HU210134B - Method for intensification of degradation of pharmaceutical sludges - Google Patents

Abstract

The process according to the invention is characterized in that the treated sewage sludge to be treated is introduced into a collecting pool and is stored anaerobically there for 4-8 months, then the treated sewage sludge is dewatered to 25-30% dry matter content, then 15-30% to 15-20%. dry matter - mixed with communal wastewater sludge into a water vapor barrier, then spread to 10-60 cm thickness, and this layer is repeated until the fly ash is full, and finally 50-80% ash and 50-20% as communal. a mixture of wastewater sludge is deposited and the cover layer is covered with silkworms, and after 3 to 6 months, a deep plowing is carried out, and the top layer of the reservoir is then re-seeded, and after 1-3 months the top layer of the reservoir is disposed of for recultivation. EN 210 134 A Scope of the description: 4 pages

Description

The subject matter of the application is a process for accelerating the degradation of pharmaceutical wastewater sludge and for its use for recultivation purposes.

A very important group of hazardous wastes are listed in Annex II. and III. pharmaceutical grade sewage sludges classified as hazardous.

The degradation of these is very problematic because the presence of antibacterial agents makes the process of biodegradation much slower than that of communal sludges.

For this reason, there is not a great deal of technical processing of such waste.

In the course of our research, only US 4,632,692. described as the closest solution to the present invention, wherein the waste from the production of penicillin is separated into a solid and liquid phase after the liquid is treated with anaerobic and the solid phase is aerobically mixed with solid or semi-solid waste.

The disadvantage of the process is that the liquid and solid phases have to be treated separately and do not allow the waste to be used for recultivation purposes.

The aim of the process according to the invention was to solve the acceleration of the degradation of the hazardous waste mentioned above and at the same time to make it usable for recultivation purposes.

The inventive process has led to the discovery that the process of biodegradation is significantly reduced (from about 6 years to about 1-2 years) when mixed with hazardous municipal sludge and stabilized fly ash.

Accordingly, the present invention is a process for accelerating the degradation of pharmaceutical wastewater sludge and for use in cultivation, characterized in that the drug wastewater sludge to be treated is discharged into an accumulation basin for 48 months, and thereafter the drug wastewater sludge is treated with 25-30% dry matter 15-30% - 15-20% dry matter - is mixed with a municipal sewage sludge and transferred to a pumice barrier with a waterproofing layer, then a 10-60 cm thick layer of pumice is applied and this layering is repeated and finally 50-801% as a cover layer. a mixture of fly ash and 50-20% municipal sewage sludge is layered and gutted into the topsheet, then deep plowed after 3-6 months and then gutted again in the upper layer of the reservoir and after 1-3 months, the upper layer of the reservoir is disposed of for re-cultivation.

As used herein, t% is% by weight.

In the process according to the invention, the waterproofing layer is preferably formed by mixing with a lime hydrate.

The process of the present invention will be described in more detail in connection with an exemplary embodiment.

Example 1

The task is to dispose of poorly decomposable sewage sludge containing pharmaceutical organic matter and to use it for recultivation purposes. The volume of material to be treated is 12,000 m ³ .

At the Dorog Power Plant fly ash reservoir, a 50 x 100mx 1.5m deep pool will be constructed. The lower portion is made watertight with 10 cm thick lime hydrate by mixing the lime hydrate into the fly ash. On this foundation we lay 0.5 m thick 25-30% dewatered pharmaceutical sewage sludge. The slurry is mixed with 15% municipal sewage sludge, which has been previously dewatered to 20%. A 20 cm thick flywheel is applied to this mixture.

The layer formed as described above is saturated by repeating the pool 3x. Then, as a top layer, a 30 cm thick fly ash layer is mixed with 30% by volume of municipal sewage treatment sludge, and then a variety of lice (lice, green ribbon, Sudanese grass, etc.) is added to this top layer. After about 6 months of rest, approx. 80 cm deep plowing and then re-sowing. After 23 months of rest, the upper layer is inspected and the harmless layer thickness is recovered for cultivation. In the former lower layer, which has now become the upper layer, we plant, as set out above, chenoids, test and produce the permitted layer thickness.

The main advantages of the process according to the invention are as follows:

In the prior art, it is a requirement in the wastewater sludge containing poorly decomposable organic matter, especially in pharmaceutical wastewater sludge disposal technology, that the material to be treated is transported from a collection basin to a dedicated composting plant and then, after treatment, spread to a power plant.

The novelty of the process of the present invention provides the significant advantage that the use of a separate composting plant has become obsolete, since the necessary treatment operations can be carried out on the pumice hill, in the process measures of the invention. This results in significant working time, loading time and cost savings. In particular, however, the total time for disposal is shortened.

Claims (3)

1. A method for accelerating the degradation of pharmaceutical wastewater sludge and for its use in cultivation, comprising treating the sewage sludge in an aerobic and anaerobic digestion process, wherein the pharmaceutical wastewater sludge to be treated is stored in an anaerobic sludge for 48 months, It is dewatered to a dry matter content of 30%, then mixed with 15-30% - 1520% dry matter - municipal sewage sludge into a fly ash tank with a waterproofing layer, then applied to a fly ash layer of 10-60 cm thickness and repainted until the fly tank is filled. as a layer 502 HU 210 134 A A mixture of 801% fly ash and 50-20% municipal sewage sludge is layered and gutted into the topsheet, then deep plowed after 3 to 6 months, then gutted again in the upper layer of the reservoir, and then disposed of in the upper layer of the reservoir. layer is harvested for recultivation. The process according to claim 1, wherein the ash tank is made water-tight by mixing lime hydrate. Method according to claim 1 or 2, characterized in that the plowing is carried out at a depth of 70-100 cm.