated. The resulting pressures and amounts of heat are made available for further use, e.g. in a prime mover.

From this document it is therefore known that the energy content is more concentrated Using solar radiation to induce chemical reactions. The construction However, it does not allow it, for example, in the focal point of a trackable parabolic reflector to attach.

In addition, the reactor is unsuitable for carrying out continuous operations chemical processes in which different products to be separated arise.

The object of the invention is to provide a solar reactor which It allows chemical processes to be carried out in a continuous process by means of solar radiation run in it and its design allows it to be in the focus of radiation concentrators, such as trackable parabolic mirrors, or else at the Heliostat tower concept to be arranged as an absorber.

This task is solved by an inner, radiation-permeable Hollow spherical shell, an outer, radio-opaque shell arranged at a distance from it Hollow spherical shell, one located essentially in the direction of irradiation, on the outer hollow spherical shell attached process gas inlet, one essentially arranged radially to the direction of irradiation, formed by the outer hollow spherical shell Fission gas outlet, fluidizing means inserted in the reaction zone in between, one that depends on the type of process and is arranged in the area of the cracked gas outlet Dust cover and a recess that allows irradiation.

Further refinements of the invention emerge from the subclaims.

The advantage that can be achieved with the invention arises in particular from the efficient construction, which in addition to good yield, above all, the Ulachführbarkeit of the mirror not obstructed The invention is based on the figure, which is in half section shows two variants of the solar reactor, described in more detail.

Concentrated sunlight is used together with both variants. The concentration can be carried out using any suitable method. Preferred becomes the principle of the arrangement of the reactor in trackable parabolic mirrors, whereby the reactor is installed in the focal point due to its specific characteristics, The sunlight passes through a recess 14 into one of an inner hollow spherical shell 4 formed interior. The hollow spherical shell 4 is permeable to radiation and can consist of a suitable glass.

A second, outer hollow spherical shell is located at a distance from this 15. This shell is radiopaque and made of a known suitable Material that is adapted to the coefficient of thermal expansion of the inner shell is, as well as *) but also the use in the tower concept or similar.

is beneficial. load-bearing element of the construction can serve. About the shell 15, the mechanical Connection to other parts of the receiving structure made.

A process gas inlet 1 is at the top approximately in the direction of the irradiation attached lying down. A cracked gas outlet 5 is about 900, i.e. radial to Direction of irradiation arranged.

The reaction zone 3 is located between the two points bringing about intensive contact of the process gas with sunlight can be used in the reaction zone 3 fluidizing means 2, e.g. fluidizing plates, and a spiral-shaped flow over the spherical surface can be created with the help of baffles 8 can be generated. In both cases it is advisable to place the funds on the inner wall to attach the outer hollow spherical shell, as this is due to their material properties this is better suited, on the other hand, the passage of radiation on the inner hollow sphere is not hindered. It can also be proceeded in such a way that the means 2.8 are also radiolucent.

The cracked gas outlet 5 is designed as an annular channel, of which the individual Branch off the outlet nozzle. For the purpose in coal gasification it is inevitable, that dust is produced. In order to be able to remove the dust from time to time, a dust tap is necessary 7 provided below the ring channel. The flow described above provides, among other things, also to ensure that no dust can settle in the reaction zone, this one rather, it will collect at the bottom of the ring channel. Through the openings 7 he can there can be easily removed.

In this area, the outer and inner hollow spherical shells 4.15 become mechanical connected to one another, e.g. by placing the inner hollow spherical shell in a receiving groove is inserted into the outer hollow spherical shell and screwed or similar.

A seal 6,9 is introduced there between the two shells.

It can also be an asbestos fabric, which with a water cooling system 10 is provided. In this way it becomes through that in the poetry Evaporating water ensures good cooling of the transition area.

In an embodiment not shown in detail, the hollow spherical shells are in the manner of a test tube cylindrically or also conically elongated. The cracked gas outlet is then arranged at the end of the body thus created. Through this it is achieved that the reflected radiation over a wide area in the reactor remains and is well used.

In the embodiment described so far, it is advisable to use the concentrated To allow radiation to enter the reactor against the direction of gravity, i.e. the process gas inlet is "above" in the natural sense.

In a variant of this, the direction of flow is reversed, see above that the process gas inlet becomes the cracked gas outlet and vice versa. In this case it is particularly useful if the concentrated radiation enters the reactor from above occurs and this itself is reversed. Any necessary dust extraction is then simply in the extension of the cracked gas outlet lying in the direction of gravity feasible.

Finally, according to a further training not shown provided that the hot cracked gas is heated approximately by means of a heat exchanger of the supplied process gas is made usable. In this way, the heating-up span be reduced in the reactor.

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Claims (11)

Solar reactor PATENT CLAIMS 1. Solar reactor for water gas, Methane or similar process, especially for coal gasification means Irradiation of concentrated sunlight, not shown by a inner, radiation-permeable hollow spherical shell (4), one arranged at a distance from it outer, radiopaque hollow spherical shell (15), a substantially in Direction of irradiation, attached to the outer hollow spherical shell (15) Process gas inlet (1), one essentially radial to the direction of irradiation arranged cracked gas outlet (5) formed by the outer hollow spherical shell, swirling means (2) inserted in the intermediate reaction zone (3), one depending on the type of process, in the area of the cracked gas outlet (5) arranged dust tap (7) and a recess allowing radiation (14). 2. Solar reactor according to claim, characterized in that g e k e n n -z e i c h n e t that the cracked gas outlet (5) is designed as an annular channel and that of it Branch off individual outlet nozzles. 3. Solar reactor according to claim 2, characterized in that g e k e n n z e i c h -n e t that the dust tap (7) is designed as an annular channel below the cracked gas outlet and that individual tapping nozzles branch off from it. 4. Solar reactor according to claim 1, 2 or 3, characterized g e k e n n -z e i c h n e t that in the reaction zone (3) a spiral-shaped flow generating Means (2) are present, and that the means are attached to the outer hollow spherical shell are. 5. Solar reactor according to claim 1 or 4, characterized in that g e k e n n -z e i c h n e t that the means (2.8) are permeable to radiation. 6. Solar reactor according to claim 1 to claim 3, characterized g e -k e n n z e i c h n e t that at the seam or receiving point between the inner (4) and outer hollow spherical shell (15) which can be used as expansion compensation and seal Material, preferably an asbestos fabric (9) is inserted. 7. Solar reactor according to claim 6, characterized in that g e k e n n -z e i c h n e t that the asbestos fabric is cooled by means of a water cooling system (10). 8. Solar reactor according to the preceding claims, characterized g e k It is noted that the inside of the outer hollow spherical shell (15) is reflective is trained. 9. Solar reactor according to one or more of the preceding claims, thereby g e k e n n n z e i c h -n e t that the cracked gas outlet (5) at the end of a cylindrical or conical extension adjoining the hollow spherical shell the reaction zone is arranged. 10. Solar reactor according to the teaching of the invention, thereby g e k e n n z e i c h n e t that process gas inlet and cracked gas outlet (flow direction) are interchanged that the cracked gas outlet (5) in the direction of gravity is arranged, and that the dust extraction in the extension of the cracked gas outlet (5) is feasible. 11. Solar reactor according to one or more of the preceding claims, as a result, the fission gas is wholly or partly used for preheating of the process gas can be exploited.