![]() Recently, the UK also introduced a new set of incentives that specifically support tidal energy. The turbine, named the O2, is projected to meet the energy demands of 2,000 homes for the next 15 years. In Scotland, a 600-ton turbine anchored right off of the Orkney Islands is already generating power. Tidal power is thriving in some countries. “We're learning from our mistakes and trying to identify problems and stress mitigation proactively before they occur,” he says. 3,4 Researchers like Polagye are trying to figure out how to harness tidal currents with much less environmental impact. Depending on the size and design of the system, tidal barrages can kill off flora and fauna, change salinity and sediment levels, and disrupt coastal ecology. Then there's the environmental impact, the extent of which isn't fully understood yet. (One tidal power project set up in New York's East River required 23 different permits from 14 agencies to operate, as reported in Grist.) Polagye adds that the supply chain for tidal power also isn't yet capable of providing necessary components and technologies at scale to make this energy source and, as of now, "everything’s pretty custom.” In fact, the market discrepancy between tidal and other, more mature, renewable energy systems is actually growing because the cost of generation from wind and solar generation continues to drop.īeyond the economic difficulties, the tidal power industry also must overcome technical challenges such as the lack of an established and routine production market and legislative red tape. 2 High upfront costs of building plants, expenses associated with maintaining machinery that can survive corrosive seawater, and the pricey engineering work that goes into them make up a significant portion of that cost discrepancy. Because of the early stage of the technology, tidal power is an expensive source of energy: according to a 2019 study, commercial-scale tidal energy is estimated to cost $130-$280 per megawatt-hour, 1 compared to $20 per megawatt-hour for wind. “The fundamental question is one of economics,” says Brian Polagye, Associate Professor of Mechanical Engineering and Director of the Pacific Marine Energy Center at the University of Washington. ![]() The United States doesn't have any large-scale tidal power plants, although a few small-scale projects exist. There are only a handful of commercially-operating tidal power plants worldwide, the largest of which is the Sihwa Lake Tidal Power Station in South Korea. Because water is roughly 830 times denser than air, tidal or ocean currents can generate more energy per unit area than winds.ĭespite these advantages and the skyrocketing demand for clean, renewable energy, tidal power hasn't taken off in the same way that solar and wind energy have. “That's a clear incentive for using tidal power,” he adds.Īnother benefit of tidal power is its relatively high power output. Tidal patterns, however, are well-known and well-understood, reducing the need for backup energy sources. “Variations in wind patterns, weather, and turbulence make it inherently challenging to predict across different time scales,” he says. He says that tidal power has one advantage over other renewable energy resources like wind and solar: predictability. Michael Howland, Assistant Professor of Civil and Environmental Engineering at MIT, studies the physics of Earth’s atmosphere and renewable energy generation systems. Tidal barrage systems operate similarly to hydroelectric dams using dam-like structures and submerged gates to control water levels throughout the day and to direct water through turbines. They may be installed on their own, but larger energy projects commonly install connected rows of turbines, called an array. Tidal turbines may be installed in water sources ranging from areas with strong ocean currents to tidal streams and estuaries. One method resembles a hydroelectric dam, called tidal barrages, and another relies on underwater turbines that have blades that rotate as water flows by, powering a generator in the process. There are two methods of harnessing tidal power. Tidal power leverages the rise and fall of oceanic tides to capture potential or kinetic energy and convert it into other energy forms, often electricity. Tidal power is a promising renewable energy source, but production costs, a limited number of suitable locations, and technological challenges hinder its expansion.
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