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Golden opportunity: creating a circular economy for mobile phones

A new study has found that around 50% of gold used mobile phones is not recovered for future use. But by improving the recycling of precious metals, increasing the lifespan of handsets and getting better at collecting phones after use, a global circular economy could be created. Researchers say these changes will reduce pressures on non-renewable resources and close ‘metal flow loops’

An ever-increasing amount of waste electrical and electronic equipment (WEEE or e-waste) is discarded by consumers around the world. Mobile phones make up a substantial amount of that waste, driven by consumer demand for the latest technological innovations and products that are designed to have a limited lifespan.

Mobile phones, like other electronic equipment, contain valuable and non-renewable resources including gold, copper, silver and palladium. In a circular economy, the aim is to reduce waste to a minimum and keep precious resources within a loop, that is, to keep them available for repeated reuse.

Ways to keep materials in the loop include reusing, repairing, refurbishing and recycling products when they reach their end-of-life. Developing a circular economy is central to the EU’s plan for sustainable consumption and production and the basis of the EU Action Plan for the Circular Economy.

In the study, partly funded by the European Commission 1, researchers from the Royal Institute of Technology in Stockholm modelled the stocks and flows of gold – representing a phone’s valuable metal content – in the world’s mobiles to assess how to reduce losses of gold from the loop and help contribute to a circular economy. Gold comprises around 80% of the economic worth of valuable metals in mobile phones and its recovery is the main economic driver for recycling phones.

For both industrialised and developing countries, the researchers calculated the cradle-to-grave flow of gold from raw material extraction through to end-of-life disposal, including reuse, refurbishment, remanufacture, recycling and waste treatment of phones. Using data from other studies, the researchers used the model to develop a base case (business-as-usual in 2013) to identify where gold was ‘leaking’ from the system.

They identified the potential drivers of this leakage using two indicators: loop leakage, which defines how much gold is leaving the system, indicating how closed the loop is; and loop efficiency, which determines how efficiently gold is used by the system.

They identified the four most influential drivers of an efficient closed-loop system as: (i) enhancing the collection system of used phones; (ii) increasing the lifespan of mobile phone use; (iii) improving informal gold recovery in developing countries; and (iv) reducing phone hibernation (storage of phones without any use).

Closing the loop

Other factors, such as the manufacturing cost, export cost, the functional use of refurbished phones compared with new phones and the price of metals, had surprisingly little influence on closing the loop or loop efficiency.

Based on these results, the researchers identified ways to close the loop and decrease the pressures on gold resources. They modelled how the loop leakage could be minimised and the loop efficiency of the system maximised over the period 1994 to 2050.

They found that the current (business-as-usual) case is unsustainable, with around a 50% leakage of gold, rising to 80% by 2050, and a resource efficiency of only around 35% – dropping to 16% by 2050.

To reduce resource demand and increase resource recoveries, the researchers suggest improving the collection of used phones. This may be achieved by requiring phone producers to include the lifecycle environmental costs and associated end-of-life management costs in their market costs by using, for example, extended producer responsibility (EPR) schemes, which are an essential part of the EU’s ambition to create a circular economy. EPR

requirements may also encourage phone producers to design phones that have a longer lifespan and which are easier to recycle.

Product service systems, which combine the production of phones with servicing of phones for consumers, can also create circular growth by increasing the reuse, refurbishing and recycling of used phones. The researchers also suggest that phones could be leased and markets could be created or encouraged for refurbished and second-hand phones.

Photo by preetamrai

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