Unveiled at Aluminum USA 2019, a new machine with enhanced X-ray technology which detects and sorts metal grains half the size of what was previously possible.
Tomra Sorting Recycling has launched a new machine, the X-TRACT X6 FINES, for the high-purity sorting of mixed non-ferrous metal fractions at Aluminum USA, the biannual industry event staged at the Music City Center convention center in Nashville, Tennessee.
The X-TRACT X6 Fines can detect and sort grains of metal of almost half the size of what was previously sortable.
This capability has been achieved by developing TOMRA’s exclusive and field-proven high-speed X-ray transmission (XRT) technology, which sorts materials according to differences in their density. This works by penetrating the materials passing down the sorting line with broad-band radiation, obtaining spectral absorption information about the materials and measuring this with an X-ray camera. This process identifies the atomic density of the materials regardless of their thickness.
Increasing the sensitivity of the high-resolution X-ray camera has made it possible to detect and sort grain sizes as small as 5-40mm, thus measurably reducing product losses. Extensive validation runs of the X-TRACT X6 FINES in high-throughput applications demonstrated the machine’s ability to consistently attain unrivalled purity levels of 98-99%.
Like X-TRACT, X-TRACT X6 Fines is equipped with Tomra’s Duoline Dual Energy Technology. This employs two independent devices with different spectral sensitivities, so that materials are sorted regardless of the material’s thickness. By detecting and prioritizing between single object processing and area processing, Duoline recognizes differences in objects overlapping on the sorting line, a significant advantage when lines are running higher throughputs.
Another useful advantage is the provision of multi-density channels. Whereas previous X-TRACT models sorted materials according to two classes, separating it into high-density and low-density fractions, the new X-TRACT features multiple density channels. This allows a greater number of classes for separating materials according to density, achieving greater sorting precision even with mixed metals and small grain sizes.