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PBS

Quaise Energy co-founder Carlos Araque BS '01 MS '02 speaks with PBS Energy Switch host Scott Tinker about the future of geothermal energy. [Geothermal is “truly everywhere so it’s not a resource uncertainty, like there is with oil and gas, there’s always heat, but the technological gap prevents us from getting to it,” says Araque. These gaps “are the one caveat in unlocking this resource for everybody.”

Popular Mechanics

Quaise Energy, an MIT spinout, is developing a millimeter wave drill to “vaporize enough rock to create the world’s deepest holes and harvest geothermal energy at scale to satisfy human energy consumption without the need for fossil fuels,” reports Tim Newcomb for Popular Mechanics.

CNBC

MIT startup Quaise Energy is developing an energy-based drill to make geothermal power more accessible, reports Catherine Clifford for CNBC. “The solution to drilling is to replace the mechanical grinding process with a pure energy-matter interaction,” says research scientist Paul Woskov. “Sufficient energy intensity will always melt-vaporize rock without need for physical tools.”

Bloomberg

MIT spinoff Quaise Energy is transforming a millimeter-wave drilling technique from nuclear fusion experiments to tap geothermal energy, reports Mark Bergen for Bloomberg. “The company’s drill – it is building three prototypes in laboratories – is about 100 feet tall and looks like convential equipment used in the oil and gas industry,” writes Bergen. “Except built into the center of the drill is a gyrotron, an electrical vacuum designed to heat plasma in thermonuclear fusion machines. 

NPR

Quaise Energy co-founder Carlos Araque BS ’01 MS ’02 speaks with Guy Raz, host of NPR’s How I Built This, about his time on the MIT Electric Vehicle Team, starting his company and the future of geothermal energy. “We would build these cars together, literally from scratch,“ said Araque about the EVT. "Very hands on, a lot of engineering went into that. And it [offered] very early experience with building things that work -- not only work, but work reliantly and consistently.”  

Bloomberg Radio

Research engineer Paul Woskov speaks with Bloomberg Radio host Tom Moroney and Joe Shortsleeve about his work with Quaise Energy in developing a laser to drill holes into the earth. “There is a lot of heat contained within our planet. The amount of heat that is present, if tapped, could supply all of our energy needs for several million years,” says Woskov.

The Boston Globe

Researchers from MIT and MIT spinoff Quaise Energy speak with Boston Globe reporter David Abel about their work developing a new way to drill as deep as 12 miles into the Earth’s crust, using a special laser, which could provide a way to tap the geothermal energy in the rocks. “This is game-changing,” Woskov said. “We now have the potential to exploit an energy source that . . . could unleash the virtually limitless supply of energy beneath our feet.”

Fast Company

Quaise Energy, a startup out of MIT’s Plasma Science and Fusion Center, has developed a millimeter wave drilling system to access layers of rock that reach over 700 degrees Fahrenheit, making geothermal power more accessible, reports Adele Peters for Fast Company. “Wind and solar [power] take up quite a bit of land,” writes Peters. “If geothermal power can be affordable anywhere, it could help fill an important gap in getting to 100% renewable electricity.”

Forbes

In a piece for Forbes about geothermal power production, Peter Kelly-Detwiler features a report released by a group of MIT researchers in 2005 concerning the potential of geothermal to become a major source of energy in the U.S.