Japan today can generate about 205 gigawatts of electricity. Coincidentally, studies show that the energy contained in the Kuroshio current — part of the North Pacific gyre that runs along the eastern side of the country at a rate of between 2 and 4 knots — could generate as much as 200 gigawatts of clean, renewable energy in perpetuity, or at least until the sun turns into a giant red dwarf and implodes in a few billion years.
Is it possible to tap into the Kuroshio current to generate that much renewable energy? Not today, but not so long ago, solar panels and wind turbines were deemed the stuff of science fiction. In the 1980s, when the first wind turbines appeared, no one could have imagined the latest model from Siemens Gamesa with its 115-meter long blades and a swept area of nearly 11 acres producing up to 15 megawatts of electricity.
Ishikawajima-Harima Heavy Industries — known as IHI — has been exploring ways to tap the power of ocean currents to create renewable energy for more than a decade. In 2017, it partnered with New Energy and Industrial Technology Development Organization (NEDO) to put its design — a 330-ton prototype — to the test. According to Science Alertthe project passed a major milestone in February with the completion of a successful three-and-a-half year field test in the waters off Japan’s southwestern coast.
The prototype is called Kairyu, which can be loosely translated into “ocean current.” It weighs 330 tons and has a fuselage 20 meters (66 feet) long flanked by a pair of similarly sized cylinders, each containing a power generation system attached to an 11-meter long turbine blade. When tethered to the ocean floor by an anchor line and power cables, the device can orient itself to find the most efficient position to generate power from the flow of a deep water current.
Kairyu was designed to hover about 50 meters below the waves, where each of the blades rotates in opposing directions, which helps stabilize the device. In a flow of two to four knots (around one to two meters per second), Kairyu was found to be capable of churning out a total of 100 kilowatts of power.
That may seem like pretty small potatoes compared to a modern wind turbine, but now that Kairyu has proven it can withstand the forces of nature in the ocean, it could have a monster sibling with 20-meter long turbine blades to generate a more respectable 2 megawatts sometime around 2030. 100 such machines would allow Japan to derive virtually all its electricity from ocean currents.
Attempts to generate electricity from tides, waves, and ocean currents have mostly ended in failure. Recently I attended a talk by an oceanographic engineer who has been working on ocean energy for three decades and it seems no closer to accomplishing his goal at any meaningful scale than he was when he started. And yet the dream remains.
There is enough energy in one tidal cycle in the Bay of Fundy to meet the needs of all 8 billion humans alive today. But high engineering costs, environmental limitations, and proximity of coastal areas to the grid are all challenges that need to be overcome before IHI and others who are intrigued by the allure of boundless energy from the sea will see their realized dreams.
And yet, similar challenges faced early wind and solar energy operations. Undersea transmission cables already connect offshore wind farms to the mainland. There is even a proposal to send electricity from Western Australian solar farms to Indonesia via an undersea cable. The amount of energy involved in ocean currents is enormous. Whoever figures out how to tap it reliably and economically will be doing a service not only to Japan but to all humanity.
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