Why We’re Hunting for Treasure – in Old Landfill Sites

Landfills, quite literally, are untapped gold mines.

Humans are generally getting better at dealing with their mess. In the United Kingdom, for instance, 45 percent of household waste is now recycled – yet that still means more than 12 million tons are buried in the ground every year.

Burying that rubbish isn’t cheap, and neither is keeping it in the ground once it’s there. Old landfill sites are covered with grass and turned into innocuous-looking hills filled with waste, and even they have to be monitored to make sure they aren’t contaminating the local environment.

For instance, as material decomposes, greenhouse gases such as methane are emitted. If there isn’t enough methane to make it economically viable to capture (and there usually isn’t), it often needs to be burned off for conversion to carbon dioxide, a less potent greenhouse gas.

There are also concerns that thousands of older sites, often built on flood plains or near the seashore, may be at risk from flooding or coastal erosion.

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Recovery of materials from landfills could offer a cleaner solution to feed our need for smart technology.

So what should be done about these old landfill sites? One answer may be to dig them up again.

Valuable waste

Old landfills do have valuable waste, the most obvious being processed metals, glass and electronics. Indeed, junk electronic goods such as old TVs or computers typically have higher concentrations of gold and rare earth elements per ton than are found naturally in ore.

A 2014 United Nations University report stated that each year more than 300 tons of processed gold are dumped in landfills – that’s 10 percent of the total amount mined worldwide. Belgium, for example, is already mining its old landfills by extracting waste and filtering for metals and recyclable material.

Digging up old landfills could well have a much lower environmental impact than mining in fresh rocks. For example, toxic chemicals like mercury and cyanide are used to find and isolate gold in regular mines. Recovery of materials from landfills could offer a much cleaner solution to feed our need for smart technology, energy storage and electric vehicles.

Digging into the past

To demonstrate what all this would involve in practice, we took part in a BBC Four documentary that chronicled the history of rubbish and explored what we have thrown away and how this has changed over time.

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Three hundred tons of processed gold are dumped each year in landfills – that’s 10 percent of the total amount mined worldwide.

Part of this work looked at a municipal landfill in England’s Midlands that closed in the 1980s – it’s now a big grassy knoll. We identified its age when we dug into it and found dated newspapers. The site has a methane flare burning 24 hours a day, which requires periodic maintenance, and the local council will have to keep monitoring developments for the foreseeable future.

To locate potentially recoverable and valuable metals, we surveyed a section of the landfill using near-surface geophysics, looking for “hot spots” of high conductivity and magnetism, which is where concentrations of discarded metal is buried. Once we found where to look, we dug five meters.

We found large amounts of processed metals, recyclable glass, discarded household artifacts, yellow pages, much of which we recycle now, as well as black plastic bin bags.

Interestingly, we only found a few electronic items. This is in contrast to today’s landfills, which are full of mobile phones and gadgets and largely avoidable e-waste.

Untapped gold mines

We know that landfills are, quite literally, untapped gold mines. With growing demand, coupled with scarcity of materials, including rare earth elements, these sites are a valuable future national resource for much more than just metal.

Waste companies have even recently suggested designing new landfills to capture energy and deal with problematic waste streams such as plastics.

For instance, heat from decomposing rubbish or burning waste could be trapped and turned into geothermal power, providing a “rubbish solution” to our energy problems too.

This article first appeared on The Conversation and was republished with permission.

Jamie Pringle is a senior lecturer in Engineering and Environmental Geosciences at Keele University.

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Sharon George is a lecturer in Environmental Science at Keele University.

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