DE3206617A1 - Device for recovering heat from the microbial decomposition of organic substances - Google Patents

Abstract

A device for recovering heat produced during the microbial decomposition of organic substances in a fermentation reactor has a fermentation reactor. The fermentation reactor is a completely transportable container (1), which is cylindrical and rotatable. By this means, the transportable container can be rotated as a whole during operation and the energy outlay can be considerably reduced. Water-conducting, double-walled, cylindrical heat exchanges (7, 8) standing in direct contact with the material to be fermented can be arranged concentrically at certain distances within the container. This achieves an intimate contact of the fermenting material with the heat exchanger surface. <IMAGE>

Description

Device for obtaining heat from microbial

Decomposition of organic substances Additional patent application for patent application No. P 31 33 479.2.

Additional patent application to patent application No. P 31 33 479.2.

Patent No. ... (Application No. P 31 33 479.2) relates to a device to generate heat from microbial decomposition of organic organic Substances arises in a rotting reactor, and the device according to the main patent is characterized by the fact that the rotting reactor is a fully transportable, insulated one.

The container can be set up freely and is also transportable during operation is and with quickly separable or connectable connecting devices to Connect the container with the object to be heated or its heating circuit is provided.

The device according to the main patent represents a discontinuous one Heat recovery system.

But it turned out during the operation that for the rotting of organic materials that are difficult to digest, a quasi continuous one System is desirable, with fresh organic material also during operation can be refilled.

Due to the low amount of heat per amount used for heavy Rotting material needs fresh material more often in a certain time interval must be newly supplied in order to gain a sufficient amount of heat for heating.

The device according to the present invention can be characterized be that the container is cylindrical and rotatable. This achieves that the transportable container can be rotated as a whole during operation. Another The advantage is that the effort required for a circulation device lying inside the container was required, considerably can be reduced. During the operation of the container must only be intermittent Way the container can be rotated, ensuring that the rotting Material is always in close contact with the heat exchanger surfaces. Ever Depending on the speed of rotation of the container, the dwell time of the rotting Material can be determined in the device. This matters when the rotting Material should only be partially digested.

According to the invention, the container can be placed on a permanently mounted holding device, which is provided with support rollers and a drive device, can be placed freely.

One of its ends of the holding device can have a lifting cylinder. Due to the rotary movement and the one raised by means of the lifting cylinder on one side Position of the container ensures that the drainage and simultaneous Refilling of the container can be done easily.

Furthermore, according to the invention, in the container at certain intervals water-bearing, double-walled, cylindrical heat exchanger arranged concentrically that are in direct contact with the material to be rotted. Through this there is intimate contact of the rotting material with the heat exchanger surface achieved which contact is vital for the transmission of the arising Warmth is.

In addition, according to the invention in the middle of the container a tubular Be arranged heat exchanger.

This results in very intimate contact with the rotting material with the heat exchanger surface.

According to the invention, the internal, cylindrical shaped Heat exchangers can be formed in sections with gaps. This creates a Mixing of the material in the container is achieved.

According to the invention, the distance between two adjacent heat exchangers be a maximum of approx. 60 cm. This distance is advantageous because of the thickness of the layer of rotting material from which the heat is to be obtained, 25 - 30 cm not should exceed a satisfactory contact of the rot the material with to ensure the heat exchanger surface.

According to the invention, the container can advantageously have an outside diameter of approx. 2.30 m and a length of approx.

6.00 m.

In addition, according to the invention, the container can be equipped with aeration and ventilation devices to the. Control the rotting process be provided.

The invention is explained below with reference to the drawing. It Fig. 1 shows an end view of an embodiment of a device according to of the invention with the container open, FIG. 2 a substantially longitudinal one Vertical section through the device in Fig. 1 and Fig. 3 pertaining to a detail the water duct on the front of the tank.

In Fig. 1 and -2, a device is shown that a roteactor having. The rotting reactor is designed as a fully transportable and fully lockable Drum or container 1 formed. The container can be set up freely and also transportable during operation and can be easily separated or connected bare Connecting devices for connecting the container to the object to be heated or its heating circuit. The container 1 is cylindrical and has preferably an outer diameter of approx.

2.30 m and a length of approx. 6.00 m.

The container 1 is designed in such a way that it can be used as a whole during the Operation can be rotated. The container 1 is on a permanently mounted holding device 2 can be placed freely, with support rollers 3 and 4, a holding roller 5 and a drive device provided in the form of a gear motor 6. One of its ends of the holding device 2 has a lifting cylinder 10.

In the container 1 are water-bearing, double-walled, cylindrical heat exchangers 7 and 8 arranged concentrically, which are in direct contact stand with the material to be rotted. It has been found to be crucial Significance for the t) transfer of the resulting heat is the intimate contact of the rotting Material with the heat exchanger surface is, the thickness of the layer of rotting The material from which the heat is to be obtained must not exceed 25-30 cm target. It follows that the distance between two heat exchangers is not 60 cm may exceed. The heat exchangers 7 and 8 can be designed so that they as double-walled cylinders themselves form the elements supporting the system or Due to corrosion conditions, water-bearing plastic mats can also be used be placed on the supporting steel cylinder as a heat exchanger. According to the outside the container 1 is used for thermal insulation with a corresponding insulation layer 9 provided.

One advantage of the device is that the force required, the previously required for a circulation device located inside the container can be reduced considerably. Through the rotary movement and the means of the lifting cylinder 10's raised on one side Position of the container It is easy to empty and refill the container at the same time will.

During the operation of the container must only be intermittent Way the container can be rotated, thereby ensuring that the rotting Material.

always in intimate contact with the surfaces of the heat exchangers 7 and 8 located.

Depending on the inclination and speed of rotation of the container, the Residence time of the rotting material in the device can be determined. this is important when the rotting material is only partially digested target. The residence time can also be determined by those located on the heat exchangers 7 and 8 Swirl plates 11 are influenced.

In the version with double-walled, cylindrical heat exchangers 7 and 8, which are filled with the heat transfer medium, is the flow rate and to choose the direction so that the cylindrical heat exchangers 7 and 8 respectively can be fully flowed through, with the liquid e.g. in the external heat exchanger 7 opposite to direction 12 (FIG. 2) in the heat exchanger located further inside 8 flows. In the embodiment shown, a third heat exchanger can also be used 13 can be arranged in the form of a tube in the middle of the container.

Due to the fact that the distance between the heat exchangers 7, 8, 13 Should not exceed 60 cm, it would be advantageous to choose the following: A water-bearing Outer jacket (inner 2.10 m), another double-walled, cylindrical one at a distance of 60 cm Heat exchanger 8 and a tubular heat exchanger 13 in the middle of the container.

The inner double-walled cylindrical heat exchanger 8 can also possibly formed in two or more tubular sections with spaces between them in order to achieve a thorough mixing of the material in the drum.

A ventilation device can be in the form of two annularly arranged so-called drainage pipes 14 (Fig.l) are formed, with the air via a Ring, which is arranged at the top of the container, through the entire container is sucked through and again by means of the second annular drainage pipe, the i% btgeStuewill be installed at the lower end of the container device anyway To make it portable, a fan can be installed inside the container.

For filling with organic, rotting materials such as straw, Tree bark and green mass, a filling funnel divided into two chambers 16 and 17 becomes 18, the two cylindrical heat exchangers lying inside one another 7 and e fills evenly. After the filling process, the container is attached to both Sides closed with heat-insulating panels and put into operation.

The supply and discharge of the heat-transferring medium must be carried out in this way be, dap by means of various sealing elements during the rotary movement of the water cycle is completed so that the water in the fixed lines of the to be heated Object can be pumped (Fig. -3). This can be done as -Vorlauf 19 and Return 20 of the heat transfer system at one end of the container l's on the in the Axis located in the middle and, as in FIG. 3, with the front 2 and return 25 of the heating system can be connected. As in FIGS. 1 and 2, struts 21 may be provided. The filling funnel 18 (FIG. 2) is advantageously removable. Of the Tray 1 is with guide rails ai22 and 23 provided in which the Support rollers 3 and 4 can run.

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Claims (9)

Claims: 1. Device for the production of heat, which at microbial decomposition of organic substances occurs in a rotting reactor, according to patent no. ... (application no. P 31 33 479.2), characterized in that the container (1) is cylindrical and rotatable. 2. Apparatus according to claim 1, characterized in that g-e k e n nz e i c h n e t that the container (1) on a permanently mounted holding device (2) with support rollers (3, 4) and a drive device (6) is provided, can be placed freely. 3. Apparatus according to claim 2, characterized in that g e k e n nz e i c h n e t, dap one of their ends of the holding device (2) a lifting cylinder (10). 4. Apparatus 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 container (1) at certain intervals water-bearing, double-walled, cylindrical heat exchangers (7, 8) are arranged concentrically in direct Be in contact with the material to be rotted. 5. Apparatus according to claim 4, characterized in that g e k e n'nz e i c h n e t, that in the middle of the container (1) a tubular heat exchanger (13) is arranged is. 6. Apparatus according to claim 4 or 5 ,. thereby g e -k e n n z e i c h n e t that the internal, cylindrical heat exchanger (8) in sections is formed with spaces. 7. Apparatus according to claim 4, 5 or 6, characterized in that g e.k e n n z e i c h n e t that the distance between two nearby heat exchangers (7, 8, 13) is a maximum of approx. 60 cm. 8. Device according to one of the preceding claims, characterized in that g It is not noted that the container (1) has an outside diameter of approx. 2.30 m and a length of approx. 6.00 m. 9. Device according to one of the preceding claims, characterized in that g It is not noted that the container (1) has aeration and ventilation devices is provided to control the rotting process.