DE10135623A1 - Process to sterilize and mechanically stabilize organic waste for incineration by admixture of chalk - Google Patents

Abstract

In a process to mechanically stabilize and sterilize organic residues (1) containing water e.g. slaughterhouse residues or sewage sludge, a quantity of additives (2) is homogeneously admixed to promote hardening of the mixture. The resulting hard material is allowed to dry as a pile of loose solid material in air. The average size of the resulting dried extruded from is 0.5 litre. A hydration reaction takes place between the organic residues and chalk DE10135623-A1 additive and increases the pH value. The solid extruded mass is encased in a secondary material. Drying takes place under cover assisted by a hot blower ventilator.

Description

The invention relates to a method for mechanical and hygienic Stabilization of water-containing, organic materials or of water-containing materials with organic components, such as for example sewage sludge or slaughter waste, preferably under Addition of organic and / or inorganic structural material.

A process for the mechanical stabilization of organic Materials are known for example from DE 199 34 381 A1. Both known methods, sludges are preferred Industrial sludge pre-dewatered, whereupon the ability to pelletize improving amount is added to a dry matter. thereupon pelletizing takes place into pellets with round surfaces. The advantage of The process is that the resulting end product is dust-free can be transported and stored.

The resulting small pellets are for other applications, z. B. for combustion in incinerators with grate firing unsuitable because the pellets fall through the grates unburned would. Another disadvantage is that it is energy intensive Hot air dryer used to dry the pellets produced Need to become. With the dry matter added to the sludge mass it is primarily an organic waste mass. This will added so that the pelletability of the sludge is possible at all becomes. The effect is that by adding this Dry matter the grain structure and dry matter of the sludge is so improved that it is of high mechanical Use of pelleting without subsequent change in shape withstand.

The object underlying the invention is a method propose that the production of a lumpy material based made of organic materials possible without sacrificing thermal To have to use drying systems.

• - Zudosierung von Zuschlagsstoffen, die eine Aushärtung der Ausgangsmaterialien zur Folge haben,
• - Homogenes Vermischen der Ausgangsmaterialien mit den Zuschlagsstoffen,
• - Aushärtung und Trocknung des entstandenen stückigen Materials auf einem lockeren Haufwerk.

The object on which the invention is based is achieved by a method with the following method steps:

• - addition of additives that cause the raw materials to harden,
• - Homogeneous mixing of the starting materials with the additives,
• - Hardening and drying of the resulting lumpy material on a loose pile.

The method is particularly suitable for those materials that are due to their water content and / or their biological activity and / or their pathogenic ingredients for energy recovery or storage or no other use or only with Pretreatment measures can be used. The procedure is environmentally friendly and is used to manufacture lumpy materials with unlimited shelf life, neutral odor, more hygienic Safe, mechanical stability with regard to storage as Heap, stackability as an air-permeable heap and mechanical Stability in the high temperature range. In contrast to the known state The technology is the hardening of the starting material to the properties of the additives and not due to the mechanical Treatment, for example in pelleting or briquetting plants. A large Advantage of the inventive method is that for Drying no additional equipment is necessary. Due to the Size of the resulting lumpy material can be dried in one loose piles are made. Drying pellets in a loose Haufwerk is not without due to the relative impermeability to air Forced ventilation possible.

Organic can also be used in the process according to the invention and / or inorganic structural materials such as straw, Bran, animal meal, screenings, waste, sand, etc. can be added. This serves among other things to increase the calorific value.

According to an advantageous development of the method, that lumpy material, e.g. B. cylindrical, tubular, cuboid with an average volume of at least 0.5 liters is produced.

Lumpy material of this size has favorable drying properties and is particularly suitable for combustion in grate combustion systems. In an embodiment of the method it is provided that as additives Substances are used that match the water content of the React exothermic starting material. As additives you can inorganic substances such as cement, lime and hydrated lime be used. It is also the addition of gypsum, clay or clay possible. The materials described lead to a hardening of the Mixture through a partly exothermic chemical reaction that the Temperature rises and thereby expels water. Be at the same time due to the temperature increase or chemical reactions biogenic Germs killed. The temperature increase ensures a quick Drying in the pile by expelling water, self-heating and Increase in air movement.

However, other organic additives such as for example, water-curing plastics (PU foams) added become. There is no exothermic reaction with these, however the water-hardening plastics cure the Starting material.

It is particularly advantageous that the reaction between additives and the water-containing starting material is a hydration reaction. Hydration reactions take place, for example, when using cement and quicklime as an additive. The quicklime CaO reacts with water to calcium hydroxide CA (OH) ₂ . This leads to rapid drying and to hardening of the organic material into lumpy end material.

The further processing of pathogens is particularly problematic Germs or prions contaminated slaughterhouse waste. This also sees this Method according to the invention according to an advantageous development a solution. It is envisaged that the reaction of Aggregates and raw material a pH shift, preferably a pH increase in the overall mixture Has. Because of the pH shift, it is the most pathogenic Organisms cannot continue to exist. Depending on the extent of the pH Value shift is also the harmlessness of prions possible. Through the reaction of quicklime or cement with water there is a considerable alkalization of the pH. This has one Hygienization of the entire material.

To ensure a predefined shape of the lumpy end product, is according to an advantageous development of the invention Process provided that the mixing process of starting material and aggregates are followed by a shaping process. For example, an extruder or a Piston press can be provided, which has the purpose of in the mixture of substances one especially for the subsequent storage and recycling to transfer advantageous form. A defined form is for example when using the raw material in grate furnaces from Advantage to ensure with certainty that the fuel is not falls through the grate.

A particularly expedient form of the method provides that the Shaping is done with the help of wrapping materials. The Envelope materials are filled with the mixture of substances. The wrapping materials can be both organic and inorganic in nature. It can for example fabric, paper, cardboard, straw mats, reed mats, Metal wire mesh, plastic mesh or plastic foils are used become. The use of wrapping materials has an increase in Abrasion resistance and mechanical stability.

It is particularly beneficial if the drying of the loose Pile covered. This ensures that precipitation is held, which lead to an extension of the drying time would.

The drying in the pile takes place, as already mentioned, on the one hand by the exothermic reaction of the aggregate with the starting material, which leads to self-heating. Furthermore, the biological Additional activity for a drying effect. Through both effects Water expelled.

If there is a particular hurry, it is advantageously provided that the Drying is carried out with the aid of fans.

To accelerate the drying effect and the curing process drying can be carried out with the addition of heat.

With the help of the process hardened, stuffy material manufactured, which is particularly suitable for use in Incinerators with grate firing are suitable.

In all previous processes, the sewage sludge was often too moist to to be used thermally with net energy gain. A lot of More problematic is the fact that the sewage sludge is sometimes much too was fine-grained. It therefore falls through the grate, causing the burnout cannot be guaranteed. Therefore, the use of the hardened, lumpy material especially in incineration plants meaningful. Due to the lumpiness of the material is complete thermal usability guaranteed.

Another embodiment of the method advantageously provides that the hardened, lumpy material in gasification plants, preferably in Cupola furnaces that are processed into synthesis gases. at Gasification plants must have a good flow of the filling material be guaranteed with air. The pore volume of the bed is therefore from vitally important. High fines in the feed can Cause malfunctions. Furthermore, at high temperature Gasification plants, in part, substances with a mechanical support effect, such as coke needed in the high temperature zone. With these supporting feedstocks are less the calorific value than the mechanical ones Stability in the high temperature range is important. Furthermore, at High temperature gasification process partly as limestone Aggregate used to regulate the slag flow behavior become. Here are the special advantages of the End product produced according to the method of the invention. The lumpy material has a low water content and one defined and adaptable lumpy shape. Therefore, about the size of the additives, the melting behavior and the mechanical stability can be set in the high temperature range.

It is advantageously provided that lime is added to the starting material becomes. The advantage here is the increased shelf life and that the resulting lumpy end product is hygienically safe.

In the single drawing is the sequence of the invention The procedure is shown schematically. Based on the drawing Procedure described in more detail.

Organic raw materials 1 , here sewage sludge, and aggregates 2 , here cement, are dosed in a certain proportion. The dosing takes place in a dosing device 3 . The metering device 3 is followed by a mixer 4 in which the homogeneous mixing of starting materials 1 and additives 2 takes place. In this exemplary embodiment, the mixer 4 is followed by a shaping unit 5 . The shaping unit 5 can be designed, for example, as an extruder or piston press. To increase the abrasion resistance and the mechanical stability, envelope materials 6 are introduced, which are filled with a mixture of substances. Chemical reactions of the aggregates with the starting materials now occur in the coating materials. When using cement, there is a hydration reaction. This reaction is exothermic, which increases the temperature of the lumpy material. The reaction also causes a pH shift in the alkaline range. The hydration binds water in the form of hydroxide. The entire material hardens into a lumpy end product. The curing takes place with the drying process in a loose pile 8 . To accelerate the curing and drying process, dry air 7 is fed directly into the loose aggregate 8 by means of forced ventilation.

In a gasification plant 9 , the lumpy material is gasified in a cupola furnace. In the high temperature zone of the cupola furnace there is a reaction temperature of 2000 ° C, at which mainly the raw gases carbon monoxide (CO) and hydrogen H ₂ are generated. REFERENCE SIGN LIST 1 organic raw materials
2 aggregates
3 dosage
4 mixers
5 shaping unit
6 wrapping materials
7 dry air
8 loose piles
9 gasification plant

Claims (13)

1. Process for the mechanical and hygienic stabilization of water-containing, organic materials or of water-containing materials with organic components, such as sewage sludge or slaughterhouse waste, preferably with the addition of organic and / or inorganic structural material, characterized in that the following process steps are provided: - metering ( 3 ) of aggregates ( 2 ), which result in hardening of the starting materials ( 1 ), - Homogeneous mixing ( 4 ) of the starting materials ( 1 ) with the additives ( 2 ), - Hardening and drying of the resulting lumpy material on a loose pile ( 8 ). 2. The method according to claim 1, characterized in that by the process lumpy material with a medium volume of at least 0.5 liters. 3. The method according to any one of the preceding claims, characterized in that substances are used as additives ( 2 ) which react exothermic with the water content of the starting material. 4. The method according to any one of the preceding claims, characterized in that the reaction between additives ( 2 ) and the water-containing starting material ( 1 ) is a hydration reaction. 5. The method according to any one of the preceding claims, characterized in that the reaction of additives ( 2 ) and starting material ( 1 ) results in a pH shift, preferably a pH increase in the overall mixture. 6. The method according to any one of the preceding claims, characterized in that the mixing process ( 4 ) of starting material ( 1 ) and additives ( 2 ) is followed by a shaping process ( 5 ). 7. The method according to any one of the preceding claims, characterized in that the shaping takes place with the aid of enveloping materials ( 6 ). 8. The method according to any one of the preceding claims, characterized characterized that the drying takes place roofed. 9. The method according to any one of the preceding claims, characterized characterized that drying with the help of Blowing takes place. 10. The method according to any one of the preceding claims, characterized characterized that drying with application of heat he follows. 11. The method according to any one of the preceding claims, characterized characterized in that the hardened, lumpy material in Incineration plants, preferably in plants with grate firing, is thermally recycled. 12. The method according to any one of the preceding claims, characterized characterized in that the hardened, lumpy material in Gasification plants, preferably in cupola furnaces Synthesis gases is processed further. 13. The method according to any one of the preceding claims, characterized characterized in that lime is added to the starting material.