Janmuary 05, 2024
By Frank Landymore
SCIENTISTS DRILLING INTO MAGMA CHAMBER FOR POTENTIALLY UNLIMITED
ENERGY
"IT'S THE FIRST JOURNEY TO THE CENTER OF THE EARTH."
Boring
Science
The future of geology — and maybe even renewable energy — is heating
up, literally.
Scientists in Iceland are steaming ahead with an ambitious project to
drill straight down into a magma chamber that could provide not only
the first direct look at the oceans of molten rock stewing miles
beneath the Earth's surface, but a revolution in geothermal energy
that could potentially see the technology be used anywhere on the
globe with never before achieved efficiency.
"It's the first journey to the center of the Earth," Björn Ţór
Guđmundsson at the Geothermal Research Cluster (GEORG) in Reykjavík told New
Scientist, which characterized the potential payoff as
"unlimited energy."
Mired by Magma
For how essential magma is to our understanding of the Earth's
geology, finding it is an incredibly rare feat — and getting direct,
hard data about it even more so. Until now, purposefully drilling
directly into a magma chamber has never even been attempted.
"You could never really propose to drill into magma," John
Eichelberger, a volcanologist at the University of Alaska told New
Scientist. "People would laugh at you and say, you'll start an
eruption. And besides, you can't find it."
But by an incredible stroke of luck, scientists did. In 2009, a
geothermal drilling project for the Iceland energy firm Landsvirkjun
unexpectedly hit a magma chamber near the country's formidable Krafla
volcano. That the crew weren't instantly obliterated by a volcanic
eruption was relieving proof that drilling into magma could be
safe.
In 2013, the same team that made the discovery, led by Bjarni Pálsson
at Landsvirkjun, launched the Krafla Magma Testbed (KMT) project to
repeat their success. It's now set to start drilling in 2026 with the
primary goal of advancing our understanding of magma.
"We don't have any direct knowledge of what magma chambers look like,
which is crucial in understanding volcanoes of course," Pao Papale at
the National Institute of Geophysics and Volcanology in Italy told New
Scientist.
Power Up
KMT scientists plan to deploy an array of sensors in the magma that
will continue taking measurements on properties like temperature.
"We hope to be able to have a direct measurement at least of
temperature, which has never been done before," Hjalti Páll Ingólfsson
at GEORG told New
Scientist.
A key topic will be observing how rock melts into magma, as well as
looking for indicators that could tell of an impending volcanic
eruption, which are notoriously difficult to predict.
Perhaps most excitingly is the headway the KMT borehole could make for
renewable energy. The hope is to develop a new form of generating
geothermal power called near-magma geothermal, which would use the
extreme heat of molten rock to heat up water at even higher
temperatures than what's possible with current techniques.
This potential clean energy miracle, though, hinges on KMT leading to
new insights on how to reliably find these magma chambers. But by
finding one in the first place, they've arguably already done the hard
part.
More on geothermal: Google
Fires Up Experimental New Geothermal Plant
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