Experimental Advanced Superconducting Tokamak Explained

The Experimental Advanced Superconducting Tokamak (EAST), also known as HT-7U (Hefei Tokamak 7 Upgrade), is an experimental superconducting tokamak magnetic fusion energy reactor in Hefei, China. Operated by the Hefei Institutes of Physical Science conducting its experiments for the Chinese Academy of Sciences, EAST began its operations in 2006. EAST is part of the international ITER program after China joined the initiative in 2003^[1] and acts as a testbed for ITER technologies.

It is the first tokamak to utilize superconducting toroidal and poloidal magnets. One of the primary goals of EAST is to achieve plasma pulses of up to 1,000 seconds.

History

EAST followed China's first superconducting tokamak device, dubbed HT-7, built by the Institute of Plasma Physics in partnership with Russia in the early 1990s. It was first proposed in 1996 and approved in 1998. According to a 2003 schedule,^[2] buildings and site facilities were to be constructed by 2003. Tokamak assembly was to take place from 2003 through 2005. Construction was completed in March 2006.^[3]

According to official reports, the project's budget is CNY ¥300 million (approximately US$37 million), some 1/15 to 1/20 the cost of a comparable reactor built in other countries.^[4]

Phase I

EAST entered its first commissioning phase around March 2006. Shortly after, in-vessel components and diagnostics were assembled.^[5]

During initial operation, EAST was able to successfully generate its first plasma on September 28, 2006 in a nearly three second long test, reaching an electric current of 200 kiloamperes. By January 2007, the reactor had progressed to creating a plasma that could last nearly five seconds and generate currents up to 500 kiloamperes.^[6]

Three years later, EAST was able to achieve a key milestone on November 7, 2010, achieving an H-mode plasma by low hybrid wave (LHW) injection alone.^[7] This was shortly followed by further success, where EAST became the first tokamak to successfully sustain H-Mode plasma for over 30 seconds at ~50 million Kelvin in May of 2011.

Phase II

The second phase of EAST was formally entered through a ribbon-cutting ceremony for the EAST auxiliary heating system project, which was held on November 29, 2011.^[8]

After a nearly 20-month long upgrading break since September 2012, EAST commenced for the first round of experiments in May 2014. A year later, EAST was reporting currents of up to 1 Megaampere, as well as stable H-mode plasma for 6.4 seconds.^[9] Then, almost two years later, EAST was able to break records when it managed to maintain a plasma pulse for 102 seconds at ~50 million °C (90 million °F). During this test, EAST was able to generate a Plasma with currents of 400 kiloamperes with a density of about 2.4 x 10¹⁹/m³. It was observed that the temperature was slowly increasing during this test.^[10]

Building on this success, EAST became the first tokamak to successfully sustain H-Mode plasma for more than one minute at ~50 million °C (90 million °F) on November 2, 2016.^[11] In July of 2017, it was also the first tokamak to sustain said plasma for more than 100 seconds at the same temperature.^[12] The following year, EAST reached a milestone of ~100 million °C (180 million °F) electron temperature on November 12, 2018.^[13] During May of 2021, it reached an electron temperature of 120 million °C electron temperature for 101 seconds. On December 30, 2021, a long-pulse high-parameter plasma operation of 1056 seconds was realized, setting another world record for the operation of the Tokamak experimental device.^[14]

As of recently, EAST achieved the world's first 403-second steady-state H-mode plasma on April 12, 2023.^[15]

Physics objectives

China is a member of the ITER consortium, and EAST is a testbed for ITER technologies.^[16]

EAST was designed to test:

• Superconducting Niobium-titanium poloidal field magnets, making it the first tokamak with superconducting toroidal and poloidal magnets
• Non-inductive current drive
• Pulses of up to 102 seconds with 0.5 MA plasma current
• Schemes for controlling plasma instabilities through real-time diagnostics
• Materials for diverters and plasma facing components
• Operation with β_N = 2 and confinement factor H₈₉ > 2

Tokamak parameters

Tokamak parameters^[17]

Toroidal field, Bt	3.5 T
Plasma current, IP	1.0 MA
Major radius, R0	1.85 m
Minor radius, a	0.45 m
Aspect ratio, R/a	4.11
Elongation, κ	1.6–2
Triangularity, δ	0.6–0.8
Ion cyclotron resonance heating (ICRH)	3 MW
Lower hybrid current drive (LHCD)	4 MW
Electron cyclotron resonance heating (ECRH)	None currently (0.5 MW planned)
Neutral beam injection (NBI)	None currently (planned)
Pulse length	1–1000 s
Configuration	Double-null divertor Pump limiter Single null divertor

See also

• ASDEX Upgrade
• China Fusion Engineering Test Reactor (CFETR)
• HL-2M
• List of fusion experiments
• ITER
• Joint European Torus
• JT-60
• KSTAR

External links

• - Official website of EAST Fusion Facility - Chinese Academy of Science
• People's Daily article
• Xinhua article Mar 1 2006 - Note that EAST is not the "world's first experimental nuclear fusion device".
• Xinhua article Mar 24, 2006 Nuke fusion reactor completes test

31.9117°N 117.1468°W

Notes and References

1. Web site: China's New Thermonuclear Fusion Reactor Test Successful -- china.org.cn . 2024-12-03 . www.china.org.cn.
2. http://202.127.205.62/IAC/disk/Design%20of%20the%20EAST(HT-7U) Project/6.doc
3. Web site: China's New Thermonuclear Fusion Reactor Test Successful . . September 29, 2006.
4. News: China to build world's first "artificial sun" experimental device. People's Daily Online. 2006-01-21.
5. https://fire.pppl.gov/iaea06_ov1_1_wan.pdf
6. https://web.archive.org/web/20100121032440/http://news.xinhuanet.com/english/2007-01/15/content_5608276.htm Xinhua article Jan 15, 2007 Chinese scientists conduct more tests on thermonuclear fusion reactor. 2007-Jan-15
7. Web site: admin . 2010-12-03 . EAST Tokamak achieves stationary H-mode plasmas . 2024-12-03 . ITER - the way to new energy . en.
8. Web site: Institute of Plasma Physics Chinese Academy Of Scieneces . 2024-12-03 . english.ipp.cas.cn.
9. http://english.ipp.cas.cn/rh/east/ EAST at IPP-CAS
10. Web site: February 6, 2016 . That's cute, Germany – China shows the world how fusion is done . The Register. more data in screen shot
11. Web site: EAST Achieves Longest Steady-state H-mode Operations . EAST team . November 15, 2016.
12. Web site: China's 'artificial sun' sets world record with 100s steady-state high performance plasma . Chinese Academy of Sciences . July 5, 2017.
13. Web site: Chinese fusion tool pushes past 100 million degrees. Phys.org. November 15, 2018. August 10, 2020.
14. Web site: 1,056 Seconds, another world record for EAST. December 31, 2021.
15. Web site: Reliable 403 Seconds Stationary H-mode Plasmas Demonstrated on EAST. April 17, 2023.
16. 2015. Study of lower hybrid current drive towards long-pulse operation with high performance in EAST. AIP Conference Proceedings . 1689 . 080002 . EURATOM. 10.1063/1.4936525. 2015AIPC.1689h0002D . free . Ding . B. J. . Li . M. H. . Li . Y. C. . Wang . M. . Shan . J. F. . Liu . F. K. . Wang . S. L. . Wei . W. . Xu . H. D. . Zhao . L. M. . Hu . H. C. . Jia . H. . Cheng . M. . Yang . Y. . Liu . L. . Xu . G. S. . Zang . Q. . Zhao . H. L. . Peysson . Y. . Decker . J. . Goniche . M. . Cesario . R. . Amicucci . L. . Tuccillo . A. A. . Baek . G. S. . Parker . R. . Bonoli . P. T. . Yang . C. . Zhao . Y. P. . Qian . J. P. . Radio Frequency Power in Plasmas . 1 . 1 .
17. Web site: EAST (HT-7U Super conducting Tokamak)----Hefei Institutes of Physical Science, The Chinese Academy of Sciences.