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Home NEWS Science News Chemistry

Electronic waste on the decline, new study finds

Bioengineer by Bioengineer
December 2, 2020
in Chemistry
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Older, bulkier electronics are disappearing from the waste stream, with ramifications for the future of e-waste recycling.

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Credit: Yale School of the Environment

A new study, led by a researcher at the Yale School of the Environment’s Center for Industrial Ecology and published recently in the Journal of Industrial Ecology, has found that the total mass of electronic waste generated by Americans has been declining since 2015. In an age when most of us can’t imagine life without our digital devices, this surprising finding has ramifications for both how we think about electronic waste’s future and for the laws and regulations regarding e-waste recycling, according to the study’s authors.

The biggest contributor to this decline is the disappearance of the large, bulky cathode-ray tube (CRT) televisions and computer monitors from American homes, says Callie Babbitt, a professor at Rochester Institute of Technology’s Golisano Institute for Sustainability and one of the study’s authors. Since about 2011, CRT displays have been on the decline in the waste stream, helping to lead the overall decline in total e-waste mass.

This decline in bulkier displays means that e-waste regulations may have to be rethought, says Babbitt. “If you look at the state laws that exist in many places for e-waste recycling, many of them set their targets based on product mass,” she says. As the overall mass of e-waste declines, meeting those targets becomes more difficult. Moreover, says Babbitt, the main goal of these regulations had been to keep electronics with high levels of lead and mercury out of landfills, where they can eventually leach into the surrounding environment. But these days, a more pertinent concern is how to recover elements like cobalt (used in lithium-ion batteries) or indium (found in flat-panel displays). These elements aren’t as environmentally toxic; rather, they are relatively scarce in the Earth’s crust, so failing to recapture them for reuse in new electronics is wasteful. “The e-waste recycling system is somewhat backwards-looking,” says Babbitt; it has struggled to keep pace with the changing nature of electronics.

Shahana Althaf, the lead author on the study and a postdoctoral associate at the Yale Center for Industrial Ecology, notes that a shift in e-waste recycling to capture more of these critical elements could also help the United States secure its supply of the ingredients required for manufacturing electronic devices. Geopolitical uncertainties can pose threats to what Althaf terms “mineral security” for the U.S. “People are slowly realizing… the need to ensure domestic supply,” she says. Rather than mining the ore from the Earth’s crust, capturing the elements from electronic waste could instead provide these crucial elements. In addition to mineral security, this would reduce the environmental destruction that traditional mining often entails.

The sheer number of electronic devices entering the waste stream is also leveling off or slightly declining, Babbitt and Althaf say. This is due to something that Babbitt terms “convergence”: gaming consoles, for example, can act as DVD players; smartphones are also cameras and video recorders. In the past, says Babbitt, people needed separate devices for each of those applications.

To amass the data necessary for their study, the authors used material flow analysis, a technique for quantifying the resources going into or out of a system. They focused on twenty categories of digital devices — including computers, smartphones, digital cameras, and audio-visual equipment — and disassembled dozens of products in a lab in order to determine the relative content of various important elements, in addition to relying on previously published data.

“This is a very important finding that cuts against the widely held idea that electronic waste is the ‘fastest growing waste stream,” says Reid Lifset, the editor-in-chief of the Yale-based Journal of Industrial Ecology. “It shifts our understanding of the problem with e-waste,” he says.

In the United States, e-waste recycling is regulated at the state level, and only half the states have e-waste recycling laws. That leads to a patchwork of regulations which makes it harder for companies to navigate if they wanted to make their products easier to recycle, says Babbitt. A more holistic, federal approach could help increase the overall capture of rare elements. Ultimately, we should “see waste as a resource,” says Althaf: an opportunity, rather than a problem.

###

Media Contact
Paige Stein
[email protected]

Original Source

https://environment.yale.edu/news/article/electronic-waste-on-the-decline-new-study-finds/

Related Journal Article

http://dx.doi.org/10.1111/jiec.13074

Tags: Computer ScienceEcology/EnvironmentElectrical Engineering/ElectronicsIndustrial Engineering/ChemistryMaterialsPolitical ScienceTechnology/Engineering/Computer Science
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