This Dam Simple Trick Is a Big Green Energy Win

, This Dam Simple Trick Is a Big Green Energy Win, The Habari News
, This Dam Simple Trick Is a Big Green Energy Win, The Habari News

In November 2019 engineers switched on the 18th and final turbine at Brazil’s Belo Monte Dam: the final step in an odyssey of planning and construction that had started almost 50 years earlier. The vast hydroelectric complex—the fourth-largest in the world—completely upended the northern stretch of the Xingu River, one of the Amazon’s major tributaries. The waters held back by the main dam created a reservoir that flooded 260 square miles of lowlands and forests, and displaced more than 20,000 people.

Major hydroelectric dams can have catastrophic consequences—flooding homes and habitats and changing the flow, temperature, and chemistry of rivers for decades. Although few are quite as big as Belo Monte, there are a glut of new hydroelectric dams in the works all over the globe. In 2014 researchers estimated that there are at least 3,700 major hydroelectric dams in planning or under construction globally. Most of these new projects are located in low- and middle-income countries eager to fuel their growing economies with a crucial source of low-carbon power: In 2020, hydroelectric dams generated as much electricity as nuclear and wind power combined. But the race to tap the world’s rivers for renewable energy presents something of an environmental conundrum: Do the benefits outweigh the environmental chaos that dams can wreak?

Some researchers think there’s a smart way out of this dilemma. Rather than building more dams, why don’t we figure out a way to get more out of the ones that already exist? The majority of them aren’t generating electricity at all—they’re used for irrigation, water supply, flood control, or for fishing and boating. If we can figure out a way to put turbines into those dams so they also produce hydropower—a process known as retrofitting—we could unlock a huge renewable energy potential that isn’t being tapped.

In a retrofitted system, water falling through the dam would spin newly installed turbine blades connected to a generator—and that spinning would generate electricity that could be distributed to local homes or connected to a larger power grid. “How much more can we get out of revitalizing existing infrastructure, rather than expanding and building new infrastructure?” asks Ryan McManamay, an ecologist at Baylor University in Texas and coauthor of a paper exploring the untapped potential of non-powered dams. (McManamay’s own office in Waco is a short walk from one of these dams on the Brazos River. A wasted opportunity right on his doorstep, he points out.)

, This Dam Simple Trick Is a Big Green Energy Win, The Habari News

McManamay and his colleagues estimated that retrofitting dams and upgrading existing hydroelectric plants could boost their maximum output by an extra 78 gigawatts. That’s roughly the power generated by seven Belo Monte Dams, or more than double the average electricity demand in the whole of the United Kingdom. And in parts of the world where new dams are being planned and constructed, the change could be huge. Retrofitting and upgrading dams in the Amazon River basin could unlock 1.6 gigawatts of new electricity production. That’s roughly the amount of energy produced by a natural-gas-fired power station and enough to avoid the construction of 17 new smaller dams altogether. Upgrading and retrofitting dams in the Mekong River basin in Southeast Asia could generate so much power that all the new ones slated for construction in the region would be surplus above what’s required.

Some countries are already making use of this potential. Since 2000, 36 dams in the US have been retrofitted with turbines, adding more than 500 megawatts of renewable generation capacity. There is even more potential out there: A 2016 US Department of Energy report found that an additional 4.8 gigawatts of electricity could be generated by retrofitting non-powered dams over the next three decades. In places like the US and Western Europe, where the dam-building boom of the mid-20th century has long since faded, retrofitting may be the only option left for governments looking to eke out a little more hydropower. “If there are dams that are going to remain in place, let’s try and find solutions and work together to the most optimal solution,” says McManamay.

But before anyone starts upgrading all these dams, they might want to take another look at the numbers. It’s not easy to accurately predict how much electricity a retrofitted facility will actually produce, because it turns out not every dam is a good fit for conversion. Say someone wants to fit turbines in a dam that was built to hold back water so it can be used to irrigate farmers’ fields. During the growing season, a lot of that water would normally be directed toward crops, instead of flowing over the dam to generate electricity. Or perhaps it’s in an area where the water is only high enough to generate electricity for part of the year. Suddenly those retrofitted dams might not seem like such a smart idea.