DE19816552A1 - Sludge drying assembly consists of two parallel wedge ladder racks - Google Patents

Abstract

A continually-operated assembly is claimed for drying sludge of organic or inorganic origin without the introduction of heat from an external non-renewable power supply e.g. electrical energy. The assembly has a material feed zone which simultaneously functions as a drying zone, in which the sludge is continually fed from an receiving point to a discharge point. The novelty is that: (a) the sludge flow between the receiving point to a discharge point is effected by horizontal ladder-rack conveyers independently operated in parallel pairs; (b) each ladder-rack conveyer consists of a series of horizontal wedges whose apex is advanced rapidly into the mound of sludge, and reversed slowly, advancing the sludge towards the discharge point.

Description

The invention relates to a device for Performing a continuous Drying process for inorganic or sludge organic origin without the supply of foreign thermal energy.

The drying of various sludges on the Fields of processing technology, the Process engineering or with various environmental technologies has been practiced for a long time in order to To increase the proportion of dry matter or in order to reduce the proportion of liquid phases. The one with it accompanying volume reductions of Starting materials and specific weights especially in the case of organic sludges the desired effects. Are even more significant often the resulting dried end products for subsequent uses or final storage. The state of the art holds for the implementation of related drying process numerous Devices are available, all through the The disadvantage is that foreign energy for the drying process is used. Furthermore, they run to the state of the art belonging drying processes discontinuously. An exception for selected ones Drying process z. B. the so-called Fluid bed dryers where the volume Throughput as comparatively low and the use on thermal drying energy as particularly high must be evaluated.  

The state of the art devices for such drying processes are also fundamental due to the disadvantages of high investment costs and Operating costs marked. After all, they have to material flow functions with the drying technology functions combined will. In addition, there are peripheral depending on the need Facilities z. B. for condensation Suspension separation and to avoid more diverse Emissions. The associated with the drying process material changes in the starting material sometimes still require special facilities for Management of solid, liquid and gaseous phases. The interaction of these functions means that the Sludge drying devices increased to require great effort and that the technical Availability is often not sufficient. Especially the high demand for external thermal is serious Energy, without its availability a drying process in the devices belonging to the prior art cannot be done.

For the material flow utilization of these devices often belong to different sizes Material buffer, which further increases the construction effort elevated.

However, devices that are advantageous mobile or semi-mobile versions are marked and all in all a relatively small space requirement require.

Basically, it should be noted that the status of Devices belonging to technology for carrying out Drying process for sludge each for approximate specific starting materials constant parameters with regard to the material Composition and on the material flow technology  Characteristics are designed. This has the consequence that a wide variety of these devices have emerged which are not awarded universal uses can be.

According to the invention, a device for Carrying out a drying process for sludge proposed in which the relevant state of the Reduced or avoided inherent disadvantages should be.

The suitability of the device according to the invention is intended for inorganic or organic sludges different origins and compositions be guaranteed, with all parameters in With regard to material composition and Material flow parameters within wide limits can be changeable.

Grain sizes of up to 500 mm can be used in the starting material and be present and the proportion of Dry matter can have a minimum value of approx. 10% be. The material changes in the Starting material, e.g. B. any and permanent Changes in inorganic and / or organic Shares are without adverse effects. This The device according to the invention has advantages achieved in that the material flow of one Drop-off point to a drop-off point with one Funding is accomplished by changing Conveyed goods properties is independent. Such Properties can be a so-called ladder conveyor in the design as a train or push ladder conveyor be awarded. The ladder-like funding body exists from two longitudinal spars, between which at intervals wedge-shaped ladder rungs are arranged. This ladder-like funding body is z. B. by a  Hydraulic cylinder inside both sides Longitudinal guides in a reciprocating motion transferred. Is between the wedge-shaped rungs another wedge-shaped retaining element on the Arranged base whose function is to that the material to be dried by means of Ladder rungs pushed over this retaining element and on the return stroke through this the rear Movement of the material is prevented. this has inevitably the consequence that the back and forth moving delivery ladders a material flow from the Effect drop point to drop point. During this Material flow becomes the material to be conveyed when it passes through the Retaining elements between each rung of the ladder are arranged, so to speak, so that the material being conveyed constantly during the material flow inevitably from the base to the surface is turned. During these turns, it will Conveyed goods also inevitably jagged, so that it has a large surface. To achieve a continuous material flow must have at least two this ladder-shaped conveyor with the between the Fixed ladder rungs on the base Restraint elements arranged in parallel next to each other be and in reciprocal reciprocating movements are offset. Depending on the available area, you can avoid large conveyor and drying sections also angled Arrangements can be chosen. The actual drying effect takes place during the Material flow by using natural solar energy as Radiant heat acts on the material. Of course, the conveyor line with a Provide light and heat-permeable cover. Furthermore, the housing can be designed so that  natural air circulation begins. If necessary, peripheral facilities are available Avoidance of odor emissions or for deodorization to use.

The one associated with the drying process Volume reduction of the conveyed goods is at Design of the ladder conveyor to take into account by e.g. B. the ladder rungs with - seen in the conveying direction - lower heights and resulting lower volume flow rates be, while maintaining the stroke lengths and Stroke frequencies.

Likewise, the adjustment of the volume Delivery flow of course also with reduced Stroke frequencies and stroke lengths can be achieved. The continuity of the material flow is already there guaranteed if at least 2 delivery ladders in parallel are arranged side by side and these are mutually out of phase in a reciprocating motion be transferred.

The energy requirement to be installed results solely from the kinetic energy for the funding process from the Material feed for material delivery. For the actual drying process is no stranger thermal energy needed.

The energy requirement for the material flow becomes too realizing low conveyor speeds as well due to the low dead weight of the delivery ladders and favorable coefficients of friction should be small. The desired advantages with the Device according to the invention for performing a continuous sludge drying process of inorganic and organic origin without addition of external thermal energy should be created are therefore reachable. In addition, it is possible  that depending on the TS content of Starting material by varying the material flow parameters different Drying levels are adjustable, what with the adjustable dwell time in the system is reached. Of course, this variation can also be found in Dependence on the supply of natural Drying energy take place when choosing the material the housing must be taken into account. Required Extensions of the device according to the invention can through modular additions to the funding and Drying lines take place, which is right from the start Choice of location and the available construction area is to be considered.

In the drawing, an embodiment of the Device according to the invention shown.

Fig. 1 shows a longitudinal section in which it can be seen that the sludge ( 1 ) is conveyed at the material feed point ( 2 ) in the rear part of the bunker ( 3 ), where it falls directly onto the ladder conveyor ( 4 ). These are e.g. B. by means of a hydraulic cylinder ( 5 ) in a reciprocating movement. The ladder conveyors ( 4 ) move within lateral longitudinal guides ( 9 ) and a central longitudinal guide ( 10 ). The ladder conveyors ( 4 ), of which at least 2 are to be used so that a continuous flow of material is generated, each consist of the lateral longitudinal spars ( 6 ) between which the ladder rungs ( 7 ) are fastened. These ladder rungs ( 7 ) have a wedge-shaped cross section, the side facing the material discharge point ( 12 ) having a vertical surface, as seen in the conveying direction. When the conveyor element moves, i.e. the conveyor ladder formed from the longitudinal spars ( 6 ) and the ladder rungs ( 7 ) fixed between them, the material to be conveyed sludge ( 1 ) is pushed towards the material discharge point. During a lifting process, this conveyed sludge ( 1 ) is pushed over a retaining element (B) which is also wedge-shaped in cross section. During the return stroke, the conveying material sludge ( 1 ) is prevented from moving backwards by the retaining element (B), so that a total conveying direction from the material feed point ( 2 ) to the material discharge point ( 12 ) is created. The retaining elements ( 8 ) are attached directly to the base of the bunker ( 3 ). A bunker demolition edge ( 11 ) is arranged in the area of the material discharge point ( 12 ) at the end of the bunker ( 3 ). This is designed obliquely so that the sludge ( 1 ), which is now considered dried, can reach the subsequent discharge conveyor ( 13 ) over a corresponding width.

The reciprocating translational movement of the ladder conveyors takes place alternately, that is to say out of phase, so that the sludge ( 1 ), which has meanwhile dried in the meantime, passes continuously via the hopper demolition edge ( 11 ) into the subsequent discharge conveyor.

The entire material flow area is provided with a light-permeable and heat-permeable housing ( 14 ), and thus the entire material flow area is also the drying area.

The associated with the drying process, which takes place without the supply of external thermal energy, volume reduction of the material to be conveyed sludge ( 1 ) necessarily changes in the material flow parameters, which z. B. with adjusted heights of the ladder rungs ( 7 ) can be regulated.

Fig. 2 is a plan view of the device according to the invention for performing shows a continuous drying process for inorganic and organic sludges.

Fig. 3 shows a cross section through the bunker ( 3 ) with the internals mentioned. The drawing does not show that the device according to the invention can be provided with peripheral devices to avoid odor emissions or for deodorization.

The embodiment shown in the drawing refers to a linear arrangement, the overall length depending on the Output variables, in particular the water content and the required degree of dryness is to be determined. Of course, angular or polygonal arrangements of drying areas possible.

Material throughput can be expanded by parallel arrangements of further drying areas will be realized  

Reference list

1

Conveyed mud

2nd

Material supply point

3rd

bunker

4th

Ladder conveyor

5

Hydraulic cylinder

6

Longitudinal spar

7

Ladder rungs

8th

Retention element

9

lateral longitudinal guidance

10th

medium longitudinal guidance

11

Bunker demolition edge

12th

Material delivery point

13

Deduction funds

14

Enclosure

Claims (6)

1.Device for carrying out a continuous drying process for sludges of inorganic or organic origin without the supply of external thermal energy, consisting of a material flow area which is at the same time a drying area, the sludge to be dried being conveyed continuously from a material feed point to a material discharge point, characterized in that that the material flow between the material feed point ( 2 ) and the material discharge point ( 12 ) by means of the conveying properties of the material to be dried sludge ( 1 ) is accomplished in pairs and parallel side by side ladder conveyors ( 4 ), which in turn from longitudinal spars ( 6 ) with in between at intervals fixed wedge-shaped ladder rungs ( 7 ) and z. B. from a hydraulic cylinder ( 5 ) in a reciprocating translational movement, whereby the material to be conveyed sludge ( 1 ) is inevitably moved in the direction of the material discharge point ( 12 ) and is pushed at each stroke via a retaining element ( 8 ), which at Return stroke prevents the backward movement of the conveyed material sludge ( 1 ) and which at the same time causes a circulation process of the conveyed material sludge ( 1 ), so that it is fissured with each stroke and turned towards the surface, and that the material flow area also functions as a drying area by natural solar energy as radiant heat through a light and heat-permeable housing ( 14 ) strikes the material to be conveyed sludge ( 1 ), which due to the conveying technology always offers a large surface area and is constantly circulated. 2. Device for carrying out a continuous drying process for sludge according to claim 1, characterized in that the ladder conveyor ( 4 ) within lateral longitudinal guides ( 9 ) and a central longitudinal guide ( 10 ), which are each provided with sliding material, are performed. 3. Device for performing a continuous Drying process for sludge according to claim 1 and 2, characterized, that multiple material flow areas working simultaneously Drying areas are angular or polygonal in Dependence on local conditions be connected in series. 4. Device for performing a continuous Drying process for sludge according to claim 1 to 3, characterized, that peripheral facilities to avoid Odor emissions or intended for deodorization will. 5. A device for carrying out a continuous drying process for sludge according to claims 1 to 4, characterized in that the place with the progress of drying and material flow in the direction of material delivery ( 12 ) associated volume reduction of the conveyed material sludge ( 1 ) by correspondingly decreasing heights of the ladder rungs ( 7 ) - viewed in the direction of material flow - are taken into account if stroke lengths and stroke frequencies otherwise remain unchanged. 6. Device for performing a continuous Drying process for sludge according to claim 1  to 5, characterized, that additional foreign thermal energy as Drying energy z. B. from the bottom is used to reduce the overall length.