The far north (or south) isn't the only place on Earth that spends the winter locked in perpetual darkness. Beginning in September and ending in March, the tiny Norwegian town of Rjukan is cast into a perpetual shadow. But no longer. This month, engineers are completing The Mirror Project, a system that will shed winter light on Rjukan for the first time in history.
A few days ago, helicopters descended on the 3,500 person town to install three huge rectangular mirrors on the face of the mountains that pin Rjukan in on either side. Technically, these are heliostatic mirrors, which are controlled by a central computer that tilts their positioning to reflect the sun onto a specific, static location. (It's more common to find them on solar farms, for example.)
The "hot spot," in this case, is a 2,000-square-foot circle on the town square, soon to be converted into an ice rink (apparently, the reflected light still won't be terribly warm). When Rjukan begins to fall into shadow roughly a month from now, the mirrors will begin their first tests. "The project will result in a permanent installation which, with the help of the 300 square foot mirrors, will redirect the sun down into the valley," explained town reps. "The square will become a sunny meeting place in a town otherwise in shadow." The entire operation, amazingly, is set to cost less than a £700,000.
As lovely as it is, the Mirror Project forces us to wonder: Why was Rjukan built in the first place? In fact, it was settled around the turn of the century, when a famed Norse industrialist named Sam Eyde built a hydroelectric factory in the valley. It turns out that Eyde had the mirror idea first, but had no way to implement it. According to TIME, his alternative was to build a cable car that workers could use to escape the valley floor for a few hours at weekends.
It may be the most extreme example, but Rjukan's mirror won't be the first artificial sun in Europe. In 2006, a tiny Italian town in the Alps called Viganella installed a 26-foot-wide mirror atop a neighboring mountaintop. Viganella, like Rjukan, sits at the bottom of a valley, and for 82 days of the year it receives no direct sunlight. Their mirror, which is still in use today, even became the subject of a documentary called Lo Speccio ("The Mirror"). Meanwhile, the Austrian town of Rattenberg also installed its own heliostatic system around the same time.
Builders and engineers have been using mirrors in similar ways for decades, of course. Shipbuilders would use wood-embedded prisms to reflect light belowdecks on early trading ships, for example. And even today, architects use mirrors to light hard-to-reach interior courtyards. It's the scale that's really remarkable here—along with the fact that for the first time since the mountains around Rjukan took shape, this small patch of valley will experience an entirely unknown type of light. [Popular Mechanics]
Images courtesy of Karl Martin Jakobsen via Visit Rjukan.