This stands for Reduce, Reuse, Recycle.
Published in Chapter:
A Study of the Printed Circuit Board (PCB) E-Waste Recycling Process
S Selvakumar (Aarupadi Veedu Institute of Technology, Vinayaka Mission Research Foundation, India),
Sarma Adithe (BVC Institute of Technology and Science, India),
J. Samson Isaac (Karunya Institute of Technology and Sciences, India),
Raghuram Pradhan (PACE Institute of Technology and Sciences, India),
V. Venkatesh (Rajalakshmi Engineering College, India), and Sampath B. (Mythayammal Engineering College (Autonomous), India)
Copyright: © 2023
|Pages: 26
DOI: 10.4018/978-1-6684-7573-7.ch009
Abstract
One of the waste sources that is growing the quickest globally is electronic garbage. Metal deoxidation and the loss of carbon in the gaseous fraction were inhibited by inert atmospheres. The composition, hazardous and toxic components of various e-wastes are explained. The concentration of precious metals in printed circuit boards (PCBs) makes them a significant source of metals. The metallic phases were discovered to include notable concentrations of Ag, Au, Pd, and Pt. In very small amounts, precious metals were found in the carbons and oxides of non-metallic fraction. Copper-based alloys and carbon resources were successfully recovered through high-temperature pyrolysis. Additionally, this method reduced the amount of material that needed to be managed and processed further. Recycling e-waste should improve metal recovery, preserve natural resources, and offer a solution that is environmentally sustainable.