urban mining
Urban [[mining]].
When we talk about urban mining, we're talking about mining what we have already made and brought into an urban context,β explains Jessika Richter, a researcher at Lund University, Sweden. βWe can mine many of these same materials out of our products, so not all of them end up in landfill.β
βWhat enables urban mining is well-sorted [[waste streams]],β continues Richter. βWe should sort our streams at collection, as the more it is separated when we get it back, the lower the cost. Same with [[landfill]] β the more sorted the landfill, the easier it is to mine.β
Elements found in e-waste, such as gold, silver, platinum, indium and gallium, are not only expensive but essential for greener future technology, including [[wind turbines]], [[solar panels]] and [[electric cars]]. If they end up in landfill, these materials can be highly hazardous, poisoning land and waterways. In 2019, a record 53.6 million metric tonnes of electronic waste was generated worldwide.
While traditional mining for raw materials tends to be energy and capital intensive, urban mining is labour intensive.
βThe cooperative movement in countries such as Colombia, Brazil, Argentina and elsewhere may be a source of inspiration for policymakers to turn to for lessons on how to improve urban mining,β Dias continues. βSupport for organising, social protection and the design of inclusive urban policies is key to prevent exploitation of waste pickers.β
Can those places be turned into sites of beauty and value, can the community have governance over those processes, as opposed to just a company coming in yet again?β
[[Self-governance]] is a part of it then.
- public document at doc.anagora.org/urban-mining
- video call at meet.jit.si/urban-mining
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