TEMPERATURE CONTROL APPARATUS

Abstract

A tempering device for tempering of biomass contained in a container, including at least one tempering mechanism, and at least one conveying device for conveying a mass flow of biomass in a main flow direction. The at least one conveying device includes at least one agitator, and wherein the at least one tempering mechanism is arranged in the main flow direction generated by the at least one conveying device. The at least one tempering mechanism is tubular with an inner tube and with an outer tube arranged coaxially to the inner tube. The inner tube and the outer tube form an intermediate space through which a tempering medium may flow. The tempering mechanism is oriented relative to the conveying device such that, in operation of the heating device, at least 40% of the delivery volume of the mass flow generated by the conveying device flows through the inner tube.

Claims

1.-15. (canceled)

16. A tempering device for tempering of biomass contained in a container, the tempering device comprising: at least one conveying device comprising at least one agitator for conveying a mass flow of biomass in a main flow direction, and at least one tempering means arranged in the main flow direction generated by the at least one conveying device, wherein the at least one tempering means is tubular and includes an inner tube and an outer tube arranged coaxially to the inner tube, wherein an intermediate space is disposed between the inner tube and the outer tube through which a tempering medium may flow, and wherein the at least one tempering means is oriented relative to the at least one conveying device such that at least 40% of a delivery volume of the mass flow generated by the at least one conveying device flows through the inner tube.

17. The tempering device according to claim 16, wherein more than 75% of the delivery volume of the mass flow generated by the at least one conveying device flows through the inner tube.

18. The tempering device according to claim 16, wherein more than 90% of the delivery volume of the mass flow generated by the at least one conveying device flows through the inner tube.

19. The tempering device according to claim 16, wherein the at least one tempering means is arranged downstream of the at least one conveying device and is oriented such that a longitudinal axis of the at least one tempering means coincides with a rotational axis of the at least one agitator.

20. The tempering device according to claim 16, wherein the at least one tempering means is a heat exchanger.

21. The tempering device according to claim 16, wherein a diameter of an envelope of the at least one conveying device lies in a range between 100% and 140% of an inner diameter of the inner tube of the at least one tempering means.

22. The tempering device according to claim 16, wherein the at least one conveying device is arranged in the inner tube of the at least one tempering means.

23. The tempering device according to claim 16, wherein the at least one conveying device is a single agitator.

24. The tempering device according to claim 16, wherein the tempering device includes a holding device comprising a foot, wherein the foot is configured to erect the tempering device on a floor of a container, and wherein the at least one conveying device and the at least one tempering means are held on the holding device.

25. The tempering device according to claim 24, wherein the main flow direction generated by the at least one conveying device is oriented parallel to the foot.

26. A biogas plant for production of biogas by microbial conversion of pumpable biomass, the biogas plant comprising: a container for receiving the biomass; a tempering device for tempering the biomass contained in the container, at least one conveying device comprising at least one agitator for conveying a mass flow of biomass in a main flow direction, and at least one tempering means arranged in the main flow direction generated by the at least one conveying device, wherein the at least one tempering means is tubular and includes an inner tube and an outer tube arranged coaxially to the inner tube, wherein an intermediate space is disposed between the inner tube and the outer tube through which a tempering medium may flow, and wherein the at least one tempering means is oriented relative to the at least one conveying device such that, in operation of the tempering device, at least 40% of a delivery volume of the mass flow generated by the at least one conveying device flows through the inner tube.

27. The biogas plant according to claim 26, wherein more than 75% of the delivery volume of the mass flow generated by the at least one conveying device flows through the inner tube.

28. The biogas plant according to claim 26, wherein the container is cylindrical and the tempering device is arranged in the container so that the main flow direction is oriented in a direction of a middle of the container, at an angle of 10 degrees to 40 degrees relative to a radius of the floor.

29. The biogas plant according to claim 26, further comprising at least two further agitators arranged on an inside wall of the container and are distributed evenly over the container with the tempering device.

30. The biogas plant according to claim 26, wherein the tempering device comprises a holding device with a foot, wherein the foot is configured to erect the tempering device on a floor of a container, and wherein the at least one conveying device and the at least one tempering means are held on the holding device.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0019] An exemplary embodiment of the invention is described below with reference to the drawings. The drawings show:

[0020] FIG. 1 a spatial view of a tempering device with an agitator,

[0021] FIG. 2 a side view of a tempering device with an agitator,

[0022] FIG. 3 a top view of a biogas plant with container and a tempering device arranged therein according to FIG. 1, and

[0023] FIG. 4 a spatial view of a biogas plant with container and a tempering device arranged therein according to FIG. 1.

DETAILED DESCRIPTION OF THE INVENTION

[0024] FIGS. 1 and 2 show a tempering device 1 for containers of biogas plants, with an agitator 2 and a heat exchanger 3. The heat exchanger 3 and the agitator 2 are connected to a holding device 5 via carriers 4. The holding device 5 has a floor frame 6 (foot) for erection of the tempering device 1 on the floor of a container. The agitator 2 is arranged with its rotational axis 7 parallel to the floor frame 6. The agitator 2 is directly connected to a drive 8. The drive 8 is thus situated inside the container or biomass during operation of the tempering device. The agitator 2 has three agitator blades 10 mounted on an agitator shaft 9, which rotate about the rotational axis 7 when driven by the drive 8. The agitator blades 10 are configured such that the biomass is drawn in on the side close to the drive and the biomass is pushed away from the agitator 2 on the side remote from the drive. This gives a primarily axial main flow 11 of the biomass, oriented away from the drive 8. The heat exchanger 3 is arranged downstream of the agitator 2 on the side remote from the drive. The heat exchanger 3 is configured tubular with a double wall. The heat exchanger 3 has an inner tube 12 through which the biomass may flow, and an outer tube 13 arranged coaxially to a longitudinal axis. In operation, a tempering medium flows through the intermediate space formed between the inner tube 12 and the outer tube 13. The intermediate space is connected to a tempering medium discharge 14 in a region close to the agitator, and to a tempering medium supply 15 in a region remote from the agitator. The discharge 14 and supply 15 are thus arranged diametrically. The heat exchanger 3 is positioned such that its longitudinal axis 16 coincides with the rotational axis 7 of the agitator 2. The inner diameter of the heat exchanger 3 is slightly smaller than the diameter of the envelope of the agitator 2 or agitator blades 10. The heat exchanger 3 is preferably between 1 m and 3 m long. The heat exchanger 3 is arranged directly behind the agitator 2 in the flow direction 11. The distance between an end face 17 of the heat exchanger 3 close to the agitator and an outer end 18 of the agitator 2, formed by the agitator blades 10, lies in a range between 10 cm and 3 m.

[0025] The holding device 5 furthermore comprises a transport device 19 which, in operation, protrudes out of the biomass contained in the container. By means of the transport device 19, the tempering device 1 as a heat exchanger 3 and the component comprising the agitator 2 may be removed, relocated or inserted even when the container is filled with biomass, without an undesirable evacuation of the container being required.

[0026] The tempering device 1 is arranged in a circular cylindrical container 20, preferably as shown in FIGS. 3 and 4. The container 20 has a circular floor 21 and a wall 22 arranged perpendicular thereto. The longitudinal axis 16 of the heat exchanger 3, or the rotational axis 7 of the agitator 2, is oriented at an angle of around 30° to the radius 23 of the floor 21 of the container 20, so that the agitator 2 moves the biomass away from the wall 22 towards the interior of the container 20. The distance from the wall 22 is ideally selected in an order of magnitude of 1 m to 3 m.

[0027] In order to achieve a good mixing of the biomass, two further agitators 24, 25 are provided. These two agitators 24, 25 are arranged on the inside of the wall 22 and oriented at an angle of 60° to the radius 26, 27 of the floor 21 of the container 20. The agitators 24, 25 are each arranged at an angle of 120° to the tempering device 1, starting from the centre point of the floor. The two agitators 24, 25 and the tempering device 1 are oriented such that they are each arranged in the flow direction and hence generate a main flow of approximately the same orientation in a peripheral direction of the circular floor.

[0028] In the view in FIG. 3, the agitators 24, 25, 2 are arranged such that a substantially clockwise flow is formed.

[0029] In operation, the heat exchanger emits heat to the biomass contained in the container. If the temperature rises too greatly during the conversion to biogas, the heat exchanger may also extract heat from the septic tank. Cooling of the biomass is thus also possible. Any suitable heat carrier, preferably water or thermal oils, may be used as a tempering medium. The agitator pushes the biomass through the tubular heat exchanger and past it on the outside. The tubular structure is advantageous since the surface is oriented substantially parallel to the flow direction of the biomass, and hence deposits and blockages can be prevented. Furthermore, the tubular structure offers a large contact surface via which the biomass is tempered. The targeted flow generated by the agitator increases the through-flow of biomass at the heat exchanger, which leads to an even temperature distribution of the biomass in the container.

[0030] It may also be provided that several agitators are arranged behind each other downstream, each with a heat exchanger.

[0031] The tempering device according to the invention may be installed in the combination fixedly in a container. It may, however, also be provided that the tempering device is configured to be portable so that the device may be removed from the container, for example for maintenance or exchange.

[0032] Depending on the area of application, the tempering device may be installed in the container horizontally or vertically. For example, with circular cylindrical or lying tank-shaped containers (e.g. fermenters), a horizontal orientation is desirable. However, in standing tank-shaped containers, a vertical orientation of the tempering device is preferred.

[0033] The agitator is preferably configured as an axially conveying agitator with two to four agitator blades. The agitator blades are curved, whereby the highest possible speed of the biomass is achieved with a slow running agitator, and hence optimal mixing.

[0034] In large containers, it may be provided that the tempering device has a tube which adjoins the at least one tempering means downstream in the flow direction. Here it is preferred if the tube has approximately the same inner diameter as the at least one tempering means, and the conveyor device or agitator is arranged inside the heat exchanger. This embodiment of the tempering device according to the invention ensures a tempering and mixing of the biomass with a large action radius. Since 100% of the mass flow generated by the agitator flows through the heat exchanger and the tube placed thereon, and a back flow forms outside the tube, remote regions of the container can also be agitated.

[0035] The tempering device according to the invention may be used amongst others in septic tanks or fermenters, hydrolysis fermenters and secondary fermentation containers of biogas plants, and containers of sewage plants. The tempering device is designed such that the biomass can be tempered evenly and effectively, and deposits of biomass on the outside are prevented.