DE10336685A1 - Process for drying wet product, especially slurry, in at least one drying step comprises spreading the wet product on a heated base and rotating it at intervals - Google Patents

Abstract

Process for drying wet product (3), especially slurry, in at least one drying step comprises spreading the wet product on a base (2) and rotating it at intervals. The base is heated by a warm fluid, especially water, in a circulation. An independent claim is also included for a device (1) used for drying wet product, especially slurry, in at least one drying step. Preferred Features: The fluid is heated by a heat pump (6), solar collectors (7), gas, oil, electricity and/or a heat exchanger (8).

Description

The The present invention relates to a method and an apparatus for drying moist material, in particular sewage sludge, in at least one Drying stage, where the moist material to dry on a floor spread out and circulated with a turning device at intervals.

From the EP 1 150 083 A1 is a method of drying wet material is known in which the moist material is dried with drying air. The drying air is heated by a heat source and fed to the drying material. In a preferred embodiment, the drying bed on which the Trocknungsgut is spread, a perforated metal floor. In this case, the drying air is supplied to the drying material both from above and from below. Although the drying is hereby particularly well feasible, the perforated metal floor requires maintenance work, since the holes must be cleaned every now and then and moist material that passes through the holes, collected below the perforated plate floor and must be removed regularly.

From the DE 43 31 820 A1 A process is known for the removal of liquids from sewage sludge, in which the sewage sludge is stored on surfaces which are moved with the aim of redeployment and transport of the sewage sludge to be treated. The surfaces are rebuilt with light and radiolucent material, whereby the enclosed space is heated and additionally ventilated in addition to the redeployment of the materials. In addition, it is also proposed to use heat storage on and in the drying surfaces and in the building area in the form of liquid spaces or ceramics. How these heat accumulators are to be designed and which heat is to be stored therein is not carried out.

task In the present invention, it is the disadvantages described above to avoid and to provide a method and a device in which a fast and largely maintenance-free drying of moist material.

The Task is solved with a method and a device according to the independent claims.

at the method according to the invention for drying moist material, in particular sewage sludge in at least one Drying stage, the moist material is dried to a floor spread out and at intervals circulated. The soil is driven by circulating heated fluid, especially water, heated. Due to the heated soil is the moist material very quickly removed the moisture. The warm soil warms that up Moisture, whereby the moisture contained therein evaporates. By a turning device becomes the moist material at predetermined time intervals turned, whereby the moisture evaporation is optimized. The Fluid that circulates in the circuit and heats the floor, can be kept at a predetermined temperature level. hereby the drying of the moist material is very easy and reliably influenced. By the predetermined temperature level of the fluid becomes the ground assigned targeted drying property. The floor can be closed Surface to be executed, thus avoiding falling through of especially dried moist material becomes.

To the Heating of the fluid are various heating means, such as a heat pump, Solar collectors, gas, oil or electricity heating and / or a heat exchanger. All these heating means are suitable for heating the fluid targeted, wherein they partially heat energy or radiation from other media. For example, the radiation energy used by the sun to heat the fluid. In areas where can be expected with low sunlight, another suitable heating means are used. An adaptation of the heating medium to the circumstances, for example the location of the dryer, is advantageous.

All it is particularly advantageous if the fluid of several heating means is heated simultaneously or alternately. So can an excellent Beneficial effect can be achieved. For example, the combination of Solar collectors, heat pump and heat exchangers especially effective. In sunlight, especially the Solar collector significantly contribute to the heating of the fluid while on cooler During the day or at night, in particular, the heat pump to heat up the fluid becomes. With the heat exchanger may use heat extracted from the wet material or heat from the drying air to reheat the fluid.

Of the Use of the various heating means is particularly useful in dependence their most advantageous efficiency, the time of day or the weather at. So can by a suitable combination of different heating means a supreme efficient drying process can be achieved.

The heat pump and / or the heat exchanger are advantageously used by the heat energy of wastewater and / or the Use drying air of the moist material.

Especially it is advantageous if the heat energy of the fluid is directed towards the moist material. The to disposal standing heat energy is thus used particularly effectively, in particular the Moisture to dry and heat loss by waste heat, which can not be used to dry the moist material minimized becomes.

The Heating means for the fluid is advantageously controlled so that it Keep fluid at a predetermined minimum temperature. This can a targeted drying process can be performed. Suitable for low-temperature drying process a minimum temperature of about 30 ° C. This temperature is too Great for the Use of heat pumps, Solar collectors and heat exchangers as a heating medium, because here a very high efficiency of these heating means is obtained.

Around to obtain a sanitation of the moist material or sweeping sludge, is in a section of the soil over which the moist material is transported or set a significantly higher minimum temperature in a subsequent drying stage. This higher Temperature, which lies in a range around 70 ° C, is either with a Achieved heating medium, which effectively reaches this higher temperature or it is obtained with the same heating medium as the minimum temperature, where it is accepted that the corresponding efficiency is worse.

to support Drying of the moist material with the heated soil becomes the moist material additionally with warmed up Drying air dried, which is opposite to the ground surface fed to the moist material becomes. About that In addition, it can also be provided in another embodiment, that the Floor openings comprising, by which in a known manner the drying air is passed through the moist material and this in addition to warming of the soil is used. This is a particularly fast drying of the moist material.

advantageously, The drying air is heated with the help of solar radiation. there it is beneficial if the area, on which the moist material is spread, in the manner of a greenhouse covered with a transparent foil or with glass plates and roofed over is. The solar radiation heats up doing the drying air and speeds up the drying process.

to Avoiding odors, which in the drying of the moist material, especially in sewage sludge, can arise it is advantageous if the exhaust air is filtered. This will a nuisance avoided the environment and the drying process and the corresponding Device can can also be used in densely populated areas.

A inventive device for drying moist material, in particular sewage sludge, in at least one Drying stage, has a bottom on which the moist material to dry is spread. With a turning device that is partially dried wet material turned to a faster and more uniform drying of the moist material. According to the invention, the floor is provided with a heating system equipped, which is a fluid located in cavities, in particular Water, has. The heating system is a heater for the fluid and a circulation pump for circulate of the fluid in the cavities assigned. By heating the floor in conjunction with the circulation of the Fluids will be a uniform heating of the Soil and thus a particularly fast and uniform drying of the moist material. The fluid becomes the heating means of the heating system supplied and maintained at substantially a predetermined temperature. The Fluid flows through the cavities of the soil and gives it the heat to the material of the soil, which in turn heats the moist material and Dries it by the moisture evaporates.

Especially It is advantageous if the bottom is impermeable. hereby the maintenance is reduced because no dried or half dried wet matter through holes can fall in the ground. On the other hand, it can also be the case for some applications be advantageous to provide the floor with holes and thereby Supply drying air.

is the bottom surrounded by side and / or partitions, so is advantageously made sure that Moisture remains in the area of the soil. In addition, it is possible, too in the side and intermediate walls cavities for the heating attach and pass the fluid, thus adding even more Heat in to be able to bring in the moist material.

is the soil and the moist material with a radiation-permeable cover for Heat the drying air is covered, so will an additional use of solar energy for the Drying of the moist material used. The drying process is thereby accelerated. Furthermore If necessary, odor-intensive exhaust gases are retained and can be filtered.

It is particularly advantageous if the soil is isolated on the side facing away from the moist material. This ensures that the heat dissipation of the integrated in the ground heating takes place substantially exclusively in the direction of the moist material and this heated. The efficiency of the device is thereby substantially increased.

When It has proven to be particularly effective as heating means of Heating a heat pump, Use solar collectors, gas, electricity and / or a heat exchanger. These Heizmüel have also proven to be particularly low maintenance and can in particular in combination achieve optimal drying of the moist material.

Around to be able to make optimum use of the advantages of the individual heating means It is particularly advantageous if the heater is several different Having heating means. By using different heating means, the Strengthen and weaknesses the individual heating means balance each other and thus total for a provide very effective heating system, which brings the floor to the desired temperature. This desired Temperature can be selected by using various different heating means and night are largely maintained. It can thereby also a far-reaching independence be achieved by different weather conditions.

To the Operating the heat pump and / or the heat exchanger The heat energy is particularly well suited of waste water and / or the drying air of the moist material. It can This creates a cycle which is more expensive to supply Energy largely dispensed with. Such a drying plant can economically very inexpensive be operated and also independent from larger installations be set up. As a result, the use of the device according to the invention possible in almost any places. Also can be a mobile System to be created, the drying device depending on Need for the appropriate places and after drying removed the existing moist material and at another site can be set up. To achieve different drying levels and drying intensities, It is beneficial if the soil is in different temperature ranges is divided. The heater, which in this case several from each other independent cycles has, is thereby adjusted so that in a certain area of the soil a higher Temperature is achieved than in another area. It is through a sanitation of the moist material possible, which proliferation of pests in derogation. It may also be useful to have a single heating circuit to be used in the soil, wherein at a corresponding length of the cavities through which the fluid flows, a gradual Cooling of the Fluids occurs, resulting in the achievement of different temperature ranges of the soil can be exploited. Immediately after heating up The fluid is thereby achieved an area in the soil, which is a higher Temperature than after a certain length of the cavity through which the Fluid flows.

is the device associated with an exhaust filter, so is an unpleasant Odor development largely prevented. The use of the device according to the invention can thus be done in the immediate vicinity of settlements.

Around To create a particularly effective device can be advantageous be when the device is multi-level design. In the different floors is each the moist material with a turning device arranged. The individual floors are with the heating system provide and take care of a warming of the soil and thus of the moist material, which thereby gradually dried becomes.

In particularly advantageous embodiment the drying device combines the advantages of solar sludge drying, which works especially with a low energy requirement, with the advantages of thermal drying, which is independent of the weather at high dry residue and a safe throughput capacity dries. Due to the low drying temperature in a range of about 30-45 ° C, in particular of about 40 ° C and by turning the sewage sludge is a caking of sewage sludge largely avoided on the ground. The resulting on the heated surface fast-drying sewage sludge is mixed by the turner with the wet mud and cares thus for a very fast drying of the mud.

is the floor made of good thermal conductivity material, especially aluminum or copper made, which is even better as steel the heat from the pipes with liquid to which moist material can transport, so is a particularly good one Efficiency of the plant to achieve.

Further Advantages of the invention are described in the following embodiment. The sole figure shows a schematic representation of a drying device according to the invention.

In the figure, a drying device 1 shown in schematic representation. On a floor 2 is a wetland 3 spread. The moist material 3 is in particular a sewage sludge, which has about 50-60% dry residue. The in the moist material 3 contained moisture is in the drying device 1 largely from the wetland 3 away.

In the ground 2 are cavities in the form of pipes 4 arranged. The pipes 4 are connected in a cycle. They contain a fluid, especially water, which is heated by the tubes 4 is passed in the direction of the arrow. In order to keep the fluid in motion and thus constantly reheat, is a circulating pump 5 intended. The cooled fluid enters the circulation pump 5 and is sent back into circulation. In this case, the fluid passes through a heat pump in the present embodiment 6 and solar collectors 7 , which are also shown only schematically. For further heating of the fluid, the tube 4 , in which the fluid moves, through a heat exchanger 8th passed. The now in the desired temperature fluid is again the ground 2 fed. Here, the fluid gives its temperature to the material of the soil and finally to the moist material 3 from. The pipes 4 can be, for example, serpentine along the surface of the soil 2 be guided so as to allow optimal heat dissipation.

To the heat transfer of the fluid, especially in the direction of the moist 3 to enable is the soil 2 on the of the damp material 3 opposite side with an insulating layer 9 Mistake. The tubes containing the heated fluid 4 are located closer to the wet material than the fluid returning pipes 4 , But they can also be run side by side to be able to exploit the residual heat of the fluid also.

Especially good is a heat transfer to get to the wetland when the soil is made of a material is made, which has a good thermal conductivity having. In particular, a material which is particularly suitable is a better thermal conductivity as steel has. Advantageous is aluminum or copper.

To support the drying by means of the heated soil 2 is a shell 10 provided the space above the damp material 3 covers. The case 10 is permeable to radiation and thus allows the transmission of solar radiation. The solar radiation heats the space inside the shell 10 and thus additionally contributes to the drying of the moist material 3 by putting the air inside the shell 10 is heated. The case 10 can consist of foil, glass or plastic plates, which on the one hand let through the radiation energy of the sun and on the other hand prevent the cooling.

To ensure uniform drying of the moist material 3 to achieve is a turning device 11 intended. The turning device consists essentially of two halves rotating about an axis 12 which the moist material 3 turn and mix. The turning device 11 is moved back and forth according to the double arrow and turns and mixes the moist material 3 , In addition, the turning device prevents 11 that the moist material 3 on the ground 2 adheres by excessive drying and thus leads to a reduction in the efficiency of the drying device. The turning device can also be adjusted in height so that they moisturize the layer 3 more or less deeply turns and mixes.

For removing the drying air within the envelope 11 is an exhaust fan 13 intended. The exhaust fan 13 takes the space inside the shell 10 the warm drying air and leads it to the heat exchanger 8th to. Inside the heat exchanger 8th the remaining heat of the drying air is added to the fluid in the pipes 4 discharged and heats the fluid. After heat release, the drying air escapes through a filter 14 in the nearby areas. The filter 14 is used for odor and dust washing to avoid possible odor nuisance and environmental pollution.

In the illustrated embodiment of the invention are for heating the fluid in the tube 4 the heat pump 6 , Solar collectors 7 and the heat exchanger 8th available. To achieve optimum heating of the fluid is a control 15 provided, which with these three heating means and with the circulation pump 5 is tax-linked. Depending on the ambient temperature, weather or the present temperature, such as the waste water, which is the heat pump 6 feeds, the individual heating means are switched on or off. As a result, optimum heating of the fluid is possible. With corresponding, not shown valves, moreover, individual heating means can be excluded from the fluid circuit to avoid inadvertent heat emission here. The control 15 can also access these valves and open or close them if necessary.

In addition to the embodiment shown here with a drying zone and a drying level further embodiments of the invention are possible. Thus, a second drying level can be provided above the drying device shown here. This is done by means of an intermediate floor, which above the floor 2 is introduced, on which also moist material is storable for drying. The heating of the false floor is done in a comparable manner, wherein the same or an independent circulation of the fluid can be used for both floors.

In a drying device with several drying stages independent heating circuits are provided, which are different temperatures exhibit. As a result, a gradual drying of the moist material is made light. By a drying step, which has a particularly high temperature, thereby the sanitation of the moist material 3 respectively.

Next Of course, the heating means shown here are also possible, to use other heating means. It lends itself to this, for example Gas, oil or electricity as heating energy. The individual heating means can communicate with each other combined and over a control can be used simultaneously or alternately, preferably depending on the cheapest Efficiency to achieve the desired temperature.

Of the Floor can be concreted or made of a metal plate, for example Be made of steel. The pipes can be on, in or under the Be laid floor. It is essential in any case that the area on which the moist material stored is warmed up becomes.

The The present invention is not limited to the described embodiments limited. modifications in the context of the claims also fall under the invention.

Claims (24)

Method for drying moist material ( 3 ), in particular of sewage sludge, in at least one drying stage in which the moist material ( 3 ) to dry on a floor ( 2 ) and circulated at intervals, characterized in that the soil ( 2 ) is heated by a circulating heated fluid, in particular water. Process according to the preceding claim, characterized in that the fluid is conveyed by means of a heat pump ( 6 ), Solar collectors ( 7 ), Gas, oil, electricity and / or a heat exchanger ( 8th ) is heated. Method according to one of the preceding claims, characterized characterized in that Fluid heated by several heating means simultaneously or alternately becomes. Method according to one of the preceding claims, characterized characterized in that different heating means according to their most advantageous efficiency, the time of day or the weather for heating the fluid used become. Method according to one of the preceding claims, characterized in that of the heat pump ( 6 ) and / or the heat exchanger ( 8th ) the heat energy of wastewater and / or the drying air of the moist material ( 3 ) is being used. Method according to one of the preceding claims, characterized in that the heat energy of the fluid in the direction of the moist material ( 3 ). Method according to one of the preceding claims, characterized characterized in that Fluid is kept at a predetermined minimum temperature. Method according to one of the preceding claims, characterized characterized in that Minimum temperature 30 ° C is. Method according to one of the preceding claims, characterized in that in a region of the soil ( 2 ) or a subsequent drying step a significantly higher minimum temperature, in particular 70 ° C is maintained for sanitizing the sewage sludge. Method according to one of the preceding claims, characterized in that the moist material ( 3 ) is additionally dried with heated drying air. Method according to one of the preceding claims, characterized characterized in that Drying air is heated by means of solar radiation. Method according to one of the preceding claims, characterized characterized in that Exhaust air is filtered. Device for drying moist material ( 3 ), in particular sewage sludge, in at least one drying stage, having a bottom ( 2 ) on which the moist material ( 3 ) is spread out to dry and a turning device ( 11 ) for turning the partially dried sewage sludge, characterized in that the soil ( 2 ) has a heating system with a fluid located in cavities, in particular water, and the heating system, a heater for the fluid and a circulating pump ( 5 ) is assigned to circulate the fluid in the cavities. Device according to the preceding claim, characterized in that the bottom ( 2 ) is impermeable. Device according to one of the preceding claims, characterized in that the bottom ( 2 ) is surrounded by side and / or partitions. Device according to one of the preceding claims, characterized in that the bottom ( 2 ) and the moist material ( 3 ) with a radiation-permeable envelope ( 10 ) is covered for heating the drying air. Device according to one of the preceding claims, characterized in that the bottom ( 2 ) on the wetland ( 3 ) facing away from an insulation ( 9 ) having. Device according to one of the preceding claims, characterized in that the heater is a heat pump ( 6 ), Solar collectors ( 7 ), Gas, electricity and / or a heat exchanger ( 8th ) having. Device according to one of the preceding claims, characterized characterized in that Heating has several heating means. Device according to one of the preceding claims, characterized in that the heat pump ( 6 ) and / or the heat exchanger ( 8th ) the heat energy of wastewater and / or the drying air of the moist material ( 3 ) uses. Device according to one of the preceding claims, characterized in that the bottom ( 2 ) is divided into different temperature ranges. Device according to one of the preceding claims, characterized in that the device has an exhaust air filter ( 14 ) assigned. Device according to one of the preceding claims, characterized characterized in that Device multi-level is trained. Device according to one of the preceding claims, characterized in that the bottom ( 2 ) is made of good thermally conductive material, in particular aluminum or copper.