DE4331820A1 - Method for extraction of liquids, for example for increasing the solids concentration in materials and compounds of all types - Google Patents

Abstract

Published without abstract.

Description

It is known that for the preparation of intermediate and final Pro and also for the treatment of individual substances in many len cases, the necessity of Feststoffkonzentrationserhöerhö Hung by partial or complete drying measures or by withdrawal of liquids - primarily from water - consists. The measures to be taken are one On the other hand, on the nature of the starting material or the Ausgangsma on the one hand and the intended objective on the other hand gig.

One of the most economical solutions is through a pure gravitational separation two or more phases too create, from which then the liquid phase is withdrawn. Examples of this are sand-water mixtures, the solids increase in pumpable sludge, such as Klär sludges etc.

Supported or basically only one is initiated Such phase separation by adding appropriate Ener such as mixing, stirring, incorporation of Schi kanen etc., or by treatment with additional stuff fen of all kinds, such as polyelectrolytes at Klär slurries.

Another, more intense separation is through the use corresponding machines achieved. This is how the gravitational becomes separation with or without additional use of others Auxiliaries (eg polyelectrolytes in sewage sludge) in Centrifuges or decanters intensified. Filter systems each Type with and without prior, additional conditioning of the Starting material also cause a fluid removal or an increase in the solids content in the individual Me serving. These filter systems include u. a. the drum rotation filter, the belt filter presses, the chamber filter presses, the Membrane filter presses, piston filter presses etc.  

These measures are supplemented in terms of a higher Effi ciency - corresponding to a stronger fluid deprivation or a larger solids concentration increase - by ther mixed treatment plants. Thermal drying systems are Today state of the art and are used in many places. It this is usually about evaporation or else around evaporative dryers. They are divided into the two Main Groups Contact and Convection Dryer. These include the drum dryers, disc dryers etc.

Problems often arise in the known measures of Increase in solids concentration or removal of liquid in that the desired result is not achieved. So For example, in the case of measures which only the Gravitational effect underlying the results obtained relatively low. In sewage sludge thus can Solid contents - determined by drying to weight constant at 105 ° C - for example, 0.1% in the Re gel max. 10-12% will be raised. The be in the market sensitive filter systems (band filter, drum rotary filter, Kam merfilterpressen, membrane filter presses, etc.) make it possible considerably cheaper results. So the final solids can consider the use of such equipment depending on the type of output usually 20-60%. Should be higher Liquid distances are achieved or higher fixed will be achieved according to the current state the technique of thermal drying or evaporation or Evaporation used in the form of appropriate equipment. In In many cases, this is necessary from the outset because for example, due to the consistency of the starting material in homogeneous and / or thixotropic mixtures neither gravita tion, flotation still filter systems for such measures are suitable.

The thermal treatment plants usually allow a complete removal of fluid or an increase in the Solids content up to 100%.  

To prove disadvantageous in all ways after the the current state of the art either the too low Effi ciency or the rather high investment costs and not at last the sometimes very considerable energy costs. Not infrequent are additional investment and energy costs required to reduce the environmental impact of the thermal Solution to be avoided (eg exhaust gas cleaning). The energy vor councils will be reduced in addition, leading to a shortage and drive up the cost again.

Wherever possible and sufficient, with a gravita As a rule, the investi tion and operating costs are kept relatively low. This is also true for the specific costs small rer and microsystems too. The real success of the liquid sigkeitentzuges or the increase in solids concentration is however limited.

However, filter systems of all types require a minimum investment Stationsaufwand, so that here the efficiency with the capacity increases, so that these plants from an economic point of view are not always suitable for low capacities. About that In addition, the final results to be achieved are also very good here limited.

The thermal drying systems effect here in terms of the final goal - of a few hygroscopic conditions Apart from that - but usually every desired result up to a complete fluid withdrawal or a 100 % solids concentration. Such Verfahrenstechni However, investments are extremely costly intensive, so that, to be efficient, they are quite large Capacities should be designed and created. The Be operating and maintenance costs are in addition to the debt service quite considerable, the energy consumption considerably.  

Solve all the above problems by the inventions educational procedures. This procedure can be used for any time rate - even for small and very small capacities - economically created and operated. About the ko free available wind, sun and atmosphere Radical energy is virtually no energy energy requirement. The operation and maintenance is easy. The Dehumidification is almost completely achieved. Nearly Any final solids content will vary depending on the type of attained starting material.

All the above results are erfindungsmäßig characterized achieved that an intermediate storage of the media to be dried on as mobile as possible surfaces. These surfaces can NEN also in any number of floors above the other orders be. They are preferably closed off NEN units formed on rails, runners or Rol len or similar in addition to the actual insignia movement - as with a conveyor belt - and the location can change.

This flexibility allows easy loading and emptying and repair of these drying surfaces.

The surfaces are rebuilt on all sides. The reconstruction has a variety of ventilation options in the Form that the construction changed segmentally or removed can be.

The material used for the conversion is as far as possible light and radiolucent, such as entspre ing plastics, glass and the like. The shape design The conversion is arbitrary and as accessible as possible or in each the form drivable. The fluid removal (for example Dehydration) or the drying process takes place fiction moderately by the wind, the sunlight and by the  atmospheric radiation. Depending on the conditions are the Ventilation and ventilation units completely, in any arbitrary Form partly or not at all open or closed. Duration and time of these positions are determined by the Com computer program determined and implemented. This includes the optimal movement of the media to be dried on the intermediate storage areas.

The enclosed space can be added in any desired form through reflectors, solar units, fans and windmills or in any form plus heated and zusatzbe be aired. Additional mechanical ventilation and heaters are also possible.

The moving by rollers and / or runners and / or slide rails Drying surfaces can both through this mobility for repairs as well as for the processes of filling and Emptying be separated from the actual remodeling.

Both the drying surfaces and the renovation itself have drainage units, the accumulating liquids record and derive. The drying surfaces can as Sieve mesh or in the form of flüssigkeitsundurchläs siger and gas impermeable materials of any kind be formed and adapted to the media to be treated.

Erfindungsmäßig and control technology are preferably the movement activities within the building and in particular dere with the media to be treated with closed conversion carried out. The leakage of small amounts of to treated by dust particles, if this ge required in terms of licensing or else makes sense, here prevented by.  

The liquid removal or the drying process can both in a course or procedure from the starting material to to the end material on the corresponding bearing surfaces Runaway will be made as well as in the form that the Starting materials with more or less treated (ge dried) materials mixed on the bearing surfaces who the.

Erfindungsmäßig are also several Umbauungseinheiten, the connected in parallel or above all in a row are possible. In the individual conversion units can un Different degrees of drying in the media to be treated to be sought. The operation with different layer heights on the drying surfaces is thus possible in any form Lich.

Erfindungsmäßig also several products can be simultaneously be acted. This can be a useful addition to the Ge stalt be that, for example, a partially or fully dried Medium with a second, almost or completely solid free medium or liquid is mixed, for the or their previous concentration or increase in solids or their general elimination no conditions were created.

According to the invention, a possible further treatment of the treated in this way media or end products produced in preferably mobile devices, so that proced causes the process of liquid removal or drying learns a meaningful supplement on the spot.

For example, sewage sludge dried and on closing all or part directly to fertilizers or also soil conditioners are processed if this is not completely omitted or if not completely or partially even during the drying process vollzo was.  

All the above measures are supported according to the invention technically by heat storage on and in the drying surfaces and especially in the development area in the form of rivers rooms, ceramics and in any other Type and form.

Since the entire process is a low tempera tur-evaporation processes are formed in most Falls preferably then, if it at the remove the liquid is all about water, none at all Emission problems. The method also works ge noiseless, as well as user-free and over approx. 8,000 Be Driving hours a year without significant energy expenditure.

example 1

After the erfindungsmäßigen process was a Wet sewage sludge with a belt filter press system first ma schinell drained. The sewage sludge was as wet sewage sludge aerobically stabilized and had a solids content from 4.5% (dried at 105 ° C to constant weight). After the machine drainage, for which a wet sludge conditioning with a strong cationic polyelectrolyte was made (used 3.5 g of polyelectrolyte lyt per kg sewage sludge dry substance) became the Feststoffge just measured in dewatered sewage sludge. He was 26.35%.

Thereafter, the intermediate storage was carried out on a fiction, moderate dry area in the Frankfurt / Main area. The conversion Mate It was made of glass. The glass thickness was about 4 mm. The Size of the drying area was 30 m². The ventilation segments were in the side walls as well as in the First of Umbauungsraumes arranged. The table below shows the Process of dehydration or drying process.  

Table for example 1 date Solids content May 01, 1993 | 26.35% May 03, 1993 31.91% 05. May 1993 32.14% May 7, 1993 35.09% May 8, 1993 39.02% May 9, 1993 42.88% May 11, 1993 49.70% May 13, 1993 58.19% May 15, 1993 62.57% May 17, 1993 71.33% May 18, 1993 80.60% May 19, 1993 84.87% May 21, 1993 89.29% May 23, 1993 93.56% May 24, 1993 95.45% May 26, 1993 94.55%

After 25 days, the water content of the material was 5.45%. The solids content was therefore 94.55%.

example 2

The dehydration or the process of solid increase was with a commercial organic substrate (Compost). The same procedure was used rensanlage, as in Example 1. The solids content of the off starting material was 105 ° C, ge to constant weight Dries at 36.38%.

The process of dehydration or solid enrichment is recorded in the table below.  

Table for example 2 date Solids content May 26, 1993 | 36.38% May 28, 1993 39.67% May 30, 1993 50.76% June 1, 1993 53.97% June 03, 1993 63.70% June 4, 1993 65.40% June 5, 1993 70.48% June 7, 1993 71.86% June 9, 1993 84.27% June 11, 1993 88.36% June 13, 1993 87.06% June 14, 1993 87.36% June 15, 1993 86.65% June 17, 1993 87.79% June 21, 1993 87.55%

The above information shows that after 16 days the Solids content was 88.36%.

Subsequently, the partially dewatered material with a Electroplating solution moistened. The solids content of Gal vanikabfallösung was 1.04%. The rest was water. After that the intermediate storage was carried out for a further 18 days. The residual solids content on the intermediate storage areas be Wore 87.95%. Through this process, the amount of Ge velvet material on intermediate storage areas by approx. 1.5% enriched.

This process can be repeated as desired. The endmate rial of the dry storage areas is in this case ei fed to hazardous waste.

Claims (18)

1. A method for the removal of liquids or to increase the solids concentration in substances and compounds of all kinds, the liquid content or solids content may be arbitrarily high previously, characterized in that the substances to be treated and media are stored on surfaces that con kon be continuously or discontinuously with the objectives of the order coating and the transport of the media to be treated can be moved be and / or have agitators and / or harassment that allow this switching and / or transport in the same or individually changing layer heights. 2. The method according to claim 1, characterized in that it is in the treated Substances and media around the same or around a belie bige mixture of different materials and media with more or less modified compositions; to to completely solids-free liquids and / or liquid mixtures, which are removed in this way so that then only the substances dissolved in them remain behind or be won. 3. The method according to claim 1, characterized in that the floors of the intermediate storage surfaces of wire mesh of any kind and / or air and liquid-impermeable materials exist with preferably integrated temperature sensors to the computer to optimize control of the overall procedure.   4. The method according to claim 1, characterized in that the filling and / or the Räu mung of the storage areas taking advantage of the insignia movement of Storage areas both inside and through the mobile Character (rollers and / or runners and / or slides and / or or in the operation of comparable facilities the These storage areas) in the exterior of the conversion can be done. 5. The method according to claim 1, characterized in that the liquid removal or the Drying process in different high layers both in one operation (procedure) from the starting product to to the desired end product for the same or from ver reduce layer height of the medium to be treated can or else, that in different Umbauungsräumen and / or different fill levels and / or unterschiedli moisture or drying areas, through the computer Controlled, the process of fluid removal or the Solids increase is completed. 6. The method according to claim 1, characterized in that the Umbauungsraum of the Zwi storage areas for their loading, evacuation and repair can be separated, that the Umbauungsraum itself via slide rails and / or runners and / or rollers and / or in the operation is performed comparable mobile. 7. The method according to claim 1, characterized in that the Umbauungsraum arbitrarily by Reflectors, solar units, wind turbines, fans and Also machines can be additionally ventilated and heated.   8. The method according to claim 1, characterized in that the ventilation units the Umbauungsraumes to the Zwischenlagerungs- or Trock design surfaces in the form that preferably the medium to be treated directly with the sunlight comes into contact, so that by this method in vie len cases guaranteed photolytic degradation and / or Re intensification of undesirable substances (pollutants) can be. 9. The method according to claim 1, characterized in that the escaping liquid or the escaping liquids in any aggregate Condition through filter systems of any kind, such as mechanical, chemical, electrotechnical, fluid fil ter, solids filters, etc. and in any combination aforementioned possibilities can be filtered each other can be used to problem liquids, such as or ganic solvents, not to the atmosphere. 10. The method according to claim 1, characterized in that the entire process included Lich all connection procedures partially and fully computergesteu It will be understood that all relevant components, such as wind, Outside temperature, sunshine duration and intensity, fluctuations the temperatures of the media to be treated, layer heights of materials to be treated, etc., of which in each case individually developed and used computer program processed and taken into account. 11. The method according to claim 1, characterized in that the further treatment of the end product as a closed total process unit in before preferably mobile facilities is made.   12. The method according to claim 1, characterized in that, depending on the respective existing Framework conditions and the objectives pursued Ventilation measures both in the respective period as also in their intensity in any form Runaway can be led. 13. The method according to claim 1, characterized in that to be treated starting materials with one for the intermediate storage initially too high Flüs content or too low solids content in the mold be pretreated that by dehydration and there with connected solids increase the subsequent intermediate Storage can be done on the drying surfaces. This Ver driving steps take place, for example, by a separation after previous gravitational separation with and without foreign matter use of materials (for example polyelectrolytes in sewage sludge by mechanically increasing the solids concentration (For example, with centrifuges, membrane filter presses, band filter presses, decanters, chamber filter presses, etc.). 14. The method according to claim 1, characterized in that an intermediate storage of be acting starting materials both before, during and after the process step of the liquid removal or the Increase in solids according to the products, seasonal capacity fluctuations of the overall process balance. 15. The method according to claim 1, characterized in that during, before or after the Ver step of the increase in solids the pro to be treated by impurity addition and / or by irradiation and / or or thermal treatment is sanitized.   16. The method according to claim 1, characterized in that before, during and after the proceedings step of the removal of liquid or the solids hung the materials to be treated in any size or Form can be crushed, pelleted or granulated. 17. The method according to claim 1, characterized in that before, during or after the Ver step of the removal of liquid or solid matter increase the supply of substances takes place with the be acting material a useful addition to the other Use (for example, supplemental nutrient addition in sewage sludge as treatment material for the production of Fertilizers or soil improvers). 18. The method according to claim 1, characterized in that the method step of Flüs deprivation of strength or the increase in solids not only on the movable surfaces, but also on the ground Reconstruction construction, whereby both the ground and the raised and movable intermediate storage areas over Heat storage options of any kind, such as As liquid spaces, ceramics, etc., have.