There is more to electronic e-waste than carelessly discarded batteries. The terminology includes all digital devices and appliances with the potential to be tossed into a landfill, including kitchen microwave ovens as well as old computers. The problem is growing, and not limited to wealthier consumer-oriented countries. Recycling and re-using Austin e-waste both responsibly and profitably is a common goal for many Texas municipalities.
Discarded electronics are more common today because basic economic conditions have improved enough worldwide to allow people to buy and use them. Because the devices are constantly being improved, there is virtually no emphasis on extending the life of older models. The highly-publicized toxic materials they contain grab sensational headlines, but are only one facet of the overall issue.
Inside each unit a variety of precious metals exists. Even though the original computer cathode ray display monitors are gone, any device containing a printed circuit board still contains a very small but financially significant amount of gold, silver, platinum, and palladium. Metals with more exotic names such as indium and gallium also play an important part in new technologies, and have a measurable value when extracted.
Although melting down unused cell phones to extract valuable metals does not make sense individually, in large quantities the process produces more refined metal than the original ore that bore it. Costly and comparatively rare elements are only a fraction of the metals used during manufacturing a mobile phone, which also contains copper and tin. The plastics used to create housings can also be partially reused.
The key to successful recycling is profitability. It can be performed on smaller scales by individuals, but the most efficient operations employ numbers of people. Most centers begin by separating individual components manually, removing both processors and microchips from the original housing. The remaining fragments are then run through a specialized chipper that shreds them and makes more intense separation possible.
After being processed to complete the extraction, the purified products are then sold back to manufacturers. The industrialists benefit from this more direct method of mining, and consumers also see personal benefits in the form of a somewhat lower pricing structure. Disposal of outdated equipment in a responsible matter is incredibly important, but is only part of the overall view.
As the amount of this discarded material increases, efforts to promote recycling have been scaled up, but the amount of waste alone still poses health hazards. The effects have been widely documented, and include both mercury and lead poisoning. Children exposed over time to these toxins often have developmental issues, and adults may suffer brain issues or respiratory problems.
The total amount of used electronic parts worldwide is very difficult to calculate or track using current methods. The problem was created in part by economic realities, and can be solved by using the same motivations. While it is important to remind populations about the physical health hazards of non-recycling, the best long-term solution is the continued development of industries that thrive on processing e-waste.
Discarded electronics are more common today because basic economic conditions have improved enough worldwide to allow people to buy and use them. Because the devices are constantly being improved, there is virtually no emphasis on extending the life of older models. The highly-publicized toxic materials they contain grab sensational headlines, but are only one facet of the overall issue.
Inside each unit a variety of precious metals exists. Even though the original computer cathode ray display monitors are gone, any device containing a printed circuit board still contains a very small but financially significant amount of gold, silver, platinum, and palladium. Metals with more exotic names such as indium and gallium also play an important part in new technologies, and have a measurable value when extracted.
Although melting down unused cell phones to extract valuable metals does not make sense individually, in large quantities the process produces more refined metal than the original ore that bore it. Costly and comparatively rare elements are only a fraction of the metals used during manufacturing a mobile phone, which also contains copper and tin. The plastics used to create housings can also be partially reused.
The key to successful recycling is profitability. It can be performed on smaller scales by individuals, but the most efficient operations employ numbers of people. Most centers begin by separating individual components manually, removing both processors and microchips from the original housing. The remaining fragments are then run through a specialized chipper that shreds them and makes more intense separation possible.
After being processed to complete the extraction, the purified products are then sold back to manufacturers. The industrialists benefit from this more direct method of mining, and consumers also see personal benefits in the form of a somewhat lower pricing structure. Disposal of outdated equipment in a responsible matter is incredibly important, but is only part of the overall view.
As the amount of this discarded material increases, efforts to promote recycling have been scaled up, but the amount of waste alone still poses health hazards. The effects have been widely documented, and include both mercury and lead poisoning. Children exposed over time to these toxins often have developmental issues, and adults may suffer brain issues or respiratory problems.
The total amount of used electronic parts worldwide is very difficult to calculate or track using current methods. The problem was created in part by economic realities, and can be solved by using the same motivations. While it is important to remind populations about the physical health hazards of non-recycling, the best long-term solution is the continued development of industries that thrive on processing e-waste.
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