DE19800900A1 - Treatment of biogenic residue and waste, e.g. sewage sludge, fermentation residue or fruit, vegetable and kitchen waste - Google Patents

Abstract

Treatment of biogenic residues and/or waste by cell disintegration is carried out at 130-200 deg C and either pH 0.5-2.5 or pH 9-14.

Description

The invention relates to a method for treatment biogenic residues and / or waste materials Cell disintegration.

Method for cell disintegration of biogenic residual and / or Waste materials are known. Biogenic residual and / or Waste materials can be a primary or secondary sludge biological sewage treatment plant (sewage sludge) Digested sludge, waste sludge from fermentation plants, for example the food or pharmaceutical or chemical industry, or solid biogenic Waste such as fruit and vegetable residues, Kitchen waste. Through the cell disintegration of the The aforementioned substances become the cell wall of the substances  dissolved or destroyed. This will make the volume reduced.

The treatment of biogenic residues or waste materials Cell disintegration works particularly well as Ballast procedure for a later microbiological Treatment of residual or waste materials in one Anaerobic reactor. The known treatment methods of the biogenic residues or waste materials Cell disintegration has the disadvantage that the Treatment time is very long, so that sometimes large Reactors for cell disintegration are required and cell disintegration is often only discontinuous can be carried out in batches.

The problem underlying the invention is a method for the treatment of biogenic residues or waste materials through cell integration, through which the Treatment time is significantly reduced and one continuous operation of cell disintegration enables.

To solve this problem is the invention Process characterized in that the Cell disintegration at a temperature of 130 ° C to 200 ° C and a pH of either 0.5 to 2.5 or 9 to 14 is carried out.

With this treatment method, the Reduce treatment time to 0.5 to 30 minutes. Because of this short treatment time, a reactor for cell disintegration, a so-called Cell disintegrator, operated continuously. Furthermore, by the method according to the invention Biogas yield in a subsequent one if necessary Anaerobic reactor increased, while the microbiological process in the anaerobic reactor  accelerated and the amount of organic material is reduced.

Cell disintegration is preferred in one pH from 0.5 to 1.5 or 10 to 12 carried out. The Treatment temperature can advantageously be 150 ° to 180 ° C. be. This allows treatment times of achieve l to 10 minutes.

The desired pH value for cell disintegration can be done either by adding lye, for example Ammonia water and / or sodium hydroxide solution, or addition of Acid or an acid mixture, for example hydrochloric acid and / or sulfuric acid and / or phosphoric acid, can be set.

A cell disintegrator can advantageously be used in a system under acidic conditions and a second Cell disintegrator in parallel under alkaline conditions be driven and then that of the integrated Material for neutralizing the added acids or lyes are mixed.

Solid biogenic residues or waste materials, for example Fruit or vegetable residues and / or kitchen waste should be crushed before cell disintegration to the Access of the added acid or alkali to the Accelerate cell material.

It is particularly advantageous if the shredded solid biogenic residues or waste materials with primary or Secondary sludge from sewage treatment plants or other biogenic sludges are mixed. The solid biogenic Residual or waste materials have one Dry matter content of over 20% in some cases, while the dry matter content of the aforementioned Sludge is around 1%. A cheaper one Dry matter content for cell disintegration lies  at about 6%. This dry matter content can be cheap way by a corresponding Mixing ratio of the sludge and the solid biogenic Residual or waste materials can be set.

The invention is described below with reference to two Embodiments with reference to the accompanying Drawings explained in more detail. Show it:

Fig. 1 A scheme for the treatment of sewage sludge,

2 shows a scheme for the treatment of sewage sludge with the addition of solid biogenic residues or waste materials.

The method according to the invention is suitable for Disintegration of any biogenic residual or Waste materials. These can be single or as a mixture be disintegrated.

In Fig. 1 an example of the application of the invention in a wastewater treatment plant for the disintegration of secondary sludge from an aerobic purification stage of a biological sewage treatment plant is shown. The secondary sludge thickened to a dry matter content of about 6% is conveyed in a reactor for cell disintegration, or cell disintegrator 10 for short. Here the secondary sludge is heated to the desired temperature, for example 160 ° C, in a short time. Subsequently, the cell disintegrator 10 is supplied with alkali or acid or an acid mixture in order to set the desired pH. In the present case, the pH is adjusted to 12 with the addition of sodium hydroxide solution. The secondary sludge dwell time under these conditions is 5 minutes. The secondary sludge is then mixed with primary sludge in a mixer 11 , as a result of which the temperature of the secondary sludge is reduced and the salt content increased by the addition of sodium hydroxide solution. Special measures for cooling the secondary sludge after cell disintegration can be omitted by adding primary sludge.

The mixture of primary and secondary sludge is now fed to an anaerobic reactor 12 and subjected to a microbiological process to obtain biogas. The sludge is then dewatered at 13 and then the digested sludge is separated off at 14 . Part of the digested sludge (digested sludge B) is disposed of by, for example, composting. Another part of the digested sludge (digested sludge A) can be mixed with the thickened secondary sludge and fed to the cell disintegrator 10 together with this.

Fig. 2 shows an embodiment in which in addition to secondary sludge to an anaerobic biological waste water treatment, solid residual or biogenic waste substances of cell disintegration are subjected. The solid biogenic residues or waste materials can be, for example, fruit or vegetable residues or other kitchen waste. The secondary sludge not thickened in this case with a dry matter content of approx. 1% is first mixed with the solid biogenic residues or waste materials. These have expediently been crushed beforehand in a shredder 15 . The dry matter content of the solid biogenic residues or waste materials is approx. 20%. A suitable mixing ratio of the secondary sludge and the comminuted solid biogenic residues or waste materials sets the dry substance content of the mixture, which is favorable for the disintegration, of 6%. In turn, digested sludge A can be added to the mixture of secondary sludge and solid biogenic residues or waste materials. This mixture is then preheated to a temperature of 50 ° to 60 ° C. in a preheater 16 and then conveyed in the cell disintegrator. The conditions in the cell disintegrator 10 can correspond to the conditions as described in connection with FIG. 1. To lower the temperature and adjust the pH towards a neutral range, the disintegrated mixture is again mixed with primary sludge in the mixer 11 . For the same purpose, untreated solid biogenic residues or waste materials from the shredder 15 can also be added here. The subsequent process then corresponds to the process described in connection with FIG. 1.

If it is not possible within the mixer to set the desired temperature and pH for the subsequent anaerobic reactor 12 , cooling and acid in the case of alkaline conditions in the cell disintegrator 10 or lye in the case of acidic conditions in the cell disintegrator 10 can also be added. Water can also be added to adjust the pH value required for the anaerobic reactor. It is particularly favorable if a cell disintegrator 10 is operated in parallel under acidic conditions and a second cell disintegrator 10 under alkaline conditions. The alkaline or acidic sludges or mixtures obtained from the two cell disintegrators 10 can then be mixed with one another in the mixer 11 and thereby neutralized.

Depending on the specific conditions, the residence time of the biogenic residues or waste materials during cell desingration at temperatures above approx. 50 ° C to 60 ° C should not exceed approx. 15 min to 30 min, otherwise the subsequent treatment of the integrated material in 12 important enzymes can be destroyed in the anaerobic reactor.

Reference list

10th

Cell disintegrator

11

mixer

12th

Anaerobic reactor

13

drainage

14

Sludge separation

15

Shredder

16

Preheater

Claims (7)

1. A process for the treatment of biogenic residues and / or waste materials by cell disintegration, characterized in that the cell disintegration at a temperature of 130 ° C to 200 ° C and a pH of either 0.5 to 2.5 or 9 to 14 is carried out. 2. The method according to claim 1, characterized in that that cell disintegration at a pH of either 0.5 to 1.5 or 10 to 12 is carried out. 3. The method according to claim 1 or 2, characterized characterized in that the cell disintegration in a Temperature of 150 ° C to 180 ° C is carried out.   4. The method according to any one of claims 1 to 3, characterized characterized in that the pH value by adding an alkali, for example ammonia water and / or sodium hydroxide solution or Addition of acid or a mixture of acids, for example Hydrochloric acid and / or sulfuric acid and / or phosphoric acid, is set. 5. The method according to claim 4, characterized in that a first cell disintegrator ( 10 ) under acidic conditions and a second cell disintegrator ( 10 ) are operated under alkaline conditions and the disintegrated material is then mixed. 6. The method according to any one of claims 1 to 5, characterized characterized that solid biogenic residual or Waste materials, such as fruit or vegetable residues and / or kitchen waste before cell disintegration be crushed. 7. The method according to claim 6, characterized in that cell disintegration is a mixture of sewage sludge, a wastewater treatment plant and solid biogenic residual or waste materials.