How one island powered itself with a volcano

Graham Alexander Ryan
July 13
Graham Alexander Ryan is a research fellow at University of Auckland.

A view of the Etna volcano erupting, near Catania, Sicily. (Giuseppe Pappa/ EPA)

The eastern Caribbean island of Montserrat has suffered more than its fair share of natural disasters.

In 1989, Hurricane Hugo struck the island, causing massive destruction with more than 90 percent of the island’s structures damaged. In 1995, just as the island started to recover, the island’s Soufrière Hills volcano burst into life, entering a cycle of eruptive activity that continues to the present day. The eruption had an enormous impact on the island, killing 19 people, leaving two-thirds of the island nation uninhabitable and in 1997 completely burying the capital city, Plymouth, under yards of volcanic rock, ash and mud. More than half the island’s population of around 10,000 were compelled to emigrate.

Today, however, Montserrat is putting this violent geological heritage to good use. Known as the “Emerald Isle” of the Caribbean because of its historical ties with the Irish, Montserrat (in fact a British dependent territory) is poised to become one of the world’s few metaphorically “green” and sustainable islands. The same geological forces unleashed by the Soufrière Hills volcano are being harnessed to power the island’s electricity grid from a geothermal source.

Geothermal energy, the productive use of the vast quantity of thermal energy within Earth’s crust, is one of the few renewable, low-carbon emission energy sources that can consistently generate power 24-hours a day, irrespective of the season. Its primary limitation is not weather but location, as it can only be exploited in places with specific geology, where some of the planet’s intense inner heat reaches close enough to the surface to be of use.

Montserrat’s geology is ideal for geothermal use: hot molten magma rises to shallow depths, driven by the forces of regional plate tectonics. The heat from this magma warms the surrounding rocks, providing a heat source that can be tapped if it can be brought back to the surface. Rainwater and seawater are natural aids to this process as they penetrate through cracks and pores in the rocks to several kilometers beneath the island, absorbing heat from the magma heated rocks. Once heated, the hot fluid rises buoyantly to shallower levels where it can be tapped by drilling geothermal wells. As the ascending fluid boils it produces pressurized steam which rotates turbines to generate electricity.

The high cost of drilling wells (a single well can cost several million U.S. dollars) coupled with the potential risk of drilling an unproductive well, are the principle reasons that geothermal potential has not been fully exploited. To increase the likelihood of drilling a productive well, the project to exploit geothermal power on Montserrat used an array of technologies, such as magnetotellurics and seismic tomography to more clearly understand the rocks beneath the surface.


Conceptual model based on survey data to home in on best site for drilling a well.
Ryan, Peacock, Shalev, Rugis (2013), Montserrat geothermal system: a 3D conceptual model, Geophys. Res. Lett. doi: 10.1002/grl.50489.

Magnetotellurics uses naturally occurring signals from lightning storms and charged particles ejected from the sun to penetrate below ground. Seismic tomography uses the responses of pressure waves created by carefully generated explosions to generate images of the rocks. Aided by researchers at the University of Auckland, scientists used these techniques to create the subsurface maps that have successfully guided Montserrat’s geothermal drilling program.

Between March and September of 2013, the Iceland Drilling Company drilled Montserrat’s first two geothermal wells, to depths of 2,300 and 2,900 yards, striking temperatures of more than 260°C. While testing is still ongoing, the initial results suggest that the fluid flowing from the wells will be able to generate more power than needed by the island’s reduced population of around 5,000 inhabitants. Once completed, the geothermal power station will free the island from its current reliance on expensive diesel-powered generators for its electricity – currently among the most expensive electricity in the world.

Montserrat is not the only nation in the region with geothermal aspirations. All of the islands of the Lesser Antilles have similar geological settings and therefore geothermal potential. The French island of Guadeloupe, with 15MW of installed capacity, is the only Caribbean island that currently uses geothermal energy for electricity, but recently private investment in St Kitts and Nevis and a European Union funded project in Dominica have also resulted in several promising exploratory wells, with discussions underway on other islands keen to harness their geothermal potential.

Geoscientists have recognized the geothermal potential of the region for many decades. But it is only in the past few years that the promise of a cheap, local energy source that can free the region from volatile oil prices has caught the imagination of regional governments and agencies.

This article was originally published on The Conversation. Read the original article.

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