UK markets open in 7 hours 24 minutes
  • NIKKEI 225

    29,639.40
    -200.31 (-0.67%)
     
  • HANG SENG

    24,221.54
    +122.40 (+0.51%)
     
  • CRUDE OIL

    71.97
    -0.26 (-0.36%)
     
  • GOLD FUTURES

    1,768.30
    -10.50 (-0.59%)
     
  • DOW

    34,258.32
    +338.48 (+1.00%)
     
  • BTC-GBP

    32,027.56
    +2,188.03 (+7.33%)
     
  • CMC Crypto 200

    1,089.55
    +49.07 (+4.72%)
     
  • ^IXIC

    14,896.85
    +150.45 (+1.02%)
     
  • ^FTAS

    4,081.81
    +52.80 (+1.31%)
     

U.S. university, energy firm hail test of energy fusion project

·1-min read
FILE PHOTO: Eni's logo is seen in front of its headquarters in San Donato Milanese

MILAN (Reuters) -Massachusetts Institute of Technology and Commonwealth Fusion Systems successfully tested the world's most powerful high-temperature superconducting magnet in a step toward building a fusion power plant to generate carbon-free power.

Italian energy group Eni is a shareholder in CFS, a fusion energy research company spun off by MIT, after investing $50 million in 2018 and led CFS' Series A funding.

CFS, MIT and Eni announced the test results on Wednesday.

The test showed that the superconducting magnet built by MIT and CFS could generate a sustained magnetic field powerful enough for a CFS device to achieve net energy from fusion, which CFS said was a historic first.

CFS aims to use the technology to build a commercially viable fusion power plant to generate zero-emission electricity.

"For Eni, magnetic confinement fusion holds a pivotal role in the technological research for decarbonization, as it will (allow) humanity to access large quantities of energy produced,” Eni CEO Claudio Descalzi said.

As governments round the world pick up efforts to combat climate change, energy companies like Eni have launched transition strategies to cut carbon footprints.

CFS works on a fusion device known as a tokamak. Achieving net energy from fusion with tokamaks has previously relied on device scale, but high temperature superconductors will enable CFS to reach net energy from fusion with a smaller and cheaper tokamak and on a faster timeline, CFS said.

CFS plans to have a first experimental device with net energy production by 2025 and a first plant to start feeding energy into the grid in the 2030s, Eni said.

(Reporting by Stephen Jewkes;Editing by Bernadette Baum and Cynthia Osterman)

Our goal is to create a safe and engaging place for users to connect over interests and passions. In order to improve our community experience, we are temporarily suspending article commenting