Editing Tokamak (section)

=== Planned ===
[[File:Iter aerial 2017 Halfway to first plasma (45588568915).jpg|thumb|ITER, currently under construction, will be the largest tokamak by far.]]
* [[ITER]], international project in [[Cadarache]], France; 500 MW; construction began in 2010, first plasma expected in 2025. Expected fully operational by 2035.<ref>{{cite news|title=ITER & Beyond. The Phases of ITER |newspaper=Iter |url=http://www.iter.org/proj/iterandbeyond |access-date=12 September 2012|archive-url=https://web.archive.org/web/20120922162049/http://www.iter.org/proj/iterandbeyond|archive-date=22 September 2012}}</ref>
* [[DEMOnstration Power Plant|DEMO]]; 2000 MW, continuous operation, connected to power grid. Planned successor to ITER; construction to begin in 2040 according to EUROfusion 2018 timetable.
* [[CFETR]], also known as "China Fusion Engineering Test Reactor"; 200 MW; Next generation Chinese fusion reactor, is a new tokamak device.<ref>{{cite conference |conference=2nd IAEA DEMO Programme Workshop |last=Gao |first=X. |collaboration=CFETR team |title=Update on CFETR Concept Design |date=Dec 17–20, 2013 |location=Vienna, Austria |url=http://www-naweb.iaea.org/napc/physics/meetings/TM45256/talks/Gao.pdf |access-date=17 August 2015 |archive-date=30 March 2019 |archive-url=https://web.archive.org/web/20190330120409/http://www-naweb.iaea.org/napc/physics/meetings/TM45256/talks/Gao.pdf }}</ref><ref>{{cite journal | doi=10.1016/j.fusengdes.2013.06.008 | volume=88 | issue=11 | title=Concept design of CFETR superconducting magnet system based on different maintenance ports | journal=[[Fusion Engineering and Design]] | pages=2960–2966| year=2013 |display-authors=4 | last1=Zheng | first1=Jinxing | last2=Liu | first2=Xufeng | last3=Song | first3=Yuntao | last4=Wan | first4=Yuanxi | last5=Li | first5=Jiangang | last6=Wu | first6=Sontao | last7=Wan | first7=Baonian | last8=Ye | first8=Minyou | last9=Wei | first9=Jianghua | last10=Xu | first10=Weiwei | last11=Liu | first11=Sumei | last12=Weng | first12=Peide | last13=Lu | first13=Kun | last14=Luo | first14=Zhengping | bibcode=2013FusED..88.2960Z }}</ref><ref>{{cite journal |first=Yun Tao |last=Song |s2cid=24159256 |year=2014 |title=Concept Design of CFETR Tokamak Machine |journal=IEEE Transactions on Plasma Science |volume=42 |issue=3 |pages=503–509 |doi=10.1109/TPS.2014.2299277 |display-authors=etal |bibcode=2014ITPS...42..503S }}</ref><ref>{{cite web|first=Minyou|last=Ye|date=26 March 2013|url=http://aries.ucsd.edu/LIB/MEETINGS/1302-USJ-PPS/Ye.pdf|title=Status of design and strategy for CFETR|access-date=17 August 2015|archive-date=25 November 2015|archive-url=https://web.archive.org/web/20151125075902/http://aries.ucsd.edu/LIB/MEETINGS/1302-USJ-PPS/Ye.pdf}}</ref>
* K-DEMO in South Korea; 2200–3000 MW, a net electric generation on the order of 500 MW is planned; construction is targeted by 2037.<ref name="KimIm2015">{{cite journal|display-authors=4| last1=Kim| first1=K.| last2=Im| first2=K.| last3=Kim| first3=H.C.| last4=Oh| first4=S.| last5=Park |first5=J.S.| last6=Kwon| first6=S.| last7=Lee| first7=Y.S.| last8=Yeom| first8=J.H.| last9=Lee| first9=C.| last10=Lee| first10=G-S.| last11=Neilson| first11=G.| last12=Kessel| first12=C.| last13=Brown| first13=T.| last14=Titus| first14=P.| last15=Mikkelsen| first15=D.| last16=Zhai| first16=Y.| title=Design concept of K-DEMO for near-term implementation| journal=Nuclear Fusion| volume=55| issue=5| year=2015| page=053027| issn=0029-5515| doi=10.1088/0029-5515/55/5/053027| bibcode=2015NucFu..55e3027K| doi-access=free}}</ref>
* [[Spherical Tokamak for Energy Production]] (STEP), a UK project planning to produce a burning plasma by 2035.
* [[SPARC (tokamak)|SPARC]] a development of [[Commonwealth Fusion Systems]] (CFS) in collaboration with the [[Massachusetts Institute of Technology]] (MIT) [[MIT Plasma Science and Fusion Center|Plasma Science and Fusion Center]] (PSFC) in [[Devens, Massachusetts]].<ref>{{Cite web |last=Chesto |first=Jon |date=2021-03-03 |title=MIT energy startup homes in on fusion, with plans for 47-acre site in Devens |url=https://www.bostonglobe.com/2021/03/03/business/mit-energy-startup-homes-fusion-with-plans-47-acre-site-devens/ |access-date=2021-03-03 |website=BostonGlobe.com |language=en-US}}</ref><ref>Verma, Pranshu. [https://www.washingtonpost.com/technology/2022/08/26/nuclear-fusion-technology-climate-change/ Nuclear fusion power inches closer to reality.] {{Webarchive|url=https://web.archive.org/web/20220827165948/https://www.washingtonpost.com/technology/2022/08/26/nuclear-fusion-technology-climate-change/|date=27 August 2022}} The Washington Post, August 26, 2022.</ref> Expected to achieve energy gain in 2026 with a fraction of ITERs size by utilizing high magnetic fields.