DE3423387C1 - Process for storage or ultimate storage of pumpable waste materials in salt caverns - Google Patents

Abstract

A process is described for the storage or ultimate storage of pumpable waste materials, containing pollutants which are able to contaminate concentrated rock salt solution, in salt caverns filled with rock salt solution, according to which the rock salt solution is first pumped off and the salt cavern is filled with the pumpable waste materials up to two thirds or three quarters of its volume, whereupon the water in the supernatant liquid phase of the cavern contents is bound chemically or adsorptively, before the rock salt cavern is sealed.

Description

For storing completely or partially reusable liquids Recommends waste materials in underground salt-enclosed caverns or salt caverns DE-OS 31 41 885 a process by which the optionally neutralized liquid Waste materials after being discharged into the cavity initially for a rest period be left to separate the specifically lighter components from the specifically harder ones to effect. Then the specifically easier one Phase pumped out for further processing. Following this, those in the specific heavier phase containing heavy metals with alkaline compounds and waited for the sedimentation of this precipitation, whereupon the protruding, heavy metal free solution also for further processing is pumped out.

Next is in the patent application P 34 11 998.1 a method for Proposed storage or final storage of solid, small-scale waste materials in salt caverns, after which these waste materials with a rock salt solution removed from the salt cavern mixed to a pumpable mixture, which is then introduced into the salt cavern will.

If the latter two procedures are carried out in salt caverns, so it has to be taken into account that this is usually done with saturated rock salt solution are filled when storing waste materials in one of the volume of waste materials corresponding volume is displaced. This displaced volume of rock salt solution can be contaminated with pollutants contained in the introduced waste and thus itself represents an environmentally harmful waste material, which in turn is to be disposed of.

The possibilities known from the processing of crude potash salts to press the saline solutions that arise as waste products into underground layers, which, such as plate dolomite, are able to absorb liquids too expensive and guarantee in their application to the task to be solved here also not that the pollutants contaminated from those introduced into these layers Rock salt solutions do not ultimately contaminate water that is used as drinking water is won. Ultimately, this type of shipment of contaminated rock salt solutions is available the limited absorption capacity and speed of those capable of absorbing liquids Opposite layers that are limited by the pore or capillary volume of such layers will.

Also the well-known ways of treating industrial wastewater, as for example in the book "Industrie Abwässer" (1968), Gustav Fischer Verlag, von Meinck et al. are described, require a high level of technical effort Facility, energy and chemicals. In addition, these working methods do not apply the purified water that is drained into receiving waters, considerable quantities Precipitation products and sewage sludge associated with the pollutants contained in the wastewater are contaminated and also have to be disposed of again.

From this arose the task of finding possibilities, the seizure rock salt solution contaminated by pollutants during storage or final storage of pumpable waste containing such pollutants in rock salt solution to avoid or significantly reduce filled salt caverns.

According to the invention, this object is achieved by the in claim 1 characterized method solved. Claims 2 to 7 contain preferred ones respectively.

alternative embodiments of the method of the invention.

Salt caverns are known to be created by brining out salt domes. This is done through the geological layers above the salt dome in question Drilled a borehole and equipped it with a pipeline for introducing the solvent, such as water or aqueous salt solutions, and for withdrawing the brine. After the salt cavern is the size you want reached, the soling is canceled so that to partially compensate for the Convergence pressure the volume of the salt cavern remains filled with rock salt solution.

The proposed in the patent application P3411998.1 method for Storage or final storage of solid, small-sized waste materials in such salt caverns assumes that these waste materials initially with liquid to a pumpable Mixture are mixed, which is introduced into the salt cavern and a corresponding one Part of the liquid present in the salt cavern is drained therefrom, with as a liquid, aqueous rock salt solution is used, which comes from the liquid phase of the cavern contents is deducted.

Salt caverns are mostly formed by brining out salt domes. After that, the volume of the salt cavern is at least largely saturated with practically Leave the rock salt solution filled to at least partially compensate for the convergence pressure. If after the method described in patent application P 34 11 998.1, the finely divided Waste materials with rock salt solution, which is withdrawn from the salt cavern, to one pumpable mixture is mixed, so must in addition to that required for this Volume of rock salt solution nor the volume of rock salt solution from the salt cavern be deducted, the volume of the finely divided contained in this mixture Corresponds to waste materials and which must be disposed of without damage, for example by Spend in the sea. However, only then is this harmless disposal problem-free possible if this rock salt solution is not contaminated by environmentally harmful substances is, for example, from already stored fine waste materials in the supernatant liquid phase of the cavern contents may have reached.

For these reasons, according to the invention, the originally in the salt cavern The rock salt solution contained in it is pumped out as much as possible before the pumpable Waste materials are introduced into the salt cavern. For pumping out the rock salt solution and the later introduction of the pumpable waste materials can be the pipelines that have already been used to brine the salt cavern and Allow liquids to be removed from the salt cavern as well as pouring in of pumpable mixtures.

After the salt cavern has been largely emptied, the pumpable waste material continuously or periodically introduced into the salt cavern. The waste materials can be those that have not been mixed with liquid are inherently pumpable. On the other hand, it can also be used for non-pumpable waste materials the rock salt solution withdrawn from the salt cavern can be used to pass through their Mixing with the waste materials to obtain a pumpable mixture.

After the pumpable waste has been brought into the salt cavern The solid fractions of these waste materials sink to the bottom of the cavern and remain there as sediment, over which the liquid components of these pumpable waste materials are collect as a closed layer. This liquid layer can, depending on its nature and composition of the stored pumpable waste materials consist of water, this by dissolving rock salt from the walls of the salt cavern in a practical saturated rock salt solution passes over. Over this aqueous layer separate the specifically lighter organic liquids as a separate layer, the can be contained in the pumpable waste materials and with a saturated Rock salt solution are not miscible. This layer of organic liquids can withdrawn separately from the salt cavern and fed to a work-up will.

Parts of the aqueous layer, even if contaminated with pollutants can also be withdrawn from the salt cavern and used with non-pumpable Waste materials are mixed to a pumpable mixture, which in the salt cavern is introduced.

Non-pumpable waste or sludge can also seep water are mixed with inorganic or organic pollutants and / or ingredients, as they accumulate from above-ground landfills, heaps or sewage treatment plants to the To improve the pumpability of these non-pumpable waste materials.

In this way, the otherwise necessary and technically complex Purification of pollutants from this seepage water is superfluous.

According to the method of the invention, in addition to pumpable waste materials, such as liquid residues from chemical and other industrial processes, including those that cannot be pumped, such as ash, flue dust, residues from incineration plants, Sewage sludge and the like, are processed if they are mixed with liquid Waste materials, seepage and / or liquids withdrawn from the salt cavern After the salt cavern can be converted into the pumpable state this way about two thirds to three quarters of its volume with the waste materials is filled, according to the invention that is in the supernatant liquid phase of the contents the water contained in the salt cavern by adding appropriate compounds or Substances chemically in the form of crystal water or in the form of hydroxides or also physically bound by adsorption.

For this purpose, it has proven useful in the supernatant liquid phase of the Contents of the salt cavern magnesium chloride and / or salts containing magnesium sulfate, as they arise, for example, in the processing of crude potash salts. The NaCl-MgChH20 system then forms in the liquid phase of the contents of the salt cavern. from which the solid salt 1880 g MgCl2 + 1000 g H20 crystallizes out at deposit temperature, or the system NaCl-MgSO4-H20 from which the salts 3156 g Na2SO4 + 3124 g MgS04 + 1000 g H20 or 1972 g Na2SO4 + 1673 g MgS04 + 1000 g H20 crystallize Crystallization processes not only increase through the binding of water of crystallization the solids content of the contents of the salt cavern, but also the concentration of the sodium chloride in the liquid phase above the saturation concentration, see above that in addition sodium chloride crystallizes, which is the solids content of the contents the salt cavern also increased instead of the magnesium chloride and / or magnesium sulfate containing salts or in addition to these can be added to the supernatant liquid Phase of the contents of the salt cavern layered grid minerals are introduced after they have been expanded chemically or thermally. Such expanded layer lattice minerals are for example expanded vermiculite and / or perlite and or expanded clay, the evade due to the high absorption capacity for liquids. In this way the supernatant liquid phase of the contents of the salt cavern is at least broadly bound solidified According to the invention, there is also the possibility, in particular in the case of periodic Introducing the pumpable waste materials into the salt cavern after introducing the Wait for the solids contained in the contents of the salt cavern to settle out and then withdraw the supernatant liquid phase from this salt cavern and put it in to transfer another salt cavern and only here that in this liquid phase contained water by adding appropriate compounds or substances chemically in the form of crystal water or as hydroxide or physically inert absorbent to tie.

Those contained in the original salt cavern and of liquid Solid portions of the waste materials that are still soaked can be removed by introducing inorganic binders, such as Portlang cement or magnesia cement, or additionally solidified by adding magnesium chloride solution containing magnesia will.

To further increase the solids content of the cavern contents and also sticky, solid waste materials or waste materials with poor abrasion resistance or to be able to safely store dusty waste materials in salt caverns it may be advantageous to enclose these waste materials in pieces of plastic tubing, whose diameter is smaller than the clear width of the filling pipe of the salt cavern. In this form, these waste materials can easily go through the filling pipe in the open Case to be introduced into the salt cavern The invention opens up the possibility of waste materials in salt caverns filled with practically saturated rock salt solution with components to store the saturated rock salt solutions with pollutants contaminate, whereby these waste materials must be pumpable per se or through Mixing of liquid can be made pumpable from the liquid Phase of the content of the salt cavern is withdrawn It is here according to the invention the accumulation of rock salt solution contaminated with pollutants is completely avoided The invention avoids contamination of the rock salt solution located in the salt cavern in the simplest way in that this rock salt solution initially as largely as possible is pumped out before the waste materials are introduced into the salt cavern, which contamination of this rock salt solution could cause these non-contaminated Rock salt solution can be safely brought into the sea or in appropriately receptive conditions Layers of the subsoil are sunk.

The liquids carried into the salt cavern with the waste materials are chemically or adsoptively bound according to the invention and remain in this Form in the rock salt cavern, which is ultimately closed.

The process of the invention also avoids previous work-up of the waste materials to be dumped above ground in order to eliminate the pollutants from them, which ultimately result in a pollutant concentrate with considerable technical effort leads, which must also be dumped without harm to the environment.

The invention offers a technically simple way of contaminating To safely deposit and thus dispose of waste containing pollutants, without the risk of damage to the environment

Claims (8)

Claims: 1. Method for the storage or final storage of pumpable Waste materials with levels of pollutants, the concentrated rock salt solution too able to contaminate, in salt caverns filled with rock salt solution, characterized in that that the rock salt solution contained in the salt cavern is pumped out as much as possible before the pumpable waste into the salt cavern is continuously or periodically be introduced until the salt cavern is about two-thirds to three-quarters of its Volume is filled with the waste materials, whereupon that in the supernatant liquid Phase contained water by adding appropriate compounds or substances chemically in the form of crystal water or hydroxides or physically through Adsorption bound and then closed the salt cavern in a known manner will. 2. The method according to claim 1, characterized in that non-pumpable finely divided waste materials or sludges containing them by mixing in from The rock salt solution withdrawn from the salt cavern can be made pumpable. 3. Process according to Claims 1 to 2, characterized in that non-pumpable waste materials or sludge leachate with inorganic resp. organic ingredients are added. 4. Process according to Claims 1 to 3, characterized in that in the supernatant liquid phase of the contents of the salt cavern magnesium chloride and / or salts containing magnesium sulphate, among those given in the salt cavern Conditions to form salts containing water of crystallization. 5. Process according to Claims 1 to 3, characterized in that Layered lattice minerals expanded into the supernatant liquid phase of the contents of the salt cavern be introduced. 6. Process according to Claims 1 to 4, characterized in that in particular with periodic introduction of the pumpable waste materials into the salt cavern after the introduction, the sedimentation of the contained in the contents of the salt cavern Solids is awaited, whereupon the supernatant liquid phase from this salt cavern withdrawn, transferred to another salt cavern and there the contained therein Chemical form of water by adding appropriate compounds or substances bound by water of crystallization or by hydroxides or physically by adsorption will. 7. The method according to claim 6, characterized in that, after the liquid phase from the salt cavern that protrudes over the sedimented solids is withdrawn, are introduced into this inorganic binder. 8. The method according to claimsl to 7, characterized in that additional solid, sticky waste materials or waste materials with low abrasion resistance or dusty waste materials in pieces of plastic tubing, the diameter of which is smaller than the clear width of the filling pipe of the salt cavern, included are to be introduced into the salt cavern. Waste materials in salt-sealed, underground cavities for time-limited It is known to put into storage or for final storage. From this possibility is increasingly being used because of this type of storage or final storage environmental damage from waste materials can be largely avoided. In this context there are several procedures for safe disposal of pumpable liquids or suspensions that contain radioactive or toxic components included, has been developed. The technical principle of these procedures is: the pumpable liquids or suspensions with substances to a still pumpable one Mixture to mix that after a foreseeable period of time in which the mixture for deposition in underground cavities or receptive geological Layers can be pumped in, solidified. Such a method is known from US Pat. No. 3,196,619. After that, toxic organic waste materials are used with it miscible thixotropic liquids mixed and this mixture in underground Pumped in cavities in which it solidifies. Used as a thixotropic liquid In particular, the drilling mud from oil wells is recommended, which is particularly suitable when a gelling agent is added to it. The US-PS 32 74 784 teaches a corresponding method for final storage of radioactive waste liquids. Then these liquids are mixed with clay minerals, cold and caustic compounds mixed in such amounts that the mixture solidifies after a certain time. During this time the mixture will be pumped into subterranean cavities such as caverns. According to US-PS 33 79 013, the radioactive liquids are with a slurry of hydraulic cement in water, which also contains certain clay minerals should contain, mixed to a pumpable mixture, which after pumping in solidified in an underground warehouse. Describes a corresponding procedure U.S. Patent 3,980,558. More recently, DE-OS 31 41 884 discloses a method for final storage of pumpable waste materials by introducing them into caverns in salt storage facilities and their extensive consolidation became known, after which the possibly Pumpable waste materials containing suspended solids, soluble or dissolved Salts are admixed, which under deposit conditions with binding of crystal water crystallize. Organic substances can also be used instead of these salts which are in the liquid phase of the cavern contents under reservoir conditions solidify.