EP4061546A1 - Method and device for analysing and/or sorting scrap metal - Google Patents

Abstract

The invention relates to a method for the analysis and/or sorting of scrap metal, more particularly of scrap aluminium, in which a quantity of scrap metal, more particularly aluminium scrap, in the form of a scrap bundle (6) or a group (4) of scrap bundles (6) is provided, in which method the scrap bundle (6) or the group (4) of scrap bundles (6) is irradiated by at least one neutron source, the gamma radiation emitted by the scrap bundle (6) or by the group (4) of scrap bundles (6) is captured by at least one detector, and composition information relating to the composition of the scrap bundle (6) or the group (4) of scrap bundles (6) is determined on the basis of the gamma radiation captured by the at least one detector. The invention further relates to a device for analysing and/or sorting scrap metal.

Description

Method and device for analyzing and / or sorting metal scrap

The invention relates to a method and a device for analyzing and / or sorting metal scrap, in particular aluminum scrap. To reduce the costs of aluminum alloy production and to increase the recycling rate, there is a need to use as much aluminum scrap as possible for charging an aluminum melting furnace.

Aluminum scrap is typically delivered by scrap dealers in the form of compressed scrap packages. To determine and / or check the

In practice, small random samples are melted down and chemically analyzed for the composition of these scrap packages. However, this analysis is quite time-consuming and the composition of the sample can differ significantly from the actual composition of the entire scrap package or a delivery of several scrap packages, for example if contaminants such as

Foreign metals or non-metallic impurities are contained in the scrap packages or if a scrap package contains scrap fragments of various aluminum alloys. It would be possible to split up the scrap packages and individually analyze the scrap fragments contained therein; however, this would be quite time-consuming.

Against this background, the present invention is based on the object of providing a method and device for analyzing and / or sorting and / or evaluating metal scrap, with which more reliable information about the composition of the scrap fragments can be obtained with very little effort . According to the invention, this object is achieved by a method for analyzing and / or sorting metal scrap, in particular aluminum scrap, in which a quantity of metal scrap, in particular aluminum scrap, is provided in the form of a scrap package or a group of scrap packages, in which the scrap package or the group of Scrap packages is irradiated by at least one neutron source, in which the gamma radiation emitted by the scrap package or from the group of scrap packages is recorded by at least one detector and in which, based on the gamma radiation recorded by the at least one detector, composition information about the composition of the scrap package or the Group of scrap packages is determined.

It was recognized that by means of a neutron activation analysis (NAA), or especially with a prompt gamma neutron activation analysis (PGNAA), not only the composition of individual or fewer scrap fragments can be determined, but also a composition analysis an entire scrap package or even a group of scrap packages in their entirety is possible. In this way, a scrap parcel or a group of scrap parcels can be completely analyzed in one measuring process, so that reliable composition information about the composition of the scrap parcel or the group of scrap parcels can be obtained with little effort.

The method can be used to analyze the composition of an individual scrap package or a group of scrap packages. A group of scrap stacks can in particular be provided as a loose stack of scrap stacks or also as a bundle of several scrap stacks, for example several scrap stacks stacked on a pallet.

A scrap package is understood to mean, in particular, a set of scrap fragments, in particular aluminum scrap fragments, which form a package are pressed together. Such scrap packages can contain scrap fragments from different alloys, in particular aluminum alloys, and / or impurities, for example foreign metal impurities or non-metallic impurities (eg plastic).

The scrap package or packages can in particular be cuboid. The scrap package (s) in particular has an extension in the three spatial directions, in particular edge lengths, of at least 20 cm each. The scrap packages preferably have edge lengths in the range 30-150 cm, in particular 40-60 cm.

The above-mentioned object is also achieved according to the invention by a method for analyzing and / or sorting metal scrap, in particular aluminum scrap, in particular according to the method described above, in which several scrap packages and / or several groups of scrap packages are provided, and for the scrap packages and / or the groups of scrap parcels respective composition information are determined in that the respective scrap parcel or the respective group of scrap parcels is irradiated by at least one neutron source, the gamma radiation emitted by the respective scrap parcel or the respective group of scrap parcels is recorded by at least one detector and based on the recorded gamma radiation, composition information about the composition of the respective scrap package or the respective group of scrap packages is determined. This allows for multiple scrap packages and / or groups of

Scrap parcels can be determined reliably and with relatively little effort, so that the scrap parcels or groups of scrap parcels can be checked, sorted or used more specifically for melting down. In the following, various embodiments for the methods described above are described, with the individual embodiments applying equally to both methods. Furthermore, the embodiments can be combined with one another.

In one embodiment, the group of scrap packages is provided as a loose stack or as a bundle of scrap packages, for example as a pallet with scrap packages. In particular, a stack or a bundle, e.g. a whole pallet with several scrap packages, can be positioned simultaneously in the area of the at least one neutron source and the at least one detector, so that composition information is obtained for the entire scrap in the stack or the bundle of scrap bundles.

In a further embodiment, a value for the weight of the scrap package or the group of scrap packages is determined, in particular measured. When analyzing several scrap packages and / or several groups of scrap packages, the respective weight of the scrap packages and / or the groups of scrap packages is preferably measured. The one or more measurements can be carried out, for example, by means of a belt scale. By measuring the weight, information about the absolute content of certain alloying elements in a scrap package or a group of scrap packages can be determined. This information allows a more targeted further use of the scrap packages. Therefore, the composition information is preferably also determined depending on the determined value for the weight.

In a further embodiment, the composition information includes a value for the content of at least one element, preferably values for the respective content of several elements. The elements can be classic alloy elements (e.g. Al, Fe, Si, Mg, Mn, Zn, etc. in the case of aluminum alloys) and / or also elements of typical impurities (e.g. C, F, CI in the case of aluminum alloys). The value for the salary can for example be as Percentage by weight (eg 1.5% by weight), in particular of the total weight of the scrap package or group of scrap packages, or also as weight (eg 15 kg) if the total weight of the scrap package or group of scrap packages has been determined.

The composition information can additionally or alternatively also contain one or more values of parameters that are based on the contents of one or more elements. In a further embodiment, the composition information is assigned to the scrap package or the group of scrap packages. For this purpose, the composition information can in particular be assigned to an identifier assigned to the scrap parcel or the group of scrap parcels. If several scrap packages and / or groups of scrap packages are analyzed one after the other in a sequence, the scrap packages and / or groups of

For example, scrap packages can be assigned a respective identifier depending on the sequence. The scrap packages and / or groups of scrap packages can also be assigned respective identifiers by means of attached labels.

In a further embodiment, the scrap package or the group of scrap packages is assigned to one of several predetermined classes as a function of the determined composition information and a predetermined assignment rule. In particular, respective content limits for one or more elements, in particular alloy elements, can be defined for the classes. The assignment rule can in particular include a comparison of the composition information determined with the salary limits defined for the classes. For example, a class for AA 5xxx alloy and a class for AA 6xxx alloys can be defined, the class for AA 5xxx alloys only being assigned to scrap packages whose composition information lies within the content limits defined for the AA 5xxx class. In a further embodiment, the scrap package or the group of scrap packages is sorted depending on the determined composition information. If a respective composition information is determined for several scrap packages and / or several groups of scrap packages, then the scrap packages and / or groups of scrap packages are preferably sorted depending on the respectively determined composition information. In this way, sorting is achieved depending on the overall composition of the scrap packages or groups of scrap packages.

In a further embodiment, several scrap packages and / or several groups of scrap packages are provided, the scrap packages and / or the groups of scrap packages are placed on a conveyor system and the scrap packages and / or the groups of scrap packages are conveyed one after the other with the conveyor system through a measuring device , in which the scrap packages and / or the groups of scrap packages are irradiated by at least one neutron source, the gamma radiation emitted by a respective one of the scrap packages or by a respective group of scrap packages being recorded by at least one detector and, based on the recorded gamma radiation, a composition information about the composition of the respective scrap package or the respective group of scrap packages is determined. In this way, many scrap packages or groups of scrap packages can be analyzed and / or sorted one after the other in a short time. The measuring device is set up in particular to analyze the scrap packages and / or groups of scrap packages in their entirety. For this purpose, the measuring device is in particular dimensioned correspondingly large. The conveyor system preferably comprises one or more belt conveyors. Each of the scrap packages includes in particular a respective amount of metal scrap, in particular aluminum scrap. The composition information about the composition of the respective scrap package or the respective group of scrap packages is preferably assigned to the respective scrap package or the respective group of scrap packages, for example on the basis of a corresponding order number of a sequence in which the scrap packages and / or groups of scrap packages are conveyed through the measuring device become.

The scrap stacks and / or the groups of scrap stacks can in particular be sorted depending on the respective determined and / or assigned composition information, for example by means of an automatic sorting device or by means of a crane or vehicle, for example a forklift. For example, several bunkers can be provided into which the scrap stacks and / or groups of scrap stacks are sorted depending on the respective determined and / or assigned composition information.

The scrap stacks and / or the groups of scrap stacks can in particular be placed on the conveyor system at a predetermined loading point, for example by means of a crane or vehicle, for example a forklift. The feed point is arranged in front of the measuring device in particular in the conveying direction.

After leaving the measuring device, the scrap stacks and / or the groups of scrap stacks can be removed from the conveyor system, for example by means of a crane or vehicle, for example a forklift. The take-off point is arranged in particular behind the measuring device in the conveying direction.

The area of the measuring device can be delimited, for example by a fence. In this way, people can protect against a possibly increased radiation exposure in the The area of the measuring device. In this case, the loading point and / or the receiving point are preferably arranged outside the boundary, in particular outside the fence. In this way, a safe loading or unloading of the scrap packages or groups of scrap packages is made possible.

The scrap stacks and / or the groups of scrap stacks are preferably weighed, for example by means of a belt scale on the conveyor system. The weight of a respective one of the scrap packages or of a respective one of the groups of scrap packages determined in this way can be assigned to the respective scrap package or the respective group of scrap packages. Additionally or alternatively, the scrap stacks and / or groups of scrap stacks can also be sorted depending on the weight determined in each case.

The above-mentioned object is also achieved according to the invention by a device for analyzing and / or sorting metal scrap, in particular aluminum scrap, with a conveyor system for conveying scrap packages, with a measuring device, the at least one neutron source for irradiating scrap packages conveyed on the conveyor system and at least one Detector for recording the gamma radiation emitted by the scrap packages by this neutron irradiation, and with a calculation device which is set up to determine composition information about the composition of one or more scrap packages conveyed on the conveyor system based on the gamma radiation recorded by the at least one detector.

The measuring device is set up in particular to analyze entire packages of scrap or groups of packages of scrap.

The device described above or one of the embodiments thereof described below is preferably used for the analysis and / or sorting of Metal scrap, in particular aluminum scrap, used, in particular in one of the methods described above or an embodiment thereof.

In one embodiment of the device, the conveyor system comprises one or more belt conveyors. In this way, the scrap packages can in particular be transported through the measuring device.

In a further embodiment, the device further comprises a weighing device, in particular a belt scale, for determining the weight of scrap packages. In this way, the weight of an analyzed scrap package or a group of scrap packages can be determined. The calculation device is preferably set up to determine the composition information also as a function of the value for the weight.

In a further embodiment, the device also has a sorting device which is set up to sort scrap packages based on the composition information determined for the respective scrap package.

In a further embodiment, the device also has a loading point for loading scrap packages onto the conveyor system and / or an acceptance point for removing the scrap packages from the conveyor system. In this way, the scrap stacks and / or groups of scrap stacks can be applied to or removed from the conveyor system as a whole, for example with a forklift.

In a further embodiment, the area of the measuring device is delimited, for example, by a fence. In this case, the loading point and / or the receiving point are preferably arranged outside the boundary, in particular outside the fence. The above-mentioned object is further achieved according to the invention by the use of the device described above or an embodiment thereof for the analysis and / or sorting of metal scrap, in particular aluminum scrap, the metal scrap to be analyzed and / or to be sorted preferably in the form of one or more scrap packages and / or one or more groups of scrap packages is present or provided.

Further advantages and features of the method and the device emerge from the following description of exemplary embodiments, reference being made to the accompanying drawings. Show in the drawing

1 shows a first embodiment of the method,

2 shows a further exemplary embodiment of the method and a

Embodiment of the device and

3 shows further exemplary embodiments of the method and the device.

Fig. 1 shows a first embodiment of the method. In the method, a quantity of metal scrap 2, in particular aluminum scrap, is provided in the form of a group 4 of scrap packages 6, specifically in the present example in the form of a group of scrap packages 6 stacked on a pallet 8.

The pallet 8 with the stacked scrap packages 6 is arranged in its entirety with a forklift truck 10 in a measuring device 12 for prompt gamma neutron activation analysis (PGNAA). For this purpose, the measuring device 12 has a receptacle 14, the size of which is dimensioned such that the pallet 8 with the scrap packages 6 can be arranged in this receptacle 14. The forklift truck 10 preferably has a weighing device with which the weight of the scrap packages 6 stacked on the pallet 8 can be determined.

Instead of arranging the pallet 8 with the forklift 10 directly in the measuring device 12, the pallet 8 with the stacked scrap packages 6 can also be placed in its entirety on a carriage with a forklift 10, which is then automatically transferred to the measuring device 12 for prompt gamma neutrons -Activation Analysis (PGNAA) drives. In this way, people can be protected from a possibly increased radiation exposure in the area of the measuring device 12.

The PGNAA technique is known in principle and therefore does not need to be explained in detail at this point. In this context, reference is made, for example, to EP 3 393 687 Bl. Likewise, measuring devices for prompt gamma neutron activation analysis are known in principle, so that they also do not have to be explained in detail at this point.

The measuring device 12 has a neutron source so that the group 4 of scrap packages 6 arranged in the receptacle of the measuring device 12 is irradiated with neutrons. The gamma radiation emitted by the group 4 of scrap packages 6 is recorded by at least one detector of the measuring device 12.

The gamma radiation recorded by the at least one detector of the measuring device 12 is analyzed by a computing device 16, which can also be designed as part of the measuring device 12. The measuring device 12 then calculates, based on the recorded gamma radiation, composition information about the composition of group 4 of scrap packages 6. In particular, the measuring device can determine the contents of certain alloying elements, such as Al, Si, Fe, Zn, Cu, Mg, Mn etc., determine. Since the entire group 4 of scrap packages 6 was completely analyzed with the measuring device 12, the composition information determined in this way is very reliable for the overall composition of the group 4 of scrap packages 6, so that the group 4 can continue to be used in a targeted manner.

Fig. 2 shows a further embodiment of the method and an embodiment of the device.

The device 20 has a conveyor system 22 with several conveyor belts 24 with which the scrap packages 6 can be transported from a loading point 26 through a measuring device 28 for prompt gamma neutron activation analysis to an acceptance point 30. The measuring device 28 has a neutron source for irradiating the scrap packages 6 conveyed on the conveyor system 22 and at least one detector for recording the gamma radiation emitted by the scrap packages 6 as a result of this neutron radiation. The area of the measuring device 28 can be delimited, for example, by a fence 32 in order to protect people from a possibly increased radiation exposure in the area of the measuring device 28. The measuring device 28 is set up in such a way that scrap packages can be analyzed in their entirety.

The device 20 also has a calculation device 34 which is set up to determine a respective composition information about the composition of the scrap packages 6 conveyed on the conveyor system 22 based on the gamma radiation recorded by the at least one detector of the measuring device 28. The respective composition information is then preferably assigned to the respective scrap packages 6, so that the scrap packages 6 can be further processed, for example sorted and / or melted down, depending on the respectively assigned composition information. In order to assign the composition information to the individual scrap stacks 6, the scrap stacks can in particular be assigned identifiers, for example in accordance with the order in which they are transported on the conveyor system 22. The composition information can then simply be assigned to the respective identifiers of the scrap packages 6.

The device 20 also preferably has a weighing device 36, in particular in the form of a belt scale, with which the weight of the individual scrap packages 6 can be determined. The calculation device 34 can be set up to determine the composition information also as a function of the weight of the respective scrap package determined with the weighing device 36. In this way, instead of or in addition to specifying the content in% by weight, it is also possible, for example, to determine the total weight for an alloying element in a scrap package.

3 shows further exemplary embodiments of the method and the device.

The device 40 comprises the device 20 from Fig. 2 and additionally a number of bunkers 42a-d for four predetermined classes, each with defined content limits for certain alloy elements (e.g. bunker 42a for AA6xxx-

Salary limits, Bunker 42b for AASxxx salary limits, Bunker 42c for mixtures of AA6xxx and AA5xxx, Bunker 42d for AASxxx salary limits).

As described in relation to FIG. 2, the individual scrap packages 6 are assigned respective composition information. Depending on the respective

Composition information and a predefined assignment rule, the scrap packages 6 are assigned to one of the four predefined classes and can then be sorted accordingly, in particular by means of a sorting device 44, into the corresponding bunkers 42a-d. The sorting takes place in FIG. 3 by way of example with a forklift truck 10. Instead, an automatic sorting device can also be provided.

Claims

Patent claims

1. A method for analyzing and / or sorting metal scrap, in particular aluminum scrap, in particular carried out with a device according to one of claims 10 to 14, in which a quantity of metal scrap, in particular aluminum scrap, in the form of a scrap package (6) or a group (4) is provided by scrap packages (6),

- in which the scrap package (6) or the group (4) of scrap packages (6) is irradiated by at least one neutron source, in which the gamma radiation emitted by the scrap package (6) or from the group (4) of scrap packages (6) of at least one detector is recorded and in which, based on the gamma radiation recorded by the at least one detector, composition information about the composition of the scrap package (6) or the group (4) of scrap packages (6) is determined.

2. The method according to claim 1, characterized in that the group (4) of scrap stacks (6) is provided as a loose stack or as a bundle of scrap stacks (6).

3. The method according to claim 1 or 2, characterized in that a value for the weight of the scrap package (6) or the group (4) of scrap packages (6) is determined, in particular measured.

4. The method according to any one of claims 1 to 3, characterized in that the composition information comprises a value for the content of at least one element, preferably values for the respective content of several elements.

5. The method according to any one of claims 1 to 4, characterized in that the composition information is assigned to the scrap package (6) or the group (4) of scrap packages (6).

6. The method according to any one of claims 1 to 5, characterized in that the scrap package (6) or the group (4) of scrap packages (6) is assigned to one of several predetermined classes depending on the specific composition information and a predetermined assignment rule.

7. The method according to any one of claims 1 to 6, characterized in that the scrap package (6) or the group (4) of scrap packages (6) is sorted depending on the determined composition information.

8. A method for analyzing and / or sorting metal scrap, in particular aluminum scrap, in particular according to one of claims 1 to 7, in particular carried out with a device according to one of claims 10 to 14, in which several packages of scrap (6) and / or several groups ( 4) are provided by scrap packages (6), in which for the scrap packages (6) and / or the groups (4) of scrap packages (6) respective composition information is determined by the respective scrap package (6) or the respective group (4) of scrap packages (6) is irradiated by at least one neutron source, the gamma radiation emitted by the respective scrap package (6) or the respective group (4) of scrap packages (6) is recorded by at least one detector and, based on the recorded gamma radiation, compositional information about the composition of the respective scrap package ( 6) or the respective group (4) of scrap packages (6) is determined.

9. The method according to any one of claims 1 to 8, in which several scrap packages (6) and / or several groups (4) of scrap packages (6) are provided, in which the scrap packages (6) and / or the groups (4) of Scrap stacks (6) are placed on a conveyor system (22) and in which the scrap stacks (6) and / or the groups (4) of scrap stacks (6) are conveyed one after the other through a measuring device (12, 28) with the conveyor system (22) are, in which the scrap packages (6) and / or the groups (4) of scrap packages (6) are irradiated by at least one neutron source, the of a respective one of the scrap packages (6) or of a respective group (4) of scrap packages ( 6) emitted gamma radiation is recorded by at least one detector and, based on the recorded gamma radiation, composition information about the composition of the respective scrap package (6) or the respective group (4) of scrap packages (6) is determined.

10. Device (20, 40) for the analysis and / or sorting of metal scrap, in particular aluminum scrap, with a conveyor system (22) for conveying scrap packages (6), with a measuring device (12, 28), the at least one neutron source for irradiating has scrap packages (6) conveyed on the conveyor system (22) and at least one detector for recording the gamma radiation emitted by the scrap packages (6) as a result of this neutron radiation, and with a calculation device (16, 34) which is set up to determine composition information about the composition of one or more scrap packages (6) conveyed on the conveyor system (22) based on the gamma radiation recorded by the at least one detector.

11. The device according to claim 10, characterized in that the conveyor system (22) comprises one or more belt conveyors (24).

12. The device according to claim 10 or 11, further comprising a weighing device (36), in particular a belt scale, for determining the weight of scrap packages (6).

13. Device according to one of claims 10 to 12, further comprising a sorting device (44) set up for sorting scrap packages (6) based on the composition information determined for the respective scrap package (6).

14. Device according to one of claims 10 to 13, further comprising a feeding point (26) for feeding scrap packages (6) onto the conveyor system (22) and / or a removal point (30) for removing the scrap packages (6) from the conveyor system ( 22).

15. Use of the device according to one of claims 10 to 14 for the analysis and / or sorting of metal scrap, in particular aluminum scrap.