DD235376A3 - CLEANING SEA FOR THE CONTINUOUS DISCONNECTION OF PLASTIC MIXTURES - Google Patents

Abstract

The invention relates to a device for continuously separating any comminuted plastic waste mixtures from household and industry into their starting components and / or the separation of foreign substances. The aim of the invention is an economical, space-saving, user-free, maintenance-free and water-functional separation of plastic waste mixtures of various types. The object of the invention is to provide a device for the continuous separation of Plastabfallgemischen. The separation column is a vertical cylindrical device, which is provided with a Einspuelleitung including Einspueltrichter, an overflow pipe for the riser fraction and a product discharge for the sinking fraction.

Description

For this 1 page drawing

Field of application of the invention

The invention relates to a device for continuously separating any comminuted plastic waste mixtures from household and industry into their starting components and / or the separation of foreign substances.

Characteristic of the known technical solutions

For the technical treatment of Plastabfallgemischen various methods and devices are known. Thus, for example, the separation is carried out using liquids whose density is between the density of the plastic components to be separated and which are adjusted to such a density by the addition of alkalis or solvents. The separation is then carried out with complex and multiple drive elements provided complicated devices.

The flotation process requires chemical flotation aids, large equipment and large volumes of water.

Due to the different particle size, air classification requires complicated and expensive technologies.

The separation in the hydrocyclone also requires complex and complicated facilities, as is apparent from DE OS 2539960 and in addition a special set density of the separating liquids and is difficult to control in the operation.

Similarly complicated is the construction and operation of a plant for the ballistic separation of plastic from waste according to DE OS 2534309.

The known methods of electrostatic separation are not suitable for the wet-soiled or previously washed and therefore moist plastic waste mixtures.

All known methods require a lot of space, manufacturing, operation and maintenance and large amounts of energy and do not allow variable adjustment to different Plastabfallgemische.

Object of the invention

The object of the invention is an economical, space-saving, service-free, low-maintenance and water-functional separation of plastic waste mixtures of various types.

Explanation of the essence of the invention

The object of the invention is to provide a device for the continuous separation of Plastabfallgemischen. According to the invention, the object is achieved in that the continuous separation of Plastabfallgemische in crushed form of any composition according to the sink-float principle and / or the hydrodynamic principle in a separation column in which the ratio of effective areas of the flushing and the Trennsäulenmittelteiles equal to or greater than 1 : 40 to 1: 100, the ratio of the effective areas of the flushing line and the separating column upper part or the flushing line and the lower part of the separation column equal to or greater than 1:20, the height of the separating column Vio equal to the total height of the separation column, the outlet for the sink fraction more than 0.5 m above the outlet for the riser fraction and the Einspültrichter above the outlet for the sinking fraction is arranged.

The plastic waste mixtures are conveyed in comminuted form with particle sizes up to a maximum of 20 mm - preferably up to 10 mm - in the dispensing funnel and fed by means of a separating liquid - preferably water - through the dispensing line in the separation column. It must be I ₅ > O. ·

In the separation in the separation column water is used as a separating liquid, with which at the same time the crushed Plastabfallgemische be flushed through the Einspültrichter (1) and the Einspülleitung (2) in the separation column. In this case, the control line (8) remains closed, so that in the lower part of the column (6), the flow rate is so low that it can be neglected. As a result, all particles having a greater density than those of the separating liquid can flow downwards without any flow and be removed by the product discharge sink fraction (10). In contrast, all particles with a density smaller than that of the separating liquid rise upwards and are discharged through the overflow line (7). This buoyancy is aided by the hydrodynamic flow of the separation liquid which rises vertically through the separation column top, resulting in an increase in throughput rate

The following geometrical and physical parameters are to be observed, whereby A ₁ to A _{4 are} the effective surfaces:

A ₁ : A ₂ > 1:20 preferably

The separating column central part (4) is designed as a calming zone symmetrical to run in the flushing line (2) with I ₃ at least 0.1 · (I ₁ + I ₂ ) to a maximum of I3 = I ₁ + I ₂ . In this case, I3 should preferably correspond to the hydraulic diameter of the cross section A ₂ .

The separation column top and bottom parts (5, 6) can be varied in cross section as follows:

A ₁ IA ₃ S 1:20 A ₁ 'A ₄ S 1:20

The flow rate in the flushing line (2) must be at least 0.2 m · s " ¹ .

The heights U> 0.5m and I ₅ > l4sein

The separation according to the hydrodynamic principle can be used if both components to be separated have greater or smaller density than that of the separating liquid, wherein the density of a component A may deviate from the separating liquid by a maximum of 10%.

This is done via the control line (8)

- In the case of greater density of both components than that of the separating liquid supplied so much separating liquid until adjusts such an upward flow velocity in the cross section A _{2 of} the separation column, which overcomes the rate of descent of the component with the low density and this component through the overflow line (7 ),

- In the case of lower density of both components as the separation liquid dissipated so much separating liquid that the rate of rise of the component is overcome with the higher density and this component can be discharged through the withdrawal nozzle sinking fraction.

The geometric and physical sizes of the separation column can be as described above.

In the separation by combination according to the two methods described above, it is possible to separate multi-component mixtures in all components and / or to achieve high-purity separation effects. For this separation columns for the principles of action 1 and / or 2 are connected in series as a cascade. The separation according to the density should be provided here as the 1st stage.

With this separation column, the separation of plastic waste mixtures according to the following principles of action for the recovery of regranulates with high performance properties is possible:

1. separation according to the density

2. Separation according to the hydrodynamic principle

3. Separation after combination of 1 and 2

4. Separation of very light contaminants such as foams, cork and some types of paper in the dispensing funnel for all 3 separation principles.

The invention should be explained in more detail below to 3 exemplary embodiments. In the accompanying drawing, Figure 1 shows the schematic representation of the device.

example 1

Essoll a plastic waste mixture of the two components

A = polyethylene density 0.92

B = polyvinyl chloride density 1.32

be separated.

The Plastabfallgemisch is continuously fed into the Einspültrichter (1) and introduced with the separating liquid water through the Einspülleitung (2) in the separation column (3). The flow rate required in the flushing line (2) for this purpose is set by the amount of separating liquid and kept constant. Upon entry of the Plastabfallgemisches in the separation column (3), the separation is completed. The polyethylene is discharged through the overflow line (7) and the PVC through the removal nozzle (9) and the product discharge (10).

Example 2

It should be a Plastabfallgemisch of the two components

A = polystyrene density 1.02

B = polyvinyl chloride density 1.32

be separated.

The Plastabfallgemisch is supplied as in Example 1 with water of the separation column (3). By the control line (8) as much water is supplied that the polystyrene is driven upwards and discharged through the overflow line (7). The polyvinyl chloride sinks down and is discharged as in Example 1.

Example 3

It should be a plastic waste mixture of three components

A = polyethylene density 0.92

B = polystyrene density 1.02

C = polyvinyl chloride density 1.32

be separated.

The Plastabfallgemisch is supplied as in Example 1 with water of the separation column (3). In this case, the component A rises in the separation column upwards and is discharged via the overflow line (7).

The components B and C sink down, are conveyed via the removal nozzle (9) in the product discharge (10) and from there into a second separation column (7), which operates according to Example 2, so that the component B through the overflow line (7) and the component C are discharged through the product discharge (10).

Claims (1)

Invention claim: Device for the continuous separation of plastic waste mixtures in comminuted form of any composition according to the sink-float principle and / or the hydrodynamic principle, characterized in that the ratio of the effective areas of the flushing line and the center of the separating column is equal to or greater than 1:20, preferably 1:40 to 1: 100, the ratio of the effective areas of the flushing line and the separating column upper part or the flushing line and the lower part of the separation column is equal to or greater than 1:20, the height of the separating column middle part ¹ Ao equal to the total height of the separation column, the outlet for the sinking fraction more than 0 , 5 m above the outlet for the riser fraction and the inlet funnel above the outlet for the sink fraction.