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Experimental Advanced Superconducting Tokamak (EAST): China’s Artificial Sun

  • IASbaba
  • June 4, 2021
  • 0
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SCIENCE & TECH

Topic:

  • GS-3: Science and Technology- developments and their applications and effects in everyday life. 

Experimental Advanced Superconducting Tokamak (EAST): China’s Artificial Sun

About

  • Experimental Advanced Superconducting Tokamak (EAST) reactor is an advanced nuclear fusion experimental research device located at the Institute of Plasma Physics of the Chinese Academy of Sciences (ASIPP) in Hefei, China
  •  The purpose of the artificial sun is to replicate the process of nuclear fusion, which is the same reaction that powers the sun.
  • Apart from the EAST, China is currently operating the HL-2A reactor as well as J-TEXT.
  • The EAST project is part of the International Thermonuclear Experimental Reactor (ITER) facility, which will become the world’s largest nuclear fusion reactor when it becomes operational in 2035. The project includes the contributions of several countries, including India, South Korea, Japan, Russia and the United States.

How does the ‘artificial sun’ EAST work?

  • The EAST Tokamak device is designed to replicate the nuclear fusion process carried out by the sun and stars. 
  • Nuclear fusion is a process through which high levels of energy are produced without generating large quantities of nuclear waste. 
  • Previously, energy was produced through nuclear fission — a process in which the nucleus of a heavy atom was split into two or more nuclei of lighter atoms.
  • While fission is an easier process to carry out, it generates far more nuclear waste. Unlike fission, fusion also does not emit greenhouse gases and is considered a safer process with lower risk of accidents.
  • Once mastered, nuclear fusion could potentially provide unlimited clean energy and very low costs.
  • For nuclear fusion to occur, tremendous heat and pressure are applied on hydrogen atoms so that they fuse together. 
  • The nuclei of deuterium and tritium — both found in hydrogen — are made to fuse together to create a helium nucleus, a neutron along with a whole lot of energy.
  • Fuel is heated to temperatures of over 150 million degrees C so that it forms a hot plasma “soup” of subatomic particles. 
  • With the help of a strong magnetic field, the plasma is kept away from the walls of the reactor to ensure it does not cool down and lose its potential to generate large amounts of energy. The plasma is confined for long durations for fusion to take place.

What is the latest record by EAST and why does it matter?

  • The EAST reactor set a new record when it achieved a plasma temperature of 216 million degrees Fahrenheit and also managed to run for 20 seconds at 288 million degrees Fahrenheit. 
  • To put this in perspective, the sun’s core only reaches about 15 million degrees Celsius, which means the reactor was able to touch temperatures that are 10 times hotter than that.
  • The next goal for the scientists behind the experimental reactor is to maintain the high temperature for a long period of time. 
  • Previously, the EAST had reached a record temperature of 100 million degrees Celsius in 2018.
  • This future technology is critical for China’s green development push and the new record is a small step in this direction of creating artificial sun
  • But China is not the only country that has achieved high plasma temperatures. In 2020, South Korea’s KSTAR reactor set a new record by maintaining a plasma temperature of over 100 million degrees Celsius for 20 seconds.

Conclusion

There is still a long way to go for China’s experimental ‘artificial sun’.  It will take decades for a working reactor to emerge from its experimental stages.

Connecting the dots:

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