EP0242418A1 - Process for treating tobacco and similar organic materials - Google Patents

Abstract

Apparatus to expand shredded material, the latter is impregnated with an inert organic liquid which is evaporated subsequently. The substantial portion of the impregnant is separated. To eliminate the residual amount of impregnate still contained in the material, the material is fed in heaps on a conveyor belt (36) to a microwave chamber (39). Upstream and downstream of the microwave chamber, one sluice each (38,40) is provided. The gates (43,44;49,51) of the sluice are synchronized with the drive of the conveyor belt (36). Microwave energy is supplied under continuous control to the microwave chamber (39). The vapors are removed by suction lines (47,55) and fed to a regenerator for recovery of the impregnant.

Description

The invention relates to a method for treating tobacco and similar organic materials,
in which the material is impregnated with an inert organic liquid and is heated above the boiling point of this liquid by introducing a hot gas, the liquid evaporating with expansion of the material,
- And after the expansion, a part of the vaporized liquid is recovered while a remainder remains in the material.

Such a process is known from DE-OS 19 17 552 and DE-OS 22 03 105. In the known processes, tobacco is impregnated with liquid or vaporous inert organic compounds. In a subsequent heat treatment with a gas or water vapor, the impregnating agent is evaporated, the tobacco expanding, ie the tobacco is loosened and increased in volume. To extract the To reduce to a minimum the soluble components normally present in the tobacco to be treated, the impregnating liquid should be introduced into the tobacco in the vapor state. This also enables a reduction in the amount of impregnation agent required. As the tobacco expands, its filling capacity is increased by 60 to 120%. The impregnating agent evaporated during the expansion is discharged together with the gas. The expanding agent can be recovered from the mixture. A disadvantage of this known method is that a remainder of the impregnating agent remains in the expanded tobacco. In order to remove these residual amounts from the expanded tobacco, it is necessary to store the tobacco for a long time until the impregnating agent has evaporated. Such storage means a loss of time in the tobacco treatment and it requires appropriate storage facilities with equipment for tobacco conditioning. The remaining amount removed by storage is difficult to recover.

From US Pat. No. 3,828,797 it is known to carry out the expansion of tobacco by subjecting the tobacco impregnated with a volatile organic liquid to a microwave treatment. In this process, all of the energy required to evaporate the expansion medium is supplied in the form of microwaves. Such a high-energy microwave treatment is extremely difficult on an industrial scale, because when the expansion medium is completely evaporated, the overheating easily Tobacco material can occur. It is practically not possible to dose the microwave energy in such a way that the entire expansion agent evaporates, but on the other hand there is no overheating of the tobacco. Furthermore, the energy consumption of this known method is very high. The process works under laboratory conditions, but is hardly feasible for large-scale applications.

The invention has for its object to provide a method of the type mentioned, in which the residual amount of impregnating agent still present in the tobacco after expansion is removed from the tobacco in a short time without expensive storage.

To achieve this object, it is provided according to the invention that the material (e.g. the tobacco) is subjected to a microwave treatment after the expansion, the remainder of the impregnating liquid being evaporated and removed for recovery.

In the process according to the invention, the material to be treated is first expanded by evaporating volatile inert organic compounds, for example halogenated hydrocarbons, using the known process described at the outset. Following the expansion step, the tobacco is then subjected to a microwave treatment in order to drive off the residues of the impregnating agent which are still present in the tobacco and to carry them out for recovery. The microwave treatment therefore does not recover the entire impregnating agent, but only the remainder that remained in the tobacco after the first process step. The residual amount is removed with relative low microwave energy and is controllable in terms of control technology. With the microwave treatment there is no further expansion step, only the removal of the remaining impregnation agent.

In order to prevent the material from drying out during the microwave treatment, the material is moistened to 15 to 70%, preferably to 18 to 40%, before the microwave treatment. After completion of the microwave treatment, the material should again have the usual average moisture of 10 to 16%.

The individual steps of the method according to the invention can be regulated well and bring about a gentle treatment of the material without the risk of thermal overload. In addition, the impregnating agent is almost completely recovered, so that practically no losses occur.

The invention further relates to a device for microwave treatment. Microwave treatment on an industrial scale and especially in continuous operation is very difficult to carry out because the microwave chamber requires complete shielding. The invention solves the problem of maintaining the shielding of a microwave chamber during continuous operation. According to the invention, a microwave chamber is provided, through which a conveyor belt passes and to which a suction line is connected; in the course of the conveyor belt, a lock is arranged directly in front of and behind the microwave chamber, which has gates that can be opened alternately; the conveyor belt passes through the door openings and can be moved through a gap in the door opening when the door is closed.

The locks make it possible to maintain the shielding of the microwave chamber in any state and still to feed and empty the microwave chamber in continuous operation.

The method and the device for microwave treatment according to the invention are not only suitable for the treatment of tobacco but generally for the expansion treatment of organic material, e.g. of spices.

In the following an embodiment of the invention is explained in more detail with reference to the drawings based on the processing of tobacco.

• Fig. 1 eine schematische Darstellung des gesamten Verfahrensablaufs und
• Fig. 2 eine schematische detailliertere Darstellung der Mikrowelleneinrichtung, in der der zweite Verfahrensschritt durchgeführt wird.

Show it:

• Fig. 1 is a schematic representation of the entire process and
• 2 shows a schematic, more detailed illustration of the microwave device in which the second method step is carried out.

1, tobacco is fed to the impregnation device 11 via a humidifier 10. The impregnation device 11 consists of a screw conveyor 12, in the inlet end of which the impregnating liquid is introduced in addition to the tobacco. This liquid is supplied in vapor form via line 13. The inert organic liquid is preferably halogenated hydrocarbons, for example trichlorofluoromethane (Frigen-11). Others for expansion usable inert organic liquids are specified in DE-OS 19 17 552 and DE-OS 22 03 105.

From the outlet of the screw conveyor 11, the tobacco arrives at the expander 14, to which hot water vapor, which has been heated in the heater 16, is fed by a blower 15. The temperature of the water vapor (or another gas used as a heat carrier) is above the boiling point of the impregnating agent, so that it evaporates and causes an increase in volume of the tobacco material in the expander 14.

A line leads from the outlet of the expander 14 to a cyclone 17. The tobacco sinks in the cyclone 17 to the lower outlet 18, while the gaseous components escape through the upper outlet 19. A return line 20 leads from the outlet 19 to the heater 16. A line 21 branches off from the return line 20 and leads to the regenerator 22, in which the impregnating agent is removed from the steam. The vapor components (water and air) are discharged into a sump 23 while the impregnating agent is fed into the tank 24. From the tank 24, a line 25, which contains a pump 26, leads to the evaporator 27, the outlet of which is connected to line 13. The evaporator 27 causes the impregnating liquid to be introduced into the impregnating device 11 in vapor form.

From the outlet 18 of the cyclone 17, the tobacco arrives at a steam-operated separator 28 for the impregnating agent and from there via a conveyor 29 to a conditioning drum 30. From the separator 28, further impregnating liquid, which is still present in the tobacco, is conveyed via line 21a. fed to the regenerator 22.

The device described so far is known from DE-OS 22 03 105. With regard to the details of the device and the first process stage to be carried out with it, reference is expressly made to the cited publication, which is hereby made part of the present disclosure.

From the outlet of the conditioning drum 30, a conveyor 31 leads to the portioning device 32 for loading the microwave device 33, in which the second stage of the process, namely the microwave treatment, is carried out.

In the conditioning drum 30, the moisture content of the tobacco is set to 15 to 70%, preferably 18 to 40%. The dwell time of the tobacco in the conditioning drum 30 is 0.5 to 3 minutes, preferably 0.5 to 1.5 minutes. The conveyor 30 leads to the portioning device 32. This consists of a container 34 (FIG. 2) which can be pivoted about a horizontal axis and which can be tilted in order to pour the tobacco material over the chute 35 onto the conveyor belt 36, whereby on the conveyor belt Tobacco pile 37 is created. The drive of the conveyor 30 is synchronized with the tilt control of the container 33 so that a predetermined amount of tobacco is entered into the container 33 until it is filled, which can be determined by a level detector. Thereafter, the conveyor 31 is stopped until the container 33 has been emptied and then has reached its receiving position again.

The upper run of the conveyor belt 36 leads through the lock 38, the microwave chamber 39, the lock 40 and the discharge chamber 41. The lock 38 consists of a chamber closed on all sides made of a material that shields electromagnetic waves. A gate opening 42 is provided in the outer wall of the chamber and can be closed with a shielding gate 43. The upper run of the conveyor belt 36 passes through the lower end of the gate opening. The gate opening 42 is dimensioned such that a tobacco heap 37 lying on the conveyor belt 36 can be moved through it into the lock 38. When the tobacco heap is in the lock 38, the gate 43 is shut down so that it closes the gate opening 42. Now the gate 45 is raised in the wall that separates the lock 38 from the microwave chamber 39, so that the corresponding gate opening 44 is exposed. The conveyor belt 36 is driven again so that the tobacco heap 37 enters the microwave chamber 39.

The microwave radiation sources 46 direct microwave energy into the microwave chamber 39. As a result, the impregnating agent in the tobacco and part of the tobacco moisture are evaporated. The evaporated constituents are sucked out of the microwave chamber by suction lines 47 and suction blowers 48 and fed to line 21b, which leads to regenerator 22.

Moisture sensors and / or temperature sensors 41 are arranged in the lock 38 and in the microwave chamber 39, which measure the moisture or temperature of the tobacco without contact and their signals in a control Unit 53, for example a microprocessor, are processed in order to change the microwave power or the belt speed so that the tobacco leaving the microwave chamber 39 has a predetermined residual moisture, while on the other hand overheating of the tobacco is avoided.

The microwave chamber 39 is operated continuously, i.e. the microwave sources 46 are constantly switched on. The conveyor belt 36 is operated continuously at a speed with which the control of the gates is synchronized. While the gate 43 in the lock 38 is open, the gate 45 is closed and when the gate 45 is open the gate 43 is closed, so that the microwave chamber 39 is shielded from the environment at all times. This avoids the emission of microwave energy.

Depending on the moisture and temperature of the tobacco, the microwave radiation sources 46 can be switched on or off individually or in groups by the control unit 53.

The outlet-side lock 40 also consists of a chamber through which the conveyor belt 36 passes and which has a gate 49 on the wall which separates it from the microwave chamber 39, which gate 49 can close the gate opening 50. The gate 51, which can close the gate opening 52, is located on the opposite wall. The movements of the gates 49 and 51 are also synchronized with the belt speed of the conveyor belt 36, with at least one of these gates being closed at all times. The lock 40 has a greater length than the lock 38 and forms one After-treatment chamber from which moisture and any residues of the impregnating agent that may still be present are sucked off.

Impregnation agents and moisture can evaporate in the locks on the tobacco. For suction, the locks 38 and 40 are connected to suction lines 55 with suction fans 56. These suction lines lead to line 21b. Instead of the suction blowers 48 and 56, a common suction blower can also be provided in the line 21b.

The gates of the locks 38 and 40 are designed so that a narrow gap remains free for the passage of the conveyor belt 36 even when the gate opening is closed, so that the conveyor belt 36 can still move through an actually closed gate opening. At the bottom of each gate (not shown) flexible aprons made of shielding material can be attached, which do not hinder the movement of the conveyor belt, but do not allow the passage of microwaves.

The walls of the locks 38 and 40 and the microwave chamber 39 and also the gates are made of gas-impermeable material, so that no vapors can escape into the open.

By moving the conveyor belt 36 by the distance between two heaps, a tobacco heap 37 is conveyed into the lock 38, a tobacco heap is conveyed from the lock 38 into the microwave chamber 39, a tobacco heap is conveyed from the microwave chamber 39 into the lock 40 and another tobacco heap will within the lock 40 is conveyed from one position to another position.

As an alternative to the example in FIG. 2, there is the possibility of carrying out the control in such a way that the tobacco piles are arranged in denser order, so that more than one tobacco pile is located in the microwave chamber 39.

According to the method described, tobacco or other organic materials can be processed in the form of chips, strips, leaves, stems or from reconstituted leaves. The method is preferably used for processing chip-like material. The impregnating agent content can be reduced to less than 1% of the residual content still present after the first process step.

In a departure from the microwave treatment described above in a microwave chamber provided with lock chambers, it is also possible to carry out the microwave treatment batchwise in a chamber to be switched off.

Claims (5)

1. method for treating tobacco and similar organic materials,
in which the material is impregnated with an inert organic liquid and is heated above the boiling point of this liquid by introducing a hot gas, the liquid evaporating with expansion of the material,
and in which, after the expansion, a part of the vaporized liquid is recovered while a remainder remains in the material,
characterized in that, after expansion, the material is subjected to a microwave treatment, the remainder of the impregnating liquid being evaporated and removed for recovery. 2. The method according to claim 1, characterized in that the material is moistened before the microwave treatment to 15 to 70%, preferably to 18 to 40%. 3. Device for the microwave treatment of tobacco or similar materials, in particular for carrying out the microwave treatment according to claim 1, characterized in that a microwave chamber (39) is provided, through which a conveyor belt (36) passes and to which a suction line (47) is connected is that in the course of the conveyor belt (36) immediately before and A lock (38, 40) is arranged behind the microwave chamber (39), which has two gates (43, 45; 49, 51) that can be opened alternately so that the conveyor belt (36) passes through the gate openings (42, 44, 50, 52) and can be moved through a gap in the gate opening when the gate is closed and that a loading device (32) is provided for applying discrete material piles (37) to the conveyor belt (36). 4. The device according to claim 3, characterized in that the conveyor belt (36) is continuously driven and that the movements of the loading device (32) and the gates (43, 45, 49, 51) are synchronized with the drive device of the conveyor belt (36) . 5. Apparatus according to claim 3 or 4, characterized in that at least one of the locks (38,40) is connected to a suction line (55).

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