DE3825115C1 - Vibrating fluidised bed - Google Patents

Abstract

Vibrating fluidised bed for simultaneous conveying and treatment of bulk material having a gaseous medium, in which the bulk material is conveyed in the longitudinal direction onto a first perforated bottom by means of vibrational drive and the gaseous medium flows from the underside through the perforation of the bottom into the region of the bulk material. In order to improve the energy utilisation, the throughput being increased, a second perforated bottom 2 is provided below the first perforated bottom 1, the gaseous medium of the second bottom 2 flowing in and the gaseous medium being warmed in the space 5 formed by the two bottoms. <IMAGE>

Description

The invention relates to a vibrating fluidized bed simultaneous promotion and treatment of bulk goods with a heated, gaseous medium in which the bulk material is on a perforated floor by means of vibration drive Conveyed in the longitudinal direction and the heated, gaseous medium through the perforation of the bottom from the bottom into the Area of the bulk material flows.

Such a vibrating fluid bed is from the Company brochure "Economic process engineering with the AEG Vibrating Fluid Bed ", AEG Aktiengesellschaft, Vibrating and welding technology, and known from GB-PS 8 29 389. The Vibrating fluid bed is a combination for bulk goods that are to be handled during transport, for example, gently dried, cooled, heated or be burned. Especially with larger bulk material flows the bulk material is conveyed on a perforated floor is evenly penetrated by a gaseous medium. In particular, thermal treatment of the Bulk goods using a heated, gaseous medium thought. By means of a vibration drive is known in Way the bulk material from the inlet side to the outlet side of the Vibration fluidized bed promoted. By a suitable one The drive speed can be controlled by controlling the drive thus the dwell time of the bulk material in the fluid bed vary, regardless of the air flow over the Perforation of the floor.  

The bulk material is continuously fed to the inflow through a metering channel abandoned floor. It travels through the linear vibrations of the drive towards the outlet. Cooling air and heating gases are blower, heat rope The shear and nozzle are dosed and directed below the perforated base fed to the bulk material. In this way, the entire bulk material becomes the same moderately flowed through and treated. The exhaust air is blown by a fan Interior dissipated.

The known vibrating fluidized beds have various disadvantages. When the hot air flows through, only a small proportion of their energy is generated transfer to the bulk material. The majority of the energy remains unused as exhaust gas. With long dwell times within the device only a small throughput. If to increase throughput several vibrating fluid beds have to be set up, one results large parking space, which in many cases is not acceptable.

The invention has for its object a vibration fluidized bed with it make high throughput and improved energy utilization available, whereby a compact design is also sought.

This object is achieved according to the invention in that below a a second perforated bottom is provided for the first perforated bottom, that the gaseous medium through the perforation of the second bottom flows and that the gaseous medium formed in that of the two floors th space is heated.

So there is an increased throughput with better energy utilization achieved. Since the funding takes place on a raised floor, through Reducing the channel width a more compact design can be achieved. By heating the gaseous medium in the mezzanine if necessary, also reduce the temperature of the primary inflowing medium be tied. In principle, it is also possible to treat the bulk good with a non-heated or even cooled gaseous medium perform.  

The essence of the invention will be explained in more detail with reference to the drawing.

The figure shows a schematic representation of a vibrating fluidized bed, which according to the invention has a first and a second perforated floor 1 , 2 , which form a perforated double floor. A bunker 4 is provided on the inlet side 3 , from which the conveyor trays 1 and 2 are loaded with bulk material. For this purpose, the two floors are staggered in the bunker outlet. By means of a vibration drive (not shown), the bulk material on the two floors is moved towards the outlet side by micro-throwing movement. In the space 5 between the two floors 1 and 2 , heating elements 6 , 6 ', 6 '', 6 ''' are arranged. The space below the floor 2 is closed by the box 7 forming a cover, which forms an inflow space for the inflowing air. The air admission takes place via the connection piece 8 , 8 ', 8 '', 8 ''' attached to the box 7 . The air is heated before it enters the inflow space and gives off part of its heat when it flows through the bulk material located on the base 2 . Then the cooled by the heating process air in the space 5 by the heating elements 9 , 9 ', 9 '', 9 ''' reheated, whereby the air is brought back to the treatment temperature for the bulk material on the first För derboden 1 . Then the air leaves the treatment room via the cover with exhaust air spigot 10 , 10 ', 10 ''.

The formation of the perforated raised floor doubles the throughput of the device with the same external dimensions. The better energy utilization results from the fact that the residual heat after flowing through the perforated lower base 2 is used as usable waste heat for the temperature treatment of the bulk material which is located on the conveyor base 1 . För dergut is available on the discharge side after the thermal treatment at the discharge nozzle 11 on both conveyor floors.

The two conveyor trays 1 and 2 can either be loaded with the same or different bulk material. If the same bulk material is used, the loading of the trays can take place in the manner shown in the figure from a bunker into which both conveyor trays protrude.

An advantageous development of the invention is that one Conveying process in combination with the thermal treatment used for classification at the same time. The first part of the upper conveyor bottom designed as a sieve on the inlet side. With the sieve the smaller particles reach the bottom conveyor floor and are promoted there and also thermally treated.

The heating elements can be used as gas or electric radiators or but also pipe or fins through which a liquid heat transfer medium flows heating elements are formed. In addition to heating the by the un air flowing through the soil is also directly passed through the bulk material Radiation heat is supplied so that the temperature of the primary entering Air can be reduced compared to a device without additional heating. Also this improves the energy balance of the device. The heating elements in the gap can also be omitted if heated air is additionally for example, from the sides into the space. This solution is useful when close to the vibration flow a waste heat process takes place.

The vibrating fluidized bed can be expanded in such a way that in addition to the two perforated trays 1 and 2, one or more additional trays are provided. In this way, one or more intermediate spaces are additionally created, which can optionally be provided at least partially with heating elements. In the vibrating fluid bed illustrated in the figure, an advantageous treatment of the bulk material can be carried out in such a way that the upper floor 1 is pretreated with the bulk material in front of the given conveying direction, while a post-treatment takes place on the lower floor 2 with opposite conveying material guidance. With this procedure, the gaseous medium in the intermediate space 5 only needs to be heated to a significantly lower extent.

Claims (11)

1.Vibration fluidized bed for the simultaneous conveyance and treatment of bulk material with a heated, gaseous medium, in which the bulk material is conveyed on a perforated floor by means of a vibration drive in the longitudinal direction and the heated, gaseous medium through the perforation of the floor from the bottom into the area of the bulk material flows, characterized in that
that a second perforated floor ( 2 ) is provided below a first perforated floor ( 1 ),
that the gaseous medium flows in through the perforation of the second base ( 2 ) and
that the gaseous medium is heated in the intermediate space ( 5 ) formed by the two trays ( 1 , 2 ). 2. Vibrating fluidized bed according to claim 1, characterized in that the second floor ( 2 ) is covered on its underside with a distance and thus an inflow space for the supplied by the cover ( 7 ), gaseous medium is formed. 3. Vibrating fluid bed according to claim 1 or 2, characterized in that in the intermediate space ( 5 ) heating elements ( 9 ) are arranged. 4. Vibrating fluid bed according to claim 3, characterized in that the heating element ( 9 ) is an electric radiator. 5. Vibrating fluid bed according to claim 3, characterized in that the heating element ( 9 ) is a gas or oil burner. 6. Vibration fluidized bed according to claim 3, characterized in that the heating element ( 9 ) is a with a liquid heat transfer medium through which flows the tube or fin element. 7. Vibrating fluidized bed according to claim 1 or 2, characterized in that a gaseous medium of higher temperature flows into the intermediate space ( 5 ). 8. vibrating fluidized bed according to one of claims 1 to 7, characterized, that the gaseous medium is air. 9. Vibrating fluidized bed according to one of claims 1 to 8, characterized in that the first perforated bottom ( 1 ) is formed on the inlet side to a predetermined length as a screen section. 10. Vibrating fluidized bed according to one of claims 1 to 8, characterized in that separate metering devices for the first and second perforated bottom ( 1 , 2 ) are provided on the inlet side. 11. Vibrating fluidized bed according to one of claims 1 to 10, characterized in that in addition to the first ( 1 ) and second ( 2 ) perforated bottom, a further or more further floors are provided at a distance from one another with the formation of corresponding spaces.