DE10224077B4 - Process for the thermal treatment and recycling of sewage sludge - Google Patents

Abstract

method for the thermal treatment and recycling of sewage sludge by compaction, drying and gasification, controlled afterburning the furnace gases and melting under reducing conditions in a powered with oxygen and / or combustion wind shaft melting carburetor or shaft melting furnace, characterized in that the example from the sewage treatment plants for communal and / or industrial waters sewage sludge with a humidity of up to 85% with, based on the wet mass sewage sludge, up to 5 cement, up to 5% lime and up to 6% aggregates with the sewage sludge mixed, in molds to form bodies mashed or compressed with a shaft-melting furnace of just size then outsourced and after a curing time to setting the Gattierungs- and thermo-resistance fed to the shaft-melting furnace, in this gradually by regulated supply of combustion agent and / or Controlled supply of other solid and / or liquid and / or gaseous substances in one or more over the height Shaft Melting Furnace or Manhole Melt Carburetor Different Shake column Layers dried, gasified, converted to a combustible furnace gas and reducing to a ...

Description

The The invention relates to a method for thermal treatment and recycling of sewage sludge by compaction, drying, gradual gasification, controlled Afterburning of furnace gases and melting under reducing Conditions in an oxygen and / or combustion-blown shaft-melt gasifier or shaft melting furnace.

From the prior art is after DE 195 31 379 C1 a process for the combustion of sewage sludge is known in which the sewage sludge is dried by means of a heated by a heat transfer medium dryer and then burned in a furnace, in particular Zykloidfeuerung in which the heat transfer medium is heated by the combustion, in which the firing a basic additive is supplied Thereafter, the flue gases are subjected to a first dedusting and cooling, then the flue gas heat is removed again with cooling of the flue gas to a lower, but above the cooling temperature limit of the flue gas temperature, and then fed to the flue gas another basic additive and then the flue gas is fed to a filtering dedusting. To avoid heavy metal contamination of the Feuerungsasche the first dedusting takes place before the extraction of heat for the drying of sewage sludge. The heat transfer medium for the indirect sewage sludge drying is at least a partial flow of the flue gases leaving the furnace, or by means of the flue gases generated by heat exchange steam or air. For direct sewage sludge drying a heated by heat exchange with flue gas recycle gas, which consists of air and / or formed during drying vapors used.

alternative is also dedusted flue gas used.

adversely is that in the process no slags but produces ashes be procedurally complex over several stages before one potential Heavy metal pollution are protected have to.

To DE 24 04 067 C2 are known a method and a plant for the incineration of sewage sludge together with waste, in which the pre-dewatered sewage sludge is fed together with the hot flue gases of a self-priming blower boom mill and then the shredded, to a residual moisture of about 10% pre-dried and about 200 ° C hot Sewage sludge with the vapors is blown into the firebox.

adversely are the material, procedural and equipment expenses for pre-drying, crushing and injecting sewage sludge into the firebox.

To EP 0 699 868 Further, there is known a method of self-sustaining combustion of sludges from municipal and / or industrial water treatment plants incorporating a step for dewatering the sludge by means of the sensible heat of the flue gases from the incinerator and by simultaneous centrifugation, wherein the supply of the sludge Sludge is placed in the oven in powder form together with the vapors originating from the drying and the centrifuging stage and in which the non-condensable constituents are destroyed. Disadvantages here are the costs of sludge processing resulting from the process technology as well as the process and plant engineering limits which, depending on the material to be injected, result from the operation of the injection nozzles / devices on the furnace.

Another method and a plant for the production of combustible gas from particular sewage sludge is in DE 199 61 437 A1 disclosed. To purify the gas obtained from tar, the gas is cooled in a cooler with the addition of water, the tar condenses and then passed the gas through a sewage sludge tank with to be gassed sewage sludge granules. This is intended to filter out the tar. It is then fed together with the sewage sludge granules to the gasifier.

adversely Here are the expenses for the procedurally intended drying of sewage sludge before the gasification and the procedural costs associated with the water cooling of the Gas, water separation from the gas and water treatment related.

To The prior art is also known that dusty and small piece Materials for processing in gasification and / or shaft melting furnaces Compaction can be processed.

So will in DE 296 09 753 U1 Accordingly, discloses a shaped body for material and energy recovery of residues, which is prepared by admixture of a binder consisting of cement and hydraulically active active industrial residues, and the thermochemical and mechanical requirements, ie the requirements for a thermal resistance, in corresponds to a shaft melting furnace. Disadvantages here are the initial effort for the hydraulic binding to the compacted dust-like and small-sized materials necessary work and water additive, so-called "mixing water", resulting in procedural and economic additional costs.

The The object of the invention is therefore to provide a method for cost-effective and technically simple thermal treatment and recycling of sewage sludge in which the previously required indirect and / or direct drying, the shredding and the injection of sewage sludge dusts can be omitted.

to solution the task is the puncture resistant from the sewage treatment plants for municipal and / or industrial waters originating sewage sludge with a humidity of up to 85% with, based on the wet mass sewage sludge, up to 5% cement, up to 5% lime and up to 6% aggregates with the Sewage sludge mixed, in molds to moldings mashed or slightly pressed with a shaft-melting furnace of equal size then outsourced and after a curing time to setting the Gattierungs- and thermo-resistance fed to the shaft-melting furnace, in this step by step by controlled supply of combustion agent and / or controlled supply of other solid and / or liquid and / or gaseous Substances in one or more over the height the pillar of the Shaft melting furnace or shaft melt carburetor dried at different levels gasified, converted to a combustible furnace gas and reducing to a molten one Metal and a liquid, after solidification non-leachable slag, melted.

advantageously, can be contained in the sewage sludge Humidity as "mixing water" for initialization the hydraulic binding are used, creating an external addition from water to the mixture is no longer necessary and therefore no procedural and economic additional costs required. Another advantage is that the entire apparatus and cost for the Drying, crushing to dust and blowing in the powdery sewage sludge in the shaft-melting furnace is omitted and thus the economic efficiency of the material and thermal Treatment and recovery of sewage sludge is improved. It is also advantageous that by the compaction of sewage sludge to moldings that meet the thermochemical requirements in a well-melt furnace correspond and have a corresponding thermal resistance, on the one hand the gasification capability the pouring column as Basis for a good energy transfer retained and not reduced by dust-like ingredients and on the other hand, a shaft furnace-compatible charging in common with other slag or molten metal forming materials allows becomes. As a result, advantageously metallurgical and slag-forming operations can be influenced and the analysis of the metal and the slag can be regulated. It is also advantageous that by at the hydraulic bond resulting heat of reaction in the molding on the Removal time a successive drying and reducing the humidity done and thus over the molding recipe and the aging time the moisture content of the moldings can be influenced.

Advantageous is still that by the procedural combination with the gradual gasification and combustion of furnace gases by controlled Verbrennungsmittelzufuhr and / or supply of other solid and / or liquid and / or gaseous Substances in one or more over the height the pillar of the Bay Melting Furnace or Bay Melt Carburetor Different Layers the furnace gas analysis if necessary with release of energy and thus temperature control can be selectively changed and to further Drying of the sinking moldings is usable. from that results further advantageous that procedurally shaped products with high residual moisture greater than 20% also used and treated thermally and materially are usable.

The procedurally formed molten metal acts beyond advantageously as heavy metal sinks and the molten slags are not recoverable after solidification.

The Invention is based on the example of a dewatered sewage sludge with 72 initial moisture be explained in more detail.

Based 2.5% cement, 2.5% lime, 3% shredder were added to the damp mass Light fraction and 92% digested sludge (sewage sludge) mixed together and in molds, i. slightly compressed.

The Moldings were aged at ambient temperature and showed dependent from the initial weight and the drying and curing process after 17 days a moisture content from about 15% to 17%.

These moldings, together with a share of 10% coke in a shaft-melt carburetor with the addition of 34.5 kg / t of oxygen were gasified, burned and gradually melted. This results in a flammable furnace gas as well as 332 kg / t non-recoverable slag granules, 33.8 kg / t iron in scrap quality and 40 kg / t filter dust. This filter dust can also be recycled into the shaft melt gasifier for slagging. The molten iron acts procedurally advantageous as heavy metal sink.

The Properties of the liquid Slag can if necessary by external addition of dusty and / or granular and / or molten Materials outside of the shaft melting furnace.

Claims (5)

Process for the thermal treatment and recycling of sewage sludge by compacting, drying and gasification, controlled afterburning of furnace gases and melting under reducing conditions in a shaft-melt gasifier or shaft melting furnace operated with oxygen and / or combustion wind, characterized in that the sewage sludge originating, for example, from sewage treatment plants for municipal and / or industrial waters with a moisture content of up to 85%, based on the wet mass sewage sludge, up to 5 cement, up to 5% lime and up to 6% aggregates mixed with the sewage sludge, in Molds are molded or molded into moldings of a size suitable for a smelting furnace, then panned out and fed to the smelting furnace after a curing time until the setting of the cladding and thermal resistance, in this step by controlled combustion supply and / or regulated supply of other solid and / or liquid iger and / or gaseous substances in one or more of the height of the bulk column of the shaft melting furnace or shaft melting gasifier different levels dried, gasified, converted into a combustible furnace gas and reducing to a molten metal and a liquid, according to the Solidification non-leachable slag, to be melted. Process for material and thermal treatment and recovery of sewage sludge according to claim 1, characterized in that by the at hydraulic bond resulting heat of reaction in the molding over the Removal time a successive drying and reducing the humidity down to less than or equal to 20% and through the molding recipe and the removal time set the moisture content of the moldings becomes. Process for material and thermal treatment and recovery of sewage sludge according to claim 1, characterized in that by the procedural Combination with the gradual gasification and melting of the moldings by controlled combustion agent supply and / or regulated supply other solid and / or liquid and / or gaseous Substances in one or more over the height the shaft column of the shaft melting furnace or shaft fusion carburettor different levels, the furnace gas analysis if necessary with release of energy and thus temperature control is selectively changed, for further drying the sinking moldings used in the shaft and procedural Moldings with high residual moisture greater than 20% used, thermal treated and recyclable. Process for material and thermal treatment and recovery of sewage sludge according to claim 1 to 3, characterized in that the ratio of sewage sludge to the additives freely selectable is and the properties of the slag are targeted. Process for material and thermal treatment and recovery of sewage sludge according to claim 1 to 4, characterized in that the properties the slag by external addition of dusty and / or grainy and / or molten Materials outside of the shaft melting furnace.