Abstract
The technological growth of the last decades has brought many improvements in daily life, but also concerns on how to deal with electronic waste. Electrical and electronic equipment waste is the fastest-growing rate in the industrialized world. One of the elements of electronic equipment is the printed circuit board (PCB) and almost every electronic equipment has a PCB inside it. While waste PCB (WPCB) recycling may result in the recovery of potentially precious materials and the reuse of some components, it is a challenging task because its composition diversity requires a cautious pre-processing stage to achieve optimal recycling outcomes. Our research focused on proposing a method to evaluate the economic feasibility of recycling integrated circuits (ICs) from WPCB. The proposed method can help decide whether to dismantle a separate WPCB before the physical or mechanical recycling process and consists of estimating the IC area from a WPCB, calculating the IC’s weight using surface density, and estimating how much metal can be recovered by recycling those ICs. To estimate the IC area in a WPCB, we used a state-of-the-art object detection deep learning model (YOLO) and the PCB DSLR image dataset to detect the WPCB’s ICs. Regarding IC detection, the best result was obtained with the partitioned analysis of each image through a sliding window, thus creating new images of smaller dimensions, reaching 86.77% mAP. As a final result, we estimate that the Deep PCB Dataset has a total of 1079.18 g of ICs, from which it would be possible to recover at least 909.94 g of metals and silicon elements from all WPCBs’ ICs. Since there is a high variability in the compositions of WPCBs, it is possible to calculate the gross income for each WPCB and use it as a decision criterion for the type of pre-processing.
Highlights
Waste electrical and electronic equipment (WEEE) management is a concern in many countries [1] since electrical and electronic equipment production has increased while the average lifetime of these products has decreased [2]
Since integrated circuits (ICs) are a significant source of highly valuable metals, we propose the waste PCB (WPCB)
It is possible to note that the Dataset had some mm for each WPCB image
Summary
Waste electrical and electronic equipment (WEEE) management is a concern in many countries [1] since electrical and electronic equipment production has increased while the average lifetime of these products has decreased [2]. WEEE has the fastest growth rate in the industrialized world [3] This concern has led to the development of legislation and directives to manage this sort of waste, for example, the European Directive for WEEE and the Brazilian Policy of Solid Waste (BPSW) [4]. Recycling waste printed circuit boards (WPCBs) can recover valuable materials (metallic and nonmetallic), besides the possibility of the reuse of some components [5]. A PCB comprises about 30% metallic components Some of these are high-value metals like gold, silver, and copper. Even though these high-value materials are less than 1% of the PBC weight, it can represent 80% to 88% of the PCB recycling value [9,15]. Li et al [7] estimated that 1 ton of WPCBs contained approximately 284 g of gold
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