DE10224077A1 - Binding agent admixed to wet sewage sludge and pressed conversion to solid bodies reduced to gas, molten metal and cinder in shaft oven with regulated force-fed air - Google Patents

Abstract

In a process to dispose of sewage or industrial sludge containing no more than 85% water, sludge is especially combined with a hydraulic binding agent and further solids. The resulting substance is pressed into bodies which are allowed to dry and harden prior to surrender to a shaft melting oven with a regulated force-feed of oxygen or air. In the oven the pressed bodies are arranged in a vertical series of differentially-heat charges which are progressively dried and reduced to combustible gas, molten metal and a liquid which subsequently cools to cinders. Following the initial admixture of binding agent to the sludge, the resulting exothermic reaction progressively reduces the water content to below 20%. The final moisture content is determined by the binding agent formula and the drying time. The oven process is regulated at different levels by the controlled admission of oxygen or air and further solids/liquids/gases. The oven temperature regulated by the liberation of energy which is reintroduced as required to further dry the bodies progressively descending through the shaft, facilitating the introduction of further charges with a residual moisture content above 20%. The pressed mixture of sludge and binding agent contains up to 5% cement, 5% chalk and 6% further additives. The pressed forms are allowed to dry at ambient temperature. The mixture of sludge to binding agent is freely variable. Cinder characteristics are regulated by the controlled admixture of dust or granular additives outside the oven.

Description

The invention relates to a method for thermal treatment and material Utilization of sewage sludge by compacting, drying, gradually Gasification, controlled afterburning of the furnace gases and melting under reducing conditions in one with oxygen and / or Combustion wind operated shaft melting carburettor or shaft Smelting furnace.

According to DE 195 31 379 C1, a method for Incineration of sewage sludge is known, in which the sewage sludge by means of a dried by a heat transfer medium heated dryer and then in a furnace, in particular cycloid combustion, is burned, in which the Heat transfer medium is heated by the combustion, in which the A basic additive is fed to the furnace, then the flue gases first dedusting and cooling, then the Flue gas again heat while cooling the flue gas to a lower, but above the cooling limit temperature of the flue gas Temperature is withdrawn, and then another in the flue gas basic additive and then the flue gas of a filtering Dedusting is supplied. To avoid heavy metal pollution Furnace ash is the first dedusting before the heat is removed for the Drying the sewage sludge. The heat transfer medium for indirect Sewage sludge drying is at least a partial flow of the furnace leaving smoke gases, or by means of the smoke gases through heat exchange generated steam or air. For direct sewage sludge drying, a through Heat exchange with flue gas heated circulating gas, which is made of air and / or vapors formed during drying are used. Alternatively, dedusted flue gas can also be used.

The disadvantage is that the process does not use slag, but ash are generated, which is technically complex over several stages a possible heavy metal contamination must be protected.

According to DE 24 04 067 C2 are a method and an installation for combustion of sewage sludge together with garbage, in which the pre-dewatered Sewage sludge together with the hot flue gases of one self-priming fan beater mill and then the shredded, pre-dried to a residual moisture of about 10% and about 200 ° C hot sewage sludge is blown into the furnace with the vapors becomes.

The material, process engineering and apparatus are disadvantageous Expenses for predrying, crushing and blowing in the Sewage sludge in the furnace.

According to EP 0 699 868 there is also a method for self-maintenance Incineration of sludge from sewage treatment plants for municipal and / or industrial waters known at which a stage for dewatering the Sludge using the sensible heat from the incinerator originating smoke gases and is integrated by simultaneous centrifugation, where the sludge is fed into the furnace in powder form together with the vapors from the drying and centrifugation stages takes place and in which the non-condensable components are destroyed. A disadvantage here is the cost of the process engineering Sludge treatment as well as the process and plant limits, which depends on the material to be blown in from the way the Blow-in nozzles / devices on the furnace result.

Another process and plant for the production of combustible gas In particular sewage sludge is disclosed in DE 199 61 437 A1. to Cleaning the extracted gas from tar, the gas is in a cooler also cooled with the addition of water, the tar condenses and the gas then through a sewage sludge tank to be gasified Sewage sludge granules. This is intended to filter out the tar. He then becomes the gasifier together with the sewage sludge granulate fed.

The disadvantages here are the expenses for the process engineering Drying the sewage sludge before gasification and the procedural costs associated with water cooling of the gas Separation of water from gas and water treatment related.

It is also known from the prior art that dusty and small-sized materials for processing in gasification and / or shaft Melting furnaces can be prepared by compacting.

Accordingly, in G 296 09 753.5 a molded body for material and energetic utilization of residues revealed by admixture a binder consisting of cement and hydraulically active industrial residues, is produced, and the thermochemical and - mechanical requirements, d. H. the demands for a Thermal resistance, in a shaft melting furnace.

The disadvantage here is that of initializing the hydraulic binding to the compacting dusty and small materials necessary Labor and water additive, so-called "mixing water", whereby procedural and economical additional costs result.

The object of the invention is therefore to provide a method for inexpensive and technically simple thermal treatment and material recycling of sewage sludge to create, where the so far necessary indirect and / or direct drying, crushing and that Blowing of sewage sludge dusts can be omitted.

To solve the task, the sewage treatment plants for sewage treatment plants become puncture-proof and / or industrial sewage sludge with a moisture content of up to 85% mixed with a hydraulic binder, in molds too Molded bodies with a shaft-melting furnace just size or slightly pressed, then outsourced and after a curing time up to to adjust the generic and thermal strength of the shaft melting Furnace fed, in this subsequently gradually by regulated Fuel and / or regulated supply of other solid and / or liquid and / or gaseous substances in one or more over the amount of Shaft column of the shaft melting furnace or shaft melting gasifier different levels dried, gasified, to a combustible furnace gas implemented and reducing to a molten metal and one liquid slag that cannot be eluted after solidification, melted. The moisture contained in the sewage sludge can advantageously be used as "Mixing water" can be used to initialize the hydraulic binding, This means that external addition of water to the mixture is no longer necessary is and therefore no additional procedural and economic costs requires. It is also advantageous that the entire apparatus and Expenses for drying, crushing to dust and Blowing the dust-like sewage sludge into the shaft melting furnace is eliminated and thus the economic efficiency of the material and thermal Treatment and recycling of sewage sludge is improved. Likewise It is advantageous that by compacting the sewage sludge into shaped pieces, that meet the thermochemical requirements in a shaft melting furnace correspond and have a corresponding thermal resistance, on the one hand the Gas permeability of the pouring column as the basis for good Energy transfer is preserved and not through dusty components is reduced and, on the other hand, charging that is compatible with the shaft furnace together with other materials that form slag or molten metal is made possible. As a result, further metallurgical are advantageously and slag-forming processes can be influenced and the analysis of the metal and the slag can be regulated. It is also advantageous that the the heat of reaction generated in the molding via the Aging time a gradual drying and reduction of moisture takes place and thus about the molding recipe and the aging time of the Moisture content of the moldings can be influenced.

It is also advantageous that the process engineering combination with the gradual gasification and combustion of the furnace gases by controlled The supply of combustion agent and / or other solid and / or liquid and / or gaseous substances in one or more over the amount of Shaft column of the shaft melting furnace or shaft melting gasifier under different levels if necessary Energy release and thus temperature control can be changed in a targeted manner can and for further drying of the moldings sinking in the shaft is usable. This also has the advantage that it is procedural Moldings with high residual moisture levels greater than 20% are also used and are treated thermally and are recyclable.

The metal melt formed in terms of process technology also has an effect advantageously as a heavy metal sink and the molten slags cannot be eluted after solidification.

Using the example of a dewatered sewage sludge with 72% Output moisture are explained in more detail.

Based on the wet mass, 2.5% cement, 2.5% lime, 3% Shredder light fraction and 92% digested sludge (sewage sludge) together mixed and pounded into shapes, d. H. slightly pressed. The moldings were stored at ambient temperature and showed depending on the initial weight and the drying and curing process after 17 days a moisture content of approx. 15% to 17%.

These moldings were together with a share of 10% coke Shaft melting carburetor with the addition of 34.5 kg / t oxygen in stages gassed, burned and melted. A flammable furnace gas is generated and 332 kg / t non-elutable slag granulate, 33.8 kg / t iron in Scrap quality and 40 kg / t filter dust. This filter dust can also compacted in the shaft melting carburetor for slagging to be led back. The molten iron has a procedural effect advantageous as a heavy metal sink.

The properties of the liquid slag can be changed if necessary by external Add dusty and / or granular and / or molten Materials outside the shaft melting furnace are corrected.

Claims (6)

1. Process for the thermal treatment and recycling of sewage sludge by compacting, drying and gasification, controlled afterburning of the furnace gases and melting under reducing conditions in a shaft-melting gasifier or shaft-melting furnace operated with oxygen and / or combustion wind, characterized by this that the sewage sludge, for example from the sewage treatment plants for municipal and / or industrial water, with a moisture of up to 85% is mixed with a hydraulic binder with the addition of other solid substances and materials, in molds to form bodies with a shaft smelting furnace Size stamped or pressed, then outsourced and after a hardening period until the type and thermal stability have been set, fed to the shaft melting furnace, in this stepwise by regulated supply of combustion agent and / or regulated supply of other solid and / or liquid and / or gaseous St opene in one or more levels, dried, gasified, converted to a combustible furnace gas, and reduced to a molten metal and a liquid slag that cannot be eluted after solidification, at different levels over the height of the chute of the shaft melting furnace or shaft melting gasifier become. 2. Process for material and thermal treatment and Utilization of sewage sludge according to claim 1, characterized in that the result of the hydraulic binding Heat of reaction in the molding over the aging time successive drying and reduction of moisture to less is carried out equal to 20% and by the molding recipe and Aging time the moisture content of the moldings is adjusted. 3. Process for material and thermal treatment and Utilization of sewage sludge according to claim 1, characterized in that the procedural combination with the gradual gasification and melting of the moldings regulated supply of fuel and / or regulated supply other solid and / or liquid and / or gaseous substances in one or more over the height of the pouring column of the shaft melting Furnace or shaft melting carburetor different levels the furnace gas analysis if necessary with release of energy and thus Temperature control is changed specifically for further drying the moldings sinking in the shaft are used and procedural moldings with high residual moisture> 20% used, thermally treated and recyclable. 4. Process for material and thermal treatment and Utilization of sewage sludge according to claims 1 to 3, characterized in that 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 forms crushed, d. H. slightly pressed, and at ambient temperature be outsourced. 5. Process for material and thermal treatment and Utilization of sewage sludge according to claims 1 to 3, characterized in that the ratio of sewage sludge to the additives are freely selectable and the properties of the Slag can be set specifically. 6. Process for material and thermal treatment and Utilization of sewage sludge according to claims 1 to 5, characterized in that the properties of the slag by external addition of dusty and / or granular and / or molten materials outside the shaft melting furnace Getting corrected.