NL8400107A - METHOD FOR PROCESSING SLUDGE, IN PARTICULAR SLUDGE OBTAINED FROM DREDGING, AND PARTICULATES, AND METHOD FOR PROCESSING SLUDGE USING A HEAVY METAL ION ABSORBING AGENT. - Google Patents

Description

. \ '- \ 835084 / vdV / kd

Brief designation: Method for processing sludge, in particular of sludge obtained from dredging, into particles, as well as a method for processing sludge using a heavy metal ion absorbent.

The invention relates to a method for processing sludge, in particular of sludge obtained from dredging, by mixing the moist sludge with fly ash and a hydraulic binder to form a particulate mass, wherein the fly ash and the hydraulic binder be able to bind the total amount of free moisture in the sludge.

It is known that large amounts of harmful substances, in particular harmful materials such as cadmium, can occur in sludge obtained by dredging, whereby the deposition of such dredge sludge on ground surfaces is considered to be inadmissible.

A method has already been proposed for processing such sludge into materials suitable for raising, filling or supplementing bottom surfaces without harmful metals being easily leached out of the particles of the particulate mass.

Although mixing of dredged sludge with fly ash and a hydraulic binder does produce a particulate mass which is useful for the above purposes, in certain cases the leaching of harmful metals, especially with dredged sludge with large concentrations of such harmful metals are still too large.

The object of the invention is now to provide a method in which a particulate mass is obtained which lends itself to raising and replenishing or filling in bottom surfaces, without the risk of leaching of metals present in the sludge at a later stage.

This object is achieved according to the invention in that the moisture-containing sludge is gradually added to a preformed mixture, of the total amount of binder to be used with 50 to 90% of the total amount of fly ash to be used, 8400107 -2-, -w. and forming a free-flowing mass of particles of such a consistency that they do not decompose upon deformation and, on the other hand, no moisture is deposited from the interior of the particles on the outside of the particles, after which at least the residual amount of fly ash is gradually added to the particulate mass. adds.

In the method according to the invention the following measures are of great importance: a) a preformed mixture of hydraulic binder, in particular blast furnace cement or Portland cement, is first formed with at least 50% of the particulate mass obtained in the final particulate mass. process total amount of fly ash.

b) the sludge is very gradually added to the preformed mixture with mixing, taking care to ensure that particles are formed which do not decompose during subsequent deformation, for example by pressure such as in the egg / accumulation of particles, but on the other hand no moisture from the interior of can deposit the particles on the surface of the particles 20 which would give rise to agglomeration of the particles and formation of a mass of cohesive particles which is useless for further processing.

In order to completely prevent agglomeration of the slightly moist particles, the particles can be mixed in a second stage with the remaining amount of fly ash; In addition, the particles are provided with an external layer of fly ash that can bind moisture at a later stage.

The mixing preferably takes place in a fluidized bed.

The addition of the sludge is expediently such that during the same period of the total mixing time a maximum of 20% of the total amount of sludge to be added to the preformed mixture is added.

Expediently, at most 10% of the total amount of sludge to be added is added, and preferably about 5 to 8%.

3 to 10% hydraulic binder, in particular about 5% 84 0 0 1 o 7 -3-

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\. hydraulic binder, expressed in% by weight, included. In this way a very good particulate mass is obtained, the particles of which are hard enough to be used as a particulate mass in raising and filling ground surfaces or as road material. The particulate mass is particularly advantageously mixed with a water-repellent substance, such as a polymeric silicon compound, after its formation, but other substances are also suitable for this.

In particular, it is recommended to mix this water-repellent substance with the residual amount of fly ash to be added to the particulate mass when mixed thoroughly with a baffle repellent.

When softening moist harbor sludge it often occurs that this sludge is contaminated with oil residues, which oil residues form small particles which make it virtually impossible to obtain a loose mass of non-agglomerating particles.

In such cases it is recommended to add 1 to 8%, preferably 5% carbon, preferably in the form of carbon black, the residual amount of fly ash.

The oil particles are absorbed by the carbon black and do not give formed particles that easily clump together.

A particularly advantageous embodiment is characterized in that the sludge to be processed, in particular harbor sludge, is pretreated with a heavy metal ion absorbing agent, in particular a metal hydroxide precipitate.

Advantageously, the metal hydroxide precipitate consists of a hydroxide of a metal of the group VIII of the Periodic System, more in particular of an aqueous mixture of sludge and similar metal ions precipitated with metal hydroxide.

A very suitable source for the metal hydroxide is oxysluke, as mentioned in Dutch patent application 8006884, from which iron can be dissolved by means of an acid, in particular an inorganic acid such as hydrochloric acid, after which, after mixing with the sludge, the mixture is alkaline iron hydroxide precipitates, which iron hydroxide absorbs the heavy metals.

In this way, a widely available waste source, the iron oxysludge, from sludge containing heavy metals, can render these harmful metals very harmless.

The invention also relates to a method for the processing of sludge, in particular of sludge obtained from dredging, which is characterized in that the sludge is pretreated with a heavy metal ion absorbent.

In this way, it is possible to capture these harmful heavy metals from sludge containing harmful heavy metals such as cadmium, such that they are difficult to extract later. ,,, / absorbent

Preferably, the heavy metal ion agent is a metal hydroxide precipitate.

In particular, the sludge is mixed with an iron-containing solution in an acid, preferably obtained by acting an acid on an iron-oxidesludge composition, and then the iron hydroxide is precipitated by adding an alkaline substance, thereby obtaining a widely available iron waste source can use efficiently.

The invention will now be elucidated on the basis of an exemplary embodiment.

EXAMPLE I

In a fluidized bed mixer, a mixture of 5 kilos of Portland cement and 25 kilograms of fly ash is formed. To the preformed mixture thus obtained, 100 kg of dredged harbor sludge with a moisture content of about 30 to 50% is added.

The addition is made in such a way that a maximum of 3 kilograms of dredged sludge is added per 10 seconds. In the present exemplary embodiment, 2 kg of dredged port sludge was used per 10 sec period. added.

A free-flowing granular mass is obtained which is then gradually mixed in a fluid bed mixer with 5 kg of fly ash.

Protruding particles of which no 8400107 I - are obtained.

V.

-5- harmful materials are leached after air drying.

EXAMPLE II

In a fluidized bed mixer, a mixture of 5 kg of hydraulic binder in the form of Portland cement is formed

and * 15 kg fly ash. Dredged port sludge with 10% moisture is gradually added to the mixture, the addition taking place such that 2 kg of dredged port sludge is added per 10 sec. After obtaining a particulate mass, it is mixed in a fluidized bed with 15 kg of fly ash. A good particulate mass is obtained, but of course harmful material can be leached from the fly ash layer present on the outside of the particles. EXAMPLE III

Example I is repeated, but the amount of 5 kg fly ash is added to the residues, 1 kg of calcium stearate as water repellent.

Instead of the latter compound, it is also possible to add sodium silicate or a water-repellent silicone compound.

Another suitable water repellent is aluminum hydroxide.

EXAMPLE IV

A mixture of 5 kg of Portland cement hydraulic binder with 15 kg of fly ash containing 5% carbon in the form of carbon black is formed in a fluidized bed mixer.

To the mixture is gradually added oil-contaminated dredged harbor sludge, the addition being effected such that 2 kg of dredged harbor sludge is added per 10 seconds. After obtaining a particulate mass, it is mixed in the fluidized bed with 15 kg of the above-mentioned fly ash. A good particulate mass is obtained, but of course harmful material can be leached from the fly ash layer present on the outside of the particles.

Particles are obtained in which the oil contaminated from the port sludge is absorbed on the carbon black.

8400 1 0 7 ï- · -v 4 t * * -6-

Without soot, non-clumping particles cannot be obtained since the oil contaminants remain on the outside of the particles.

EXAMPLE V

Iron chloride solution is formed by treating oxysludge with a hydrochloric acid solution.

This hydrochloric acid solution is mixed with an aqueous slurry of harbor sludge contaminated with heavy metals, such as cadmium. Mer / sodium hydroxide solution is then added to pH 5 to 6.

The heavy metals are excellently absorbed in the iron hydroxide formed and can no longer be leached from such particles after processing into a particulate mass, for example according to Example I.

8400107

Claims (14)

1. Method for processing sludge, in particular of sludge obtained by dredging, by mixing the moist sludge with fly ash and a hydraulic binder to form a particulate mass, wherein the fly ash and the hydraulic binder contain at least the total amount of being able to bind moisture in the sludge, characterized in that, to a pre-formed mixture, of the total amount of binder to be used with 50 to 90% of the total amount of fly ash to be used, the sludge is gradually added under 1 ° mixing and forming a free-flowing mass of particles of such consistency that they do not decompose upon deformation and, on the other hand, no moisture is deposited from the interior of the particles on the outside of the particles, whereafter / at least the remaining quantity of fly ash is gradually added to the particulate mass. 2. A process according to claim 1, characterized in that during the same period of the total mixing time a maximum of 20% of the total amount of sludge to be added to the preformed mixture is added. 20 3. Process according to claim 2, characterized in that at most 10%, preferably 5 to 8%, of the total amount of sludge to be added to the preformed mixture is added. 4. A method according to claims 1-3, characterized in that 3 to 10%, preferably about 5%, of hydraulic binder is included in the total mixture of binder and fly ash. 5. Process according to claims 1-4, characterized in that 1 to 8% by weight, preferably 5% by weight of 4 carbon, is incorporated in the fly ash, preferably the remaining amount of fly ash. 6. Process according to claims 1-5, characterized in that a water-repellent substance is added to the remaining amount of fly ash. 8400107 - «‘ t t -8- 7. Process according to claims 1-6, characterized in that the sludge to be mixed with the fly ash is pretreated with a heavy metal ion absorbent. 8. Process according to claim 7, characterized in that the heavy metal ion absorbing agent is a metal hydroxide precipitate. 9. Process according to claim 7 or 8, characterized in that the metal hydroxide precipitate is formed from a metal of the group VIII of the Periodic System, preferably iron. 10. Process according to claims 7-9, characterized in that the sludge is mixed with an iron-containing solution in an acid, preferably obtained by acting an acid on an iron oxysludge composition, and then precipitating the iron hydroxide by adding an alkaline substance. 11. Method for processing sludge, in particular of sludge obtained from dredging, characterized in that the sludge is pretreated with a heavy metal ion absorbent. 12. Process according to claim 11, characterized in that the heavy metal ion agent is a metal hydroxide precipitate. 13. A method according to claim 11 or 12, characterized in that the metal hydroxide precipitate is formed from a metal of the group VIII of the Periodic System, preferably iron. 14. A method according to claims 11-13, characterized in that the sludge is mixed with an iron-containing solution in an acid, preferably obtained by acting an acid on an iron-oxysludge composition, and then precipitates the iron hydroxide by adding an alkaline dust. 8400107