Plug-and-play for Higher Purity
November 25, 2019 | TA-POEstimated reading time: 3 minutes
Separating transformers, electric motors, but also small fractions of copper wire from ferrous scrap streams is a piece of cake for the TA-PO 1000, a solution developed by Dutchman Roberto van den Kieboom.
TA-PO is a relatively young recycling technology firm from the Netherlands that designs and fabricates lines to separate magnetic material from partially magnetic material. Company founder and CEO Roberto Van den Kieboom is on a mission. ‘Asia’s scrap import restrictions have made clear there is no future for mixed materials,’ he says. ‘Our solutions help recyclers reach the higher purity and quality required by the smelters.’ Other advantages include multiple shredding and the end of any sorting by hand.
The TA-PO 1000 is a complete plug-and-play line that can be used to separate current electronic scrap flows from 0 to 130 mm in a clean iron fraction with less than 0.3% copper. This fraction after separation is approximately 80% of the total input of the TA-PO 1000 separator, the remaining 20% consists of transformers, electric motors, small copper wire, printed circuit boards and more.
Tiny copper fractions
Van den Kieboom: ‘These e-scrap fractions are often cleaned as much as possible by hand sorting. However, it appears that the ferrous metal usually contains more than 0.3% copper, which is a shame because it cannot be used as a high-quality raw material. And the copper is in the iron fraction for which ultimately is not paid for.’
Another thing, says the entrepreneur, it’s impossible to separate small copper wire by hand. ‘But by using the TA-PO 1000, even the smallest pieces of wire automatically end up with the transformers and electric motors.’
The TA-PO saves labour costs. Separating eight tonnes of e-scrap fraction by hand requires four human sorters. The TA-PO 1000 separator can be used 24/7 with an up-time of 99%.
Powerful magnetics
The TA-PO 1000 features a specially developed magnet which separates 100% magnetic parts (clean iron) from partly magnetic parts (transformers, electric motors, printed circuit boards, etc.) at a high speed via a vibrating feeder, chute and conveyor belt through amagnetic field.
Asked for the machine’s capacity, Van den Kieboom says: ‘It all depends on the scrap input, size of the fractions and the settings of the technology. On average, it is 10 to 30 tonnes per hour. But we are currently working on a unit capable of processing up to 70 tonnes per hour.’
Easy to maintain
Bulk weight, fraction size and required settings determine the capacity of the TA-PO 1000. Smart design means maintenance is carried out quickly. Challenging parts such as side guide caps and the sliding channel can be opened automatically via a touchscreen, conveniently as well as safely because the machine can no longer be started at these times.
Remote service
All TA-PO 1000 separation machines are equipped as standard with a modem so that support can always be provided remotely. Adjustments can also be carried out by the operator’s own staff after a brief explanation. When acorrect separation result has been achieved, this adjustment can easily be saved as standard and quickly recalled. The TA-PO 1000 can either be used as stand-alone unit or directly in line behind the shredder and existing magnet system.
Ready to use… indoors or outdoors
The TA-PO 1000 has a 15 metre cable and a 380 volt / 32 amp plug, so it canbe used everywhere without having to make special provisions in advance. The entire TA-PO 1000 separation machine is almost 11 metres long, 1.65 metres wide and 3.4 metres high with a total weight of less than seven tonnes.
According to Van den Kieboom, indoor installation is preferable but the TA-PO 1000 also performs well under extreme climate conditions: ‘Even at minus 10 Celsius, but also at plus 45 Celsius.’ Partly thanks to its galvanised and double-layer powder-coated base frame, a long service life is guaranteed.
Suggested Items
Designer’s Notebook: What Designers Need to Know About Manufacturing, Part 2
04/24/2024 | Vern Solberg -- Column: Designer's NotebookThe printed circuit board (PCB) is the primary base element for providing the interconnect platform for mounting and electrically joining electronic components. When assessing PCB design complexity, first consider the component area and board area ratio. If the surface area for the component interface is restricted, it may justify adopting multilayer or multilayer sequential buildup (SBU) PCB fabrication to enable a more efficient sub-surface circuit interconnect.
Insulectro’s 'Storekeepers' Extend Their Welcome to Technology Village at IPC APEX EXPO
04/03/2024 | InsulectroInsulectro, the largest distributor of materials for use in the manufacture of PCBs and printed electronics, welcomes attendees to its TECHNOLOGY VILLAGE during this year’s IPC APEX EXPO at the Anaheim Convention Center, April 9-11, 2024.
ENNOVI Introduces a New Flexible Circuit Production Process for Low Voltage Connectivity in EV Battery Cell Contacting Systems
04/03/2024 | PRNewswireENNOVI, a mobility electrification solutions partner, introduces a more advanced and sustainable way of producing flexible circuits for low voltage signals in electric vehicle (EV) battery cell contacting systems.
Heavy Copper PCBs: Bridging the Gap Between Design and Fabrication, Part 1
04/01/2024 | Yash Sutariya, Saturn Electronics ServicesThey call me Sparky. This is due to my talent for getting shocked by a variety of voltages and because I cannot seem to keep my hands out of power control cabinets. While I do not have the time to throw the knife switch to the off position, that doesn’t stop me from sticking screwdrivers into the fuse boxes. In all honesty, I’m lucky to be alive. Fortunately, I also have a talent for building high-voltage heavy copper circuit boards. Since this is where I spend most of my time, I can guide you through some potential design for manufacturability (DFM) hazards you may encounter with heavy copper design.
Trouble in Your Tank: Supporting IC Substrates and Advanced Packaging, Part 5
03/19/2024 | Michael Carano -- Column: Trouble in Your TankDirect metallization systems based on conductive graphite or carbon dispersion are quickly gaining acceptance worldwide. Indeed, the environmental and productivity gains one can achieve with these processes are outstanding. In today’s highly competitive and litigious environment, direct metallization reduces costs associated with compliance, waste treatment, and legal issues related to chemical exposure. What makes these processes leaders in the direct metallization space?