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	{{Short description\|Experimental South Korean high-speed train}}		{{Short description\|Experimental South Korean high-speed train}}
	{{Use ~~mdy~~ dates\|date=~~December~~ ~~2020~~}}		{{Use dmy dates\|date=April 2024}}
			{{update\|date=October 2022}}
	{{Infobox Train		{{Infobox Train
	\| background =		\| background =
	\| name = HEMU-430X<!-- THIS DATA REFERS TO PRE-PRODUCTION INFORMATION - PLEASE START A NEW INFOBOX FOR PRODUCTION MODELS, INCLUDING THE HEMU-430X IF DATA CHANGES-->		\| name = HEMU-430X<!-- THIS DATA REFERS TO PRE-PRODUCTION INFORMATION - PLEASE START A NEW INFOBOX FOR PRODUCTION MODELS, INCLUDING THE HEMU-430X IF DATA CHANGES-->
	\| image = HEMU-430X Test run.jpg		\| image = HEMU-430X Test run.jpg
	\| imagesize = 250px		\| imagesize = 250px
	\| caption = HEMU-430X passing through ].		\| caption = HEMU-430X passing through ].
	\| manufacturer = ]		\| manufacturer = ]
	\| family = ]		\| family = ]
	\| yearconstruction = 2010–2011		\| yearconstruction = 2010–2011
	\| yearservice =		\| yearservice =
	\| refurbishment =		\| refurbishment =
	\| numberbuilt = 1		\| numberbuilt = 1
	\| numberservice = 0		\| numberservice = 0
	\| formation = TC+4M+MC<ref name="plans2010"/>		\| formation = TC+4M+MC<ref name="plans2010"/>
	* TC: trailer car (unpowered driving trailer)		* TC: trailer car (unpowered driving trailer)
	* M: motorized intermediate car		* M: motorized intermediate car
	* MC: motorized trailer car (powered driving trailer)		* MC: motorized trailer car (powered driving trailer)
	\|fleetnumbers =		\| fleetnumbers =
	\| capacity =		\| capacity =
	\| operator = ]		\| operator = ]
	\| depots = Osong		\| depots = Osong
	\| lines = ]<br/>]		\| lines = ]<br/>]
	\| carbody = ~~Aluminum~~, composite<ref name="irail_2009-2"/>		\| carbody = Aluminium, composite<ref name="irail_2009-2"/>
	\| trainlength = {{Convert\|147.4\|m\|ft\|abbr=on}}		\| trainlength = {{Convert\|147.4\|m\|ftin\|abbr=on\|frac=16}}
	\| carlength = End cars: {{Convert\|23.5\|m\|ft\|abbr=on\|1}}<ref name="irail_2009-2"/><br/>Intermediate cars: {{Convert\|25.1\|m\|ft\|abbr=on}}		\| carlength = End cars: {{Convert\|23.5\|m\|ftin\|abbr=on\|frac=16}}<ref name="irail_2009-2"/><br/>Intermediate cars: {{Convert\|25.1\|m\|ftin\|abbr=on\|frac=16}}
	\| width = {{Convert\|3100\|mm\|in\|abbr=on\|1}}<ref name="irail_2009-2"/>		\| width = {{Convert\|3100\|mm\|ftin\|abbr=on\|frac=16}}<ref name="irail_2009-2"/>
	\| height = {{Convert\|3720\|mm\|in\|abbr=on\|1}}<ref name="irail_2009-2"/>		\| height = {{Convert\|3720\|mm\|ftin\|abbr=on\|frac=16}}<ref name="irail_2009-2"/>
	\| floorheight =		\| floorheight =
	\| platformheight =		\| platformheight =
	\| entrylevelorstep =		\| entrylevelorstep =
	\| art-sections =		\| art-sections =
	\| doors =		\| doors =
	\| maxspeed = ''Planned in tests/design'':<br/>{{convert\|430\|km/h\|mph\|0\|abbr=on}}<br/>''Planned in service (KTX-III)'':<br/>{{convert\|350\|-\|370\|km/h\|mph\|0\|abbr=on}}		\| maxspeed = ''Planned in tests/design'':<br/>{{convert\|430\|km/h\|mph\|0\|abbr=on}}<br/>''Planned in service (KTX-III)'':<br/>{{convert\|350\|-\|370\|km/h\|mph\|0\|abbr=on}}
	\| weight = ]: max. {{Convert\|14\|t\|ST LT\|abbr=on\|lk=on\|1}}<ref name="plans2010"/>		\| weight = ]: max. {{Convert\|14\|t\|ST LT\|abbr=on\|lk=on\|1}}<ref name="plans2010"/>
	\| acceleration = {{Convert\|0.5\|m/s2\|km/h/s\|abbr=on}} up to {{convert\|150\|km/h\|mph\|0\|abbr=on}}<ref name="plans2010"/><br/>0 to...		\| acceleration = {{Convert\|0.5\|m/s2\|km/h/s\|abbr=on}} up to {{convert\|150\|km/h\|mph\|0\|abbr=on}}<ref name="plans2010"/><br/>0 to...
	* {{convert\|300\|km/h\|mph\|0\|abbr=on}}: 230 s and {{convert\|11.67\|km\|mi\|abbr=on}}<ref name="plans2010"/>		* {{convert\|300\|km/h\|mph\|0\|abbr=on}}: 230 s and {{convert\|11.67\|km\|mi\|abbr=on}}<ref name="plans2010"/>
	* {{convert\|0\|to\|350\|km/h\|mph\|0\|abbr=on}} in 346 s and {{convert\|22.27\|km\|mi\|abbr=on}}<ref name="plans2010"/>		* {{convert\|0\|to\|350\|km/h\|mph\|0\|abbr=on}} in 346 s and {{convert\|22.27\|km\|mi\|abbr=on}}<ref name="plans2010"/>
	* {{convert\|0\|to\|400\|km/h\|mph\|0\|abbr=on}} in 673 s and {{convert\|56.98\|km\|mi\|abbr=on}}<ref name="plans2010"/>		* {{convert\|0\|to\|400\|km/h\|mph\|0\|abbr=on}} in 673 s and {{convert\|56.98\|km\|mi\|abbr=on}}<ref name="plans2010"/>
	\| deceleration =		\| deceleration =
	\| traction = 18 three-phase asynchronous ]s and permanent magnet ]s<br/>]-based ] ]s<ref name="plans2010"/>		\| traction = 18 three-phase asynchronous ]s and permanent magnet ]s<br/>]-based ] ]s<ref name="plans2010"/>
	\| poweroutput = 20 x {{Convert\|410\|kW\|abbr=on}} ({{Convert\|8.2\|MW\|disp=or\|abbr=on}})		\| poweroutput = 20 x {{Convert\|410\|kW\|abbr=on}} ({{Convert\|8.2\|MW\|disp=or\|abbr=on}})
	\| aux =		\| aux =
	\| hvac =		\| hvac =
	\| powersupply =		\| powersupply =
	\| electricsystem = ] ]<ref name="plans2010"/>		\| electricsystem = ] ]<ref name="plans2010"/>
	\| collectionmethod = ]<ref name="plans2010"/>		\| collectionmethod = ]<ref name="plans2010"/>
	\| uicclass = 2'2' + Bo'Bo' + Bo'Bo' + Bo'Bo' + Bo'Bo' + Bo'Bo'		\| uicclass = 2'2' + Bo'Bo' + Bo'Bo' + Bo'Bo' + Bo'Bo' + Bo'Bo'
	\| bogies =		\| bogies =
	\| brakes = Eddy current, regenerative, rheostatic, disc		\| brakes = Eddy current, regenerative, rheostatic, disc
	\| safety = ], ATP, ATC		\| safety = ], ATP, ATC
	\| coupling =		\| coupling =
	\| multipleworking = Yes<ref name="plans2010"/>		\| multipleworking = Yes<ref name="plans2010"/>
	\| gauge = {{RailGauge\|sg\|allk=on}}		\| gauge = {{RailGauge\|sg\|allk=on}}
	}}		}}
	]		]
	'''HEMU-430X''' (standing for '''High-Speed Electric Multiple Unit 430 km/h eXperimental''') is a South Korean ] intended for a maximum speed of {{convert\|430\|km/h\|mph\|0\|abbr=on}}. On ~~March~~ 31, 2013, it achieved 421.4~~ ~~km/h in a test run, making South Korea the world's fourth country after ], ] and ] to develop a high-speed train running above 420~~ ~~km/h.<ref>{{cite web\|url=http://news.naver.com/main/read.nhn?mode=LSD&mid=sec&sid1=103&oid=001&aid=0006179734\|title=차세대 고속열차 최고시속 ~~421㎞~~ 기록}}</ref> The main new feature of the train compared to older South Korean high-speed trains is ]. The commercial versions of the trains, tentatively named the ] and ], ~~will~~ be delivered to ] in 2020-2021.		'''HEMU-430X''' (standing for '''High-Speed Electric Multiple Unit 430 km/h eXperimental''') is a South Korean ] intended for a maximum speed of {{convert\|430\|km/h\|mph\|0\|abbr=on}}. On 31 March 2013, it achieved {{Convert\|421.4\|km/h\|mph\|abbr=on\|}} in a test run, making South Korea the world's fourth country after ], ] and ] to develop a high-speed train running above {{Convert\|420\|km/h\|mph\|abbr=on\|0}}.<ref>{{cite web\|url=http://news.naver.com/main/read.nhn?mode=LSD&mid=sec&sid1=103&oid=001&aid=0006179734\|title=차세대 고속열차 최고시속 421km 기록}}</ref> The main new feature of the train compared to older South Korean high-speed trains is ]. The commercial versions of the trains, tentatively named the ] (as of October 2022, officially "Eum") and ] (as of April 2024, officially "Cheongryong"), were delivered to ] from 2020 to 2021.

	==History==		==History==

	The original 1991 plan for the ] (KTX) high-speed rail system foresaw an operating speed of {{Convert\|350\|km/h\|mph\|abbr=on\|0}} to enable a travel time under two hours between ] in the northwest and ] in the southeast of South Korea, the termini of the first line.<ref name="EffectofHSR2008">{{cite journal \|last1=Cho \|first1=Nam-Geon \|last2=Chung \|first2=Jin-Kyu \|title=High Speed Rail Construction of Korea and Its Impact \|journal=KRIHS Special Report Series \|volume=12 \|year=2008 \|publisher=Korea Research Institute for Human Settlements \|url=http://168.126.177.50/pub/docu/en/AD/ZA/ADZA2008AAN/ADZA-2008-AAN.PDF \|access-date=November ~~14,~~ 2010 \|url-status=dead \|archive-url=https://web.archive.org/web/20110529073047/http://168.126.177.50/pub/docu/en/AD/ZA/ADZA2008AAN/ADZA-2008-AAN.PDF \|archive-date=May ~~29,~~ 2011 }}</ref> Later, planned top speed was reduced to the {{Convert\|300\|km/h\|mph\|abbr=on\|0}} maximum of existing high-speed trains on the market.<ref name="EffectofHSR2008"/> Korail then ordered high-speed trains on the basis of ]'s ], the ], which started KTX service on April 1, 2004,<ref name="s2">{{cite web \|url=http://www.sncf-international.net/upl/file/FP_Coree-du-Sud_GB.pdf \|title=SNCF International in South Korea \|date=May 2008 \|publisher=SNCF \|access-date=August ~~27,~~ 2010 \|url-status=dead \|archive-url=https://web.archive.org/web/20110724071143/http://www.sncf-international.net/upl/file/FP_Coree-du-Sud_GB.pdf \|archive-date=July ~~24,~~ 2011 }}</ref> and operate at a top speed increased slightly to {{Convert\|305\|km/h\|mph\|abbr=on\|0}} in November 2007.<ref name="jai-305">{{cite news \|url=http://article.joinsmsn.com/news/article/article.asp?ctg=12&Total_ID=3393794 \|title=KTX 속도 시속 5km 빨라진다 \|language=ko \|date=November ~~26,~~ 2008 \|newspaper=] \|access-date=November 5, 2010 \|url-status=~~dead~~ \|archive-url=https://web.archive.org/web/20110713120520/http://article.joinsmsn.com/news/article/article.asp?ctg=12&Total_ID=3393794 \|archive-date=July ~~13,~~ 2011 }}</ref>		The original 1991 plan for the ] (KTX) high-speed rail system foresaw an operating speed of {{Convert\|350\|km/h\|mph\|abbr=on\|0}} to enable a travel time under two hours between ] in the northwest and ] in the southeast of South Korea, the termini of the first line.<ref name="EffectofHSR2008">{{cite journal \|last1=Cho \|first1=Nam-Geon \|last2=Chung \|first2=Jin-Kyu \|title=High Speed Rail Construction of Korea and Its Impact \|journal=KRIHS Special Report Series \|volume=12 \|year=2008 \|publisher=Korea Research Institute for Human Settlements \|url=http://168.126.177.50/pub/docu/en/AD/ZA/ADZA2008AAN/ADZA-2008-AAN.PDF \|access-date=14 November 2010 \|url-status=dead \|archive-url=https://web.archive.org/web/20110529073047/http://168.126.177.50/pub/docu/en/AD/ZA/ADZA2008AAN/ADZA-2008-AAN.PDF \|archive-date=29 May 2011 }}</ref> Later, planned top speed was reduced to the {{Convert\|300\|km/h\|mph\|abbr=on\|0}} maximum of existing high-speed trains on the market.<ref name="EffectofHSR2008"/> Korail then ordered high-speed trains on the basis of ]'s ], the ], which started KTX service on 1 April 2004,<ref name="s2">{{cite web \|url=http://www.sncf-international.net/upl/file/FP_Coree-du-Sud_GB.pdf \|title=SNCF International in South Korea \|date=May 2008 \|publisher=SNCF \|access-date=27 August 2010 \|url-status=dead \|archive-url=https://web.archive.org/web/20110724071143/http://www.sncf-international.net/upl/file/FP_Coree-du-Sud_GB.pdf \|archive-date=24 July 2011 }}</ref> and operate at a top speed increased slightly to {{Convert\|305\|km/h\|mph\|abbr=on\|0}} in November 2007.<ref name="jai-305">{{cite news \|url=http://article.joinsmsn.com/news/article/article.asp?ctg=12&Total_ID=3393794 \|title=KTX 속도 시속 5km 빨라진다 \|language=ko \|date=26 November 2008 \|newspaper=] \|access-date=5 November 2010 \|url-status=usurped \|archive-url=https://web.archive.org/web/20110713120520/http://article.joinsmsn.com/news/article/article.asp?ctg=12&Total_ID=3393794 \|archive-date=13 July 2011 }}</ref>

	In a project South Korean government research institutes and rail industry companies ~~launched~~ in 1996 to fully localise high-speed rail technology, ~~the~~ know-how gained in the technology transfer for the KTX-I was used as the basis to develop the experimental train ],<ref name="G7projectorigins">{{cite journal \|last1=Lee \|first1=Hisung \|last2=Moon \|first2=Dae-Seop \|title=Next Generation of Korea Train Express (KTX): Prospect and Strategies \|journal=Proceedings of the Eastern Asia Society for Transportation Studies \|volume=5 \|pages=255–262 \|year=2005 \|url=http://www.easts.info/on-line/proceedings_05/255.pdf \|~~accessdate~~=~~September~~ 1, 2010}}</ref> which was to be tested at up to {{Convert\|385\|km/h\|mph\|abbr=on\|0}} so that the commercial version ~~can~~ have a top speed of {{Convert\|350\|km/h\|mph\|abbr=on\|0}}.<ref name="irj-kim">{{cite journal \|last=Kim \|first=Kihwan \|url=http://www.nxtbook.com/nxtbooks/sb/irj0508/index.php?startid=35 \|title=Korea develops high-speed ambitions \|pages=35–36 \|date=May 2008 \|journal=] \|~~accessdate~~=~~November~~ 4, 2010}}</ref> However, the maximum speed achieved in the HSR-350x tests was {{Convert\|352.4\|km/h\|mph\|abbr=on}} on December ~~16,~~ 2004;<ref>{{cite journal \|url=http://www.irail.net/webzine/krt/20070802/14944_cf_171_KRT_1.pdf \|title=Trans-Korean Railway \|journal=Korean Rail Technology \|volume=1 \|pages=4–5 \|date=May–June 2005 \|~~accessdate~~=~~November~~ 4, 2010}}</ref> and the design and top speeds of the commercial version, the ] (KTX-Sancheon) were set to be the same as those for the KTX-I.<ref name="5years">{{cite web \|url=http://www.railsafety.or.kr/web/FileDownload.do?file=/por/jsp/admin/board/PORAdminBoardR.jsp/KTX_%EA%B0%9C%ED%86%B5_5%EC%A3%BC%EB%85%84_%ED%94%84%EB%A0%88%EC%8A%A4%ED%82%B7.hwp \|title=KTX 개통 5주년 보도자료 \|language=ko \|date=April 1, 2009 \|publisher=Rail Safety Information System \|archive-url=~~http~~://~~webcache~~.~~googleusercontent~~.~~com~~/~~search?q=cache:bZP-jjME4i0J~~:www.railsafety.or.kr/web/FileDownload.do%~~3Ffile~~%~~3D/por/jsp/admin/board/PORAdminBoardR~~.jsp~~/KTX_~~%EA%B0%9C%ED%86%B5_5%EC%A3%BC%EB%85%84_%ED%94%84%EB%A0%88%EC%8A%A4%ED%82%B7.hwp \|archive-date=~~November~~ ~~11,~~ ~~2010~~ \|~~accessdate~~=~~November~~ 13, 2010}}</ref>		In a project, South Korean government research institutes and rail industry companies were directed in 1996 to fully localise high-speed rail technology. The know-how gained in the technology transfer for the KTX-I was used as the basis to develop the experimental train ],<ref name="G7projectorigins">{{cite journal \|last1=Lee \|first1=Hisung \|last2=Moon \|first2=Dae-Seop \|title=Next Generation of Korea Train Express (KTX): Prospect and Strategies \|journal=Proceedings of the Eastern Asia Society for Transportation Studies \|volume=5 \|pages=255–262 \|year=2005 \|url=http://www.easts.info/on-line/proceedings_05/255.pdf \|access-date=1 September 2010}}</ref> which was to be tested at up to {{Convert\|385\|km/h\|mph\|abbr=on\|0}} so that the commercial version could have a top speed of {{Convert\|350\|km/h\|mph\|abbr=on\|0}}.<ref name="irj-kim">{{cite journal \|last=Kim \|first=Kihwan \|url=http://www.nxtbook.com/nxtbooks/sb/irj0508/index.php?startid=35 \|title=Korea develops high-speed ambitions \|pages=35–36 \|date=May 2008 \|journal=] \|access-date=4 November 2010}}</ref> However, the maximum speed achieved in the HSR-350x tests was {{Convert\|352.4\|km/h\|mph\|abbr=on}} on 16 December 2004;<ref>{{cite journal \|url=http://www.irail.net/webzine/krt/20070802/14944_cf_171_KRT_1.pdf \|archive-url=https://web.archive.org/web/20160406153231/http://www.irail.net/webzine/krt/20070802/14944_cf_171_KRT_1.pdf \|url-status=usurped \|archive-date=6 April 2016 \|title=Trans-Korean Railway \|journal=Korean Rail Technology \|volume=1 \|pages=4–5 \|date=May–June 2005 \|access-date=4 November 2010}}</ref> and the design and top speeds of the commercial version, the ] (KTX-Sancheon) were set to be the same as those for the KTX-I.<ref name="5years">{{cite web \|url=http://www.railsafety.or.kr/web/FileDownload.do?file=/por/jsp/admin/board/PORAdminBoardR.jsp/KTX_%EA%B0%9C%ED%86%B5_5%EC%A3%BC%EB%85%84_%ED%94%84%EB%A0%88%EC%8A%A4%ED%82%B7.hwp \|title=KTX 개통 5주년 보도자료 \|language=ko \|date=1 April 2009 \|publisher=Rail Safety Information System \|archive-url=https://web.archive.org/web/20110722141402/http://www.railsafety.or.kr/web/FileDownload.do?file=%2Fpor%2Fjsp%2Fadmin%2Fboard%2FPORAdminBoardR.jsp%2FKTX_%EA%B0%9C%ED%86%B5_5%EC%A3%BC%EB%85%84_%ED%94%84%EB%A0%88%EC%8A%A4%ED%82%B7.hwp \|archive-date=22 July 2011 \|access-date=13 November 2010 \|url-status=dead }}</ref>

	The aim to develop commercial trains with a top speed of {{Convert\|350\|km/h\|mph\|abbr=on\|0}} was taken up again in the project to build another experimental train, the HEMU-400X (''H''igh-speed ''E''lectric ''M''ultiple ''U''nit - ''400'' km/h e''X''periment), which was launched in July 2007.<ref name="HEMU400announce">{{cite web \|url=http://hispeedtrain.re.kr/board/?id=prboard&idx=9 \|title=400 km/h High-Speed Train to be Unveiled by 2012 \|date=September ~~21,~~ 2009 \|publisher=Next-Generation High-speed Rail Technology Center \|access-date=August ~~28,~~ 2010 \|url-status=dead \|archive-url=https://web.archive.org/web/20110722141534/http://hispeedtrain.re.kr/board/?id=prboard&idx=9 \|archive-date=July ~~22,~~ 2011 }}</ref> The six-year project schedule was originally set to last until July 2013, and involved {{Convert\|100000\|km\|mi\|abbr=on}} of test runs with speeds reaching {{Convert\|400\|km/h\|mph\|abbr=on\|0}}.<ref name="irail_2009-2">{{cite journal \|url=http://www.irail.net/webzine/y2009/1_2/preface/20090320/1_17299.html \|title=최고시험속도 400km/h 동력분산식 차세대 고속열차 개발(HEMU-400X) \|language=ko \|date=January–February 2009 \|journal=Korean Rail Technology \|~~accessdate~~=~~November~~ 13, 2010}}</ref><ref name="HEMU400X">{{cite web \|url=http://hispeedtrain.re.kr/eng/project/01_overview.asp \|title=Project Overview \|publisher=Next-Generation High-speed Rail Technology Center \|access-date=September 1, 2010 \|url-status=dead \|archive-url=https://web.archive.org/web/20110722142234/http://hispeedtrain.re.kr/eng/project/01_overview.asp \|archive-date=July ~~22,~~ 2011 }}</ref> The project is led by the Korean Railroad Research Institute (KRRI) and ], and also involves the Korea Institute of Construction & Transportation Evaluation and Planning (KICTEP),<ref name="HEMU400announce"/> 20 other companies, 13 universities, and one other organisation.<ref name="irail_2009-2"/> The project budget was set at 97.11 billion ], with a government contribution of 69.2 billion won.<ref name="irail_2009-2"/>		The aim to develop commercial trains with a top speed of {{Convert\|350\|km/h\|mph\|abbr=on\|0}} was taken up again in the project to build another experimental train, the HEMU-400X (''H''igh-speed ''E''lectric ''M''ultiple ''U''nit - ''400'' km/h e''X''periment), which was launched in July 2007.<ref name="HEMU400announce">{{cite web \|url=http://hispeedtrain.re.kr/board/?id=prboard&idx=9 \|title=400 km/h High-Speed Train to be Unveiled by 2012 \|date=21 September 2009 \|publisher=Next-Generation High-speed Rail Technology Center \|access-date=28 August 2010 \|url-status=dead \|archive-url=https://web.archive.org/web/20110722141534/http://hispeedtrain.re.kr/board/?id=prboard&idx=9 \|archive-date=22 July 2011 }}</ref> The six-year project schedule was originally set to last until July 2013, and involved {{Convert\|100000\|km\|mi\|abbr=on}} of test runs with speeds reaching {{Convert\|400\|km/h\|mph\|abbr=on\|0}}.<ref name="irail_2009-2">{{cite journal \|url=http://www.irail.net/webzine/y2009/1_2/preface/20090320/1_17299.html \|title=최고시험속도 400km/h 동력분산식 차세대 고속열차 개발(HEMU-400X) \|language=ko \|date=January–February 2009 \|journal=Korean Rail Technology \|access-date=13 November 2010 \|archive-date=14 December 2019 \|archive-url=https://web.archive.org/web/20191214022025/http://www.irail.net/webzine/y2009/1_2/preface/20090320/1_17299.html \|url-status=usurped }}</ref><ref name="HEMU400X">{{cite web \|url=http://hispeedtrain.re.kr/eng/project/01_overview.asp \|title=Project Overview \|publisher=Next-Generation High-speed Rail Technology Center \|access-date=1 September 2010 \|url-status=dead \|archive-url=https://web.archive.org/web/20110722142234/http://hispeedtrain.re.kr/eng/project/01_overview.asp \|archive-date=22 July 2011 }}</ref> The project is led by the Korean Railroad Research Institute (KRRI) and ], and also involves the Korea Institute of Construction & Transportation Evaluation and Planning (KICTEP),<ref name="HEMU400announce"/> 20 other companies, 13 universities, and one other organisation.<ref name="irail_2009-2"/> The project budget was set at 97.11 billion ], with a government contribution of 69.2 billion won.<ref name="irail_2009-2"/>

	Following a call by Nam-Hee Chae, the president of the Korea Railroad Research Institute, for proposals for a generic name for Korean-made high-speed trains,<ref name="name-needed">{{cite web \|url=http://www.krri.re.kr/krri_2008/news/news/20060504/1_12780.html \|title=HSR350x looking out for name \|date=~~May~~ 4, 2006 \|publisher=KRRI \|~~accessdate~~=~~November~~ 21, 2010}}</ref> on April 5, 2007, Chae announced the name '''Hanvit''' (]: 한빛),<ref name="Hanvit">{{cite web \|url=http://chaenamhee.com/sub2/sub2_read.php?idx=8&page=&table=letter \|archive-url=https://web.archive.org/web/20110708133401/http://chaenamhee.com/sub2/sub2_read.php?idx=8&page=&table=letter \|url-status=dead \|archive-date=July 8, 2011 \|script-title=ko:한국형고속열차 네이밍 \|language=ko \|date=April 5, 2007 \|publisher=Chae, Nam-Hee \|access-date=November ~~20,~~ 2010 }}</ref> which means a streak of intense light in ].<ref name="irj-kim"/> Under the new naming scheme, HEMU-400X is also called '''Hanvit 400'''.<ref name="Hanvit"/>		Following a call by Nam-Hee Chae, the president of the Korea Railroad Research Institute, for proposals for a generic name for Korean-made high-speed trains,<ref name="name-needed">{{cite web \|url=http://www.krri.re.kr/krri_2008/news/news/20060504/1_12780.html \|title=HSR350x looking out for name \|date=4 May 2006 \|publisher=KRRI \|access-date=21 November 2010}}</ref> on 5 April 2007, Chae announced the name '''Hanvit''' (]: 한빛),<ref name="Hanvit">{{cite web \|url=http://chaenamhee.com/sub2/sub2_read.php?idx=8&page=&table=letter \|archive-url=https://web.archive.org/web/20110708133401/http://chaenamhee.com/sub2/sub2_read.php?idx=8&page=&table=letter \|url-status=dead \|archive-date=8 July 2011 \|script-title=ko:한국형고속열차 네이밍 \|language=ko \|date=5 April 2007 \|publisher=Chae, Nam-Hee \|access-date=20 November 2010 }}</ref> which means a streak of intense light in ].<ref name="irj-kim"/> Under the new naming scheme, HEMU-400X is also called '''Hanvit 400'''.<ref name="Hanvit"/>

	The preliminary design was presented to the public in May 2009.<ref name="tci-ktx3"/> A full-scale mock-up of an end car was first shown in June 2009 at the RailLog 2009 exhibition in Busan.<ref>{{cite web \|url=http://www.hyundai-rotem.co.kr/Common/uFileDownload.asp?Idx=12&Fgbn=1&Brd=EngWebzine \|title=Korean high-speed train business team visits Brazil \|work=Newsletter \|date=August 2009 \|publisher=Hyundai Rotem \|~~accessdate~~=~~November~~ 24, 2010}}</ref> Detailed designs were presented in October 2010,<ref name="plans2010">{{cite web \|url=http://dasan.kofst.or.kr/engineering/reference/session%203/04/DSEX_2010_10_22_HSR%20Presentation%20by%20Hyundai%20rotem.ppt \|archive-url=https://web.archive.org/web/20110722141257/http://dasan.kofst.or.kr/engineering/reference/session%203/04/DSEX_2010_10_22_HSR%20Presentation%20by%20Hyundai%20rotem.ppt \|url-status=dead \|archive-date=July ~~22,~~ 2011 \|title=High Speed Trains \|date=October 2010 \|publisher=Hyundai Rotem \|access-date=November ~~23,~~ 2010 }}</ref> when the prototype was expected to be completed in 2011 and start line tests in 2012.<ref>{{cite magazine \|url=http://www.railwaygazette.com/nc/news/single-view/view/hemu-400x-to-roll-in-2011.html \|title=Korea's HEMU-400X high speed train to roll in 2011 \|date=~~October~~ 27, 2010 \|magazine=] \|~~accessdate~~=October ~~30,~~ 2010}}</ref>		The preliminary design was presented to the public in May 2009.<ref name="tci-ktx3"/> A full-scale mock-up of an end car was first shown in June 2009 at the RailLog 2009 exhibition in Busan.<ref>{{cite web \|url=http://www.hyundai-rotem.co.kr/Common/uFileDownload.asp?Idx=12&Fgbn=1&Brd=EngWebzine \|title=Korean high-speed train business team visits Brazil \|work=Newsletter \|date=August 2009 \|publisher=Hyundai Rotem \|access-date=24 November 2010}}</ref> Detailed designs were presented in October 2010,<ref name="plans2010">{{cite web \|url=http://dasan.kofst.or.kr/engineering/reference/session%203/04/DSEX_2010_10_22_HSR%20Presentation%20by%20Hyundai%20rotem.ppt \|archive-url=https://web.archive.org/web/20110722141257/http://dasan.kofst.or.kr/engineering/reference/session%203/04/DSEX_2010_10_22_HSR%20Presentation%20by%20Hyundai%20rotem.ppt \|url-status=dead \|archive-date=22 July 2011 \|title=High Speed Trains \|date=October 2010 \|publisher=Hyundai Rotem \|access-date=23 November 2010 }}</ref> when the prototype was expected to be completed in 2011 and start line tests in 2012.<ref>{{cite magazine \|url=http://www.railwaygazette.com/nc/news/single-view/view/hemu-400x-to-roll-in-2011.html \|title=Korea's HEMU-400X high speed train to roll in 2011 \|date=27 October 2010 \|magazine=] \|access-date=30 October 2010 \|archive-date=31 October 2010 \|archive-url=https://web.archive.org/web/20101031133127/http://www.railwaygazette.com/nc/news/single-view/view/hemu-400x-to-roll-in-2011.html \|url-status=dead }}</ref>

	===HEMU-430X prototype===		===HEMU-430X prototype===
	A prototype, named HEMU-430X was unveiled in May 2012. The unit is expected to undergo around 100,000 km of testing up to 2015.<ref>{{citation\| url = http://www.railwaygazette.com/nc/news/single-view/view/experimental-430-kmh-high-speed-train-unveiled.html\| title = Experimental 430 km/h high speed train unveiled\| date = ~~May~~ 18, 2012\| work = www.railwaygazette.com}}</ref>		A prototype named HEMU-430X was unveiled in May 2012. The unit is expected to undergo around 100,000 km of testing up to 2015.<ref>{{citation\| url = http://www.railwaygazette.com/nc/news/single-view/view/experimental-430-kmh-high-speed-train-unveiled.html\| title = Experimental 430 km/h high speed train unveiled\| date = 18 May 2012\| work = www.railwaygazette.com\| access-date = 21 May 2012\| archive-date = 21 May 2012\| archive-url = https://web.archive.org/web/20120521123055/http://www.railwaygazette.com/nc/news/single-view/view/experimental-430-kmh-high-speed-train-unveiled.html\| url-status = dead}}</ref>

	==Technical details==		==Technical details==

	In contrast to the articulated passenger coaches between traction heads configuration of the KTX-I, HSR-350x and KTX-II trains, the 6-car HEMU-400X is fitted with distributed traction: traction equipment is underfloor and all axles of all four intermediate cars are powered.<ref name="HEMU400X2">{{cite web \|url=http://hispeedtrain.re.kr/eng/project/06_project03.asp \|title=Development of EMU prototype train technology (II-1) \|publisher=Next-Generation High-speed Rail Technology Center \|access-date=~~September~~ 1, 2010 \|url-status=dead \|archive-url=https://archive.is/20130112101302/http://hispeedtrain.re.kr/eng/project/06_project03.asp \|archive-date=~~January~~ 12, 2013 }}</ref> The detailed plans released in October 2010 changed the trailing end driving trailer of the experimental train into a powered car, deviating from the planned commercial version.<ref name="plans2010"/> The new high-power configuration is to provide for higher acceleration:<ref name="irail_2009-2"/> the 8-car commercial configuration was calculated to reach {{Convert\|300\|km/h\|mph\|abbr=on\|0}} in less than four minutes and less than {{Convert\|12\|km\|mi}}; the top test speed of {{Convert\|400\|km/h\|mph\|abbr=on\|0}} is to be reached in 673 seconds and {{Convert\|56.98\|km\|mi}}.<ref name="plans2010"/> Similarly to ]'s ] programme, the plan is to develop and test both asynchronous ]s and permanent magnet ]s in the train.<ref name="irail_2009-2"/>		In contrast to the articulated passenger coaches between traction heads configuration of the KTX-I, HSR-350x and KTX-II trains, the 6-car HEMU-400X is fitted with distributed traction: traction equipment is underfloor and all axles of all four intermediate cars are powered.<ref name="HEMU400X2">{{cite web \|url=http://hispeedtrain.re.kr/eng/project/06_project03.asp \|title=Development of EMU prototype train technology (II-1) \|publisher=Next-Generation High-speed Rail Technology Center \|access-date=1 September 2010 \|url-status=dead \|archive-url=https://archive.today/20130112101302/http://hispeedtrain.re.kr/eng/project/06_project03.asp \|archive-date=12 January 2013 }}</ref> The detailed plans released in October 2010 changed the trailing end driving trailer of the experimental train into a powered car, deviating from the planned commercial version.<ref name="plans2010"/> The new high-power configuration is to provide for higher acceleration:<ref name="irail_2009-2"/> the 8-car commercial configuration was calculated to reach {{Convert\|300\|km/h\|mph\|abbr=on\|0}} in less than four minutes and less than {{Convert\|12\|km\|mi}}; the top test speed of {{Convert\|400\|km/h\|mph\|abbr=on\|0}} is to be reached in 673 seconds and {{Convert\|56.98\|km\|mi}}.<ref name="plans2010"/> Similarly to ]'s ] programme, the plan is to develop and test both asynchronous ]s and permanent magnet ]s in the train.<ref name="irail_2009-2"/>

	Research in the G7 programme showed that the bulk of the longitudinal aerodynamic resistance (]) of the ] and the largest component of vertical aerodynamic forces (]) acting on it derive from the contact shoe.<ref name="panto">{{cite book \|first1=Yeongbin \|last1=Lee \|first2=Joohyun \|last2=Rho \|first3=Minho \|last3=Kwak \|first4=Jaeho \|last4=Lee \|first5=Kyuhong \|last5=Kim \|first6=Dongho \|last6=Lee \|chapter=Aerodynamic Characteristics of High Speed Train Pantograph with the Optimized Panhead Shape \|title=Proceedings of the 7th IASME/WSEAS International Conference on Fluid Mechanics and Aerodynamics \|pages=84–88 \|year=2009 \|chapter-url=http://www.wseas.us/e-library/conferences/2009/moscow/FMA/FMA11.pdf \|~~accessdate~~=~~February~~ 16, 2011}}</ref> For the HEMU-400X, researchers developed an aerodynamically optimised contact shoe cross section that reduced drag by about 40% and lift amplitude by about 25% in comparison to the contact shoe of the KTX-II pantographs.<ref name="panto"/>		Research in the G7 programme showed that the bulk of the longitudinal aerodynamic resistance (]) of the ] and the largest component of vertical aerodynamic forces (]) acting on it derive from the contact shoe.<ref name="panto">{{cite book \|first1=Yeongbin \|last1=Lee \|first2=Joohyun \|last2=Rho \|first3=Minho \|last3=Kwak \|first4=Jaeho \|last4=Lee \|first5=Kyuhong \|last5=Kim \|first6=Dongho \|last6=Lee \|chapter=Aerodynamic Characteristics of High Speed Train Pantograph with the Optimized Panhead Shape \|title=Proceedings of the 7th IASME/WSEAS International Conference on Fluid Mechanics and Aerodynamics \|pages=84–88 \|year=2009 \|chapter-url=http://www.wseas.us/e-library/conferences/2009/moscow/FMA/FMA11.pdf \|access-date=16 February 2011}}</ref> For the HEMU-400X, researchers developed an aerodynamically optimised contact shoe cross section that reduced drag by about 40% and lift amplitude by about 25% in comparison to the contact shoe of the KTX-II pantographs.<ref name="panto"/>

	The train is designed with active suspension for increased ride comfort.<ref name="irail_2009-2"/> To save weight, in addition to ~~aluminum~~, composite materials are to be used in the carbody.<ref name="irail_2009-2"/> The development of new transformers, batteries and a number of other electric system components also focuses on reducing weight and size.<ref name="irail_2009-2"/> The train is also intended as basis for Rotem to compete in high-speed train tenders abroad, and is designed to conform with ] standards.<ref name="irail_2009-2"/>		The train is designed with active suspension for increased ride comfort.<ref name="irail_2009-2"/> To save weight, in addition to aluminium, composite materials are to be used in the carbody.<ref name="irail_2009-2"/> The development of new transformers, batteries and a number of other electric system components also focuses on reducing weight and size.<ref name="irail_2009-2"/> The train is also intended as basis for Rotem to compete in high-speed train tenders abroad, and is designed to conform with ] standards.<ref name="irail_2009-2"/>

	Nose styling was designed using a ], starting with the hybridization of the nose shapes of existing French ] and German ] high-speed trains.<ref name="irail_2009-1">{{cite journal \|url=http://www.irail.net/webzine/y2009/1_2/preface/20090320/1_17298.html \|title=차세대 고속열차 HEMU-400X 차량 디자인 \|language=ko \|date=January–February 2009 \|journal=Korean Rail Technology \|~~accessdate~~=~~November~~ 13, 2010}}</ref> A double-deck configuration was also considered.<ref name="irail_2009-1"/>		Nose styling was designed using a ], starting with the hybridization of the nose shapes of existing French ] and German ] high-speed trains.<ref name="irail_2009-1">{{cite journal \|url=http://www.irail.net/webzine/y2009/1_2/preface/20090320/1_17298.html \|title=차세대 고속열차 HEMU-400X 차량 디자인 \|language=ko \|date=January–February 2009 \|journal=Korean Rail Technology \|access-date=13 November 2010 \|archive-date=31 December 2019 \|archive-url=https://web.archive.org/web/20191231085025/http://www.irail.net/webzine/y2009/1_2/preface/20090320/1_17298.html \|url-status=usurped }}</ref> A double-deck configuration was also considered.<ref name="irail_2009-1"/>

	In the experimental train, the first two cars will test first class seating, the fourth car will be fitted out with a bar and special passenger compartments, the fifth car will test standard class seating.<ref name="plans2010"/> Data acquisition equipment for the on-board measurements are foreseen in the third and sixth cars.<ref name="plans2010"/>		In the experimental train, the first two cars will test first class seating, the fourth car will be fitted out with a bar and special passenger compartments, the fifth car will test standard class seating.<ref name="plans2010"/> Data acquisition equipment for the on-board measurements are foreseen in the third and sixth cars.<ref name="plans2010"/>

	==Commercial version (EMU-260/320)==		==Commercial version (EMU-260/320)==
	{{Main\|~~EMU~~-~~260~~\|~~EMU~~-~~320~~}}		{{Main\|KTX-Eum\|KTX-Cheongryong}}

	'''EMU-260/320''', formerly known as '''KTX-III''', is the commercial derivative of HEMU-400X {{~~citation_needed~~\|~~reason~~=~~Which~~ ~~sources~~ ~~mentioned~~ ~~that~~ ~~EMU~~ ~~250/320 is the~~ new ~~name for KTX~~-~~III~~\|date=~~August 2020~~}}. It is expected to enter service in late 2020 or early 2021.<ref name="tci-ktx3">{{cite news \|url=http://news.chosun.com/site/data/html_dir/2009/06/09/2009060901651.html \|title= KTX 진화를 거듭하다 \|language=ko \|date=~~June~~ 9, 2009 \|newspaper=] \|~~accessdate~~=~~September~~ 2, 2010}}</ref> According to the ~~initially~~ information, In normal 8-car, {{Convert\|197.6\|m\|ft\|abbr=on}} configuration, KTX-III would consist of two driving trailers at either end and six motorized intermediate cars giving 9.84 MW of power,<ref name="plans2010"/> with an option of extension to 10 cars.<ref name="tci-ktx3"/> The second, fourth and seventh cars will house ]s, each connected to inverter groups on the neighbouring third, fifth, respective sixth car.<ref name="plans2010"/> The end cars will house the batteries, while pantographs will be installed on the extreme intermediate cars.<ref name="plans2010"/>		'''EMU-260/320''', formerly known as '''KTX-III''', is the commercial derivative of HEMU-400X .<ref>{{Cite news\|last=Cuenca\|first=Oliver\|date=2021-01-05\|title=Korail launches new high-speed trains\|work=International Railway Journal\|url=https://www.railjournal.com/fleet/korail-launches-new-high-speed-trains/\|url-access=subscription\|access-date=2021-03-06}}</ref> It is expected to enter service in late 2020 or early 2021.<ref name="tci-ktx3">{{cite news \|url=http://news.chosun.com/site/data/html_dir/2009/06/09/2009060901651.html \|title= KTX 진화를 거듭하다 \|language=ko \|date=9 June 2009 \|newspaper=] \|access-date=2 September 2010 \|archive-date=13 August 2009 \|archive-url=https://web.archive.org/web/20090813054738/http://news.chosun.com/site/data/html_dir/2009/06/09/2009060901651.html \|url-status=dead }}</ref> According to the initial information, In normal 8-car, {{Convert\|197.6\|m\|ft\|abbr=on}} configuration, KTX-III would consist of two driving trailers at either end and six motorized intermediate cars giving 9.84 MW of power,<ref name="plans2010"/> with an option of extension to 10 cars.<ref name="tci-ktx3"/> The second, fourth and seventh cars will house ]s, each connected to inverter groups on the neighbouring third, fifth, respective sixth car.<ref name="plans2010"/> The end cars will house the batteries, while pantographs will be installed on the extreme intermediate cars.<ref name="plans2010"/>

	The goal for maximum operating speed was originally {{Convert\|350\|km/h\|mph\|abbr=on\|0}}, which was expected to enable Seoul-Busan travel times of 1 hour 50 minutes.<ref name="tci-ktx3"/> In plans released on October 2010, planned service speed was raised to {{Convert\|370\|km/h\|mph\|abbr=on\|0}}.<ref name="plans2010"/> In the default configuration, the first two cars will be first class with 2+1 seating, the third car will house a bar and special passenger compartments with facing pairs of 3 or 2 seats, the fourth to eighth cars will be standard class with "3" seating, with foldable seats offering altogether 378 seats.<ref name="plans2010"/>		The goal for maximum operating speed was originally {{Convert\|350\|km/h\|mph\|abbr=on\|0}}, which was expected to enable Seoul-Busan travel times of 1 hour 50 minutes.<ref name="tci-ktx3"/> In plans released in October 2010, planned service speed was raised to {{Convert\|370\|km/h\|mph\|abbr=on\|0}}.<ref name="plans2010"/> In the default configuration, the first two cars will be first class with 2+1 seating, the third car will house a bar and special passenger compartments with facing pairs of 3 or 2 seats, the fourth to eighth cars will be standard class with "3" seating, with foldable seats offering altogether 378 seats.<ref name="plans2010"/>

	In September 2016, the designs of the EMU-260 and EMU-320 were decided, and it was known that the EMU-260 and EMU-320 will share the same design but with different patterns {{~~citation_needed~~\|date=August 2020}}.		In September 2016, the designs of the EMU-260 and EMU-320 were decided, and it was known that the EMU-260 and EMU-320 will share the same design but with different patterns.{{citation needed\|date=August 2020}}

	In May 2017, the EMU-260's mock-up and interior design were released to the public, and public opinion on the mock-up and interior design was collected {{~~citation_needed~~\|date=August 2020}}.		In May 2017, the EMU-260's mock-up and interior design were released to the public, and public opinion on the mock-up and interior design was collected.{{citation needed\|date=August 2020}}

	The first EMU-260 was released in November 2019 ~~and~~ into trial operation {{citation_needed\|date=August 2020}}.		The first EMU-260 was released in November 2019 into trial operation.{{citation_needed\|date=August 2020}}

	==References==		==References==
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Latest revision as of 01:18, 21 December 2024

Experimental South Korean high-speed train

This article needs to be updated. Please help update this article to reflect recent events or newly available information. (October 2022)

HEMU-430X
HEMU-430X passing through Seodaejeon station.
Manufacturer	Hyundai Rotem
Family name	KTX
Constructed	2010–2011
Number built	1
Number in service	0
Formation	TC+4M+MC TC: trailer car (unpowered driving trailer) M: motorized intermediate car MC: motorized trailer car (powered driving trailer)
Operators	Korail
Depots	Osong
Lines served	Gyeongbu High Speed Railway Honam High Speed Railway
Specifications
Car body construction	Aluminium, composite
Train length	147.4 m (483 ft 7+1⁄8 in)
Car length	End cars: 23.5 m (77 ft 1+3⁄16 in) Intermediate cars: 25.1 m (82 ft 4+3⁄16 in)
Width	3,100 mm (10 ft 2+1⁄16 in)
Height	3,720 mm (12 ft 2+7⁄16 in)
Maximum speed	Planned in tests/design: 430 km/h (267 mph) Planned in service (KTX-III): 350–370 km/h (217–230 mph)
Weight	Axle load: max. 14 t (15.4 short tons; 13.8 long tons)
Traction system	18 three-phase asynchronous induction motors and permanent magnet synchronous motors IGBT-based VVVF inverters
Power output	20 x 410 kW (550 hp) (8.2 MW or 11,000 hp)
Acceleration	0.5 m/s (1.8 km/(h⋅s)) up to 150 km/h (93 mph) 0 to... 300 km/h (186 mph): 230 s and 11.67 km (7.25 mi) 0 to 350 km/h (0 to 217 mph) in 346 s and 22.27 km (13.84 mi) 0 to 400 km/h (0 to 249 mph) in 673 s and 56.98 km (35.41 mi)
Electric system(s)	25 kV/60 Hz AC overhead line
Current collector(s)	Pantograph
UIC classification	2'2' + Bo'Bo' + Bo'Bo' + Bo'Bo' + Bo'Bo' + Bo'Bo'
Braking system(s)	Eddy current, regenerative, rheostatic, disc
Safety system(s)	TVM 430, ATP, ATC
Multiple working	Yes
Track gauge	1,435 mm (4 ft 8+1⁄2 in) standard gauge

HEMU-430X (standing for High-Speed Electric Multiple Unit 430 km/h eXperimental) is a South Korean high-speed train intended for a maximum speed of 430 km/h (267 mph). On 31 March 2013, it achieved 421.4 km/h (261.8 mph) in a test run, making South Korea the world's fourth country after France, Japan and China to develop a high-speed train running above 420 km/h (261 mph). The main new feature of the train compared to older South Korean high-speed trains is distributed traction. The commercial versions of the trains, tentatively named the EMU-260 (as of October 2022, officially "Eum") and EMU-320 (as of April 2024, officially "Cheongryong"), were delivered to Korail from 2020 to 2021.

History

The original 1991 plan for the Korea Train Express (KTX) high-speed rail system foresaw an operating speed of 350 km/h (217 mph) to enable a travel time under two hours between Seoul in the northwest and Busan in the southeast of South Korea, the termini of the first line. Later, planned top speed was reduced to the 300 km/h (186 mph) maximum of existing high-speed trains on the market. Korail then ordered high-speed trains on the basis of Alstom's TGV Réseau, the KTX-I, which started KTX service on 1 April 2004, and operate at a top speed increased slightly to 305 km/h (190 mph) in November 2007.

In a project, South Korean government research institutes and rail industry companies were directed in 1996 to fully localise high-speed rail technology. The know-how gained in the technology transfer for the KTX-I was used as the basis to develop the experimental train HSR-350x, which was to be tested at up to 385 km/h (239 mph) so that the commercial version could have a top speed of 350 km/h (217 mph). However, the maximum speed achieved in the HSR-350x tests was 352.4 km/h (219.0 mph) on 16 December 2004; and the design and top speeds of the commercial version, the KTX-II (KTX-Sancheon) were set to be the same as those for the KTX-I.

The aim to develop commercial trains with a top speed of 350 km/h (217 mph) was taken up again in the project to build another experimental train, the HEMU-400X (High-speed Electric Multiple Unit - 400 km/h eXperiment), which was launched in July 2007. The six-year project schedule was originally set to last until July 2013, and involved 100,000 km (62,000 mi) of test runs with speeds reaching 400 km/h (249 mph). The project is led by the Korean Railroad Research Institute (KRRI) and Hyundai Rotem, and also involves the Korea Institute of Construction & Transportation Evaluation and Planning (KICTEP), 20 other companies, 13 universities, and one other organisation. The project budget was set at 97.11 billion won, with a government contribution of 69.2 billion won.

Following a call by Nam-Hee Chae, the president of the Korea Railroad Research Institute, for proposals for a generic name for Korean-made high-speed trains, on 5 April 2007, Chae announced the name Hanvit (Hangul: 한빛), which means a streak of intense light in Korean. Under the new naming scheme, HEMU-400X is also called Hanvit 400.

The preliminary design was presented to the public in May 2009. A full-scale mock-up of an end car was first shown in June 2009 at the RailLog 2009 exhibition in Busan. Detailed designs were presented in October 2010, when the prototype was expected to be completed in 2011 and start line tests in 2012.

HEMU-430X prototype

A prototype named HEMU-430X was unveiled in May 2012. The unit is expected to undergo around 100,000 km of testing up to 2015.

Technical details

In contrast to the articulated passenger coaches between traction heads configuration of the KTX-I, HSR-350x and KTX-II trains, the 6-car HEMU-400X is fitted with distributed traction: traction equipment is underfloor and all axles of all four intermediate cars are powered. The detailed plans released in October 2010 changed the trailing end driving trailer of the experimental train into a powered car, deviating from the planned commercial version. The new high-power configuration is to provide for higher acceleration: the 8-car commercial configuration was calculated to reach 300 km/h (186 mph) in less than four minutes and less than 12 kilometres (7.5 mi); the top test speed of 400 km/h (249 mph) is to be reached in 673 seconds and 56.98 kilometres (35.41 mi). Similarly to JR East's Fastech 360 programme, the plan is to develop and test both asynchronous induction motors and permanent magnet synchronous motors in the train.

Research in the G7 programme showed that the bulk of the longitudinal aerodynamic resistance (drag) of the pantograph and the largest component of vertical aerodynamic forces (lift) acting on it derive from the contact shoe. For the HEMU-400X, researchers developed an aerodynamically optimised contact shoe cross section that reduced drag by about 40% and lift amplitude by about 25% in comparison to the contact shoe of the KTX-II pantographs.

The train is designed with active suspension for increased ride comfort. To save weight, in addition to aluminium, composite materials are to be used in the carbody. The development of new transformers, batteries and a number of other electric system components also focuses on reducing weight and size. The train is also intended as basis for Rotem to compete in high-speed train tenders abroad, and is designed to conform with European high-speed rail standards.

Nose styling was designed using a genetic algorithm, starting with the hybridization of the nose shapes of existing French TGV and German ICE high-speed trains. A double-deck configuration was also considered.

In the experimental train, the first two cars will test first class seating, the fourth car will be fitted out with a bar and special passenger compartments, the fifth car will test standard class seating. Data acquisition equipment for the on-board measurements are foreseen in the third and sixth cars.

Commercial version (EMU-260/320)

Main articles: KTX-Eum and KTX-Cheongryong

EMU-260/320, formerly known as KTX-III, is the commercial derivative of HEMU-400X . It is expected to enter service in late 2020 or early 2021. According to the initial information, In normal 8-car, 197.6 m (648 ft) configuration, KTX-III would consist of two driving trailers at either end and six motorized intermediate cars giving 9.84 MW of power, with an option of extension to 10 cars. The second, fourth and seventh cars will house transformers, each connected to inverter groups on the neighbouring third, fifth, respective sixth car. The end cars will house the batteries, while pantographs will be installed on the extreme intermediate cars.

The goal for maximum operating speed was originally 350 km/h (217 mph), which was expected to enable Seoul-Busan travel times of 1 hour 50 minutes. In plans released in October 2010, planned service speed was raised to 370 km/h (230 mph). In the default configuration, the first two cars will be first class with 2+1 seating, the third car will house a bar and special passenger compartments with facing pairs of 3 or 2 seats, the fourth to eighth cars will be standard class with "3" seating, with foldable seats offering altogether 378 seats.

In September 2016, the designs of the EMU-260 and EMU-320 were decided, and it was known that the EMU-260 and EMU-320 will share the same design but with different patterns.

In May 2017, the EMU-260's mock-up and interior design were released to the public, and public opinion on the mock-up and interior design was collected.

The first EMU-260 was released in November 2019 into trial operation.

References

^ "High Speed Trains". Hyundai Rotem. October 2010. Archived from the original on 22 July 2011. Retrieved 23 November 2010.
^ "최고시험속도 400km/h 동력분산식 차세대 고속열차 개발(HEMU-400X)". Korean Rail Technology (in Korean). January–February 2009. Archived from the original on 14 December 2019. Retrieved 13 November 2010.{{cite journal}}: CS1 maint: unfit URL (link)
"차세대 고속열차 최고시속 421km 기록".
^ Cho, Nam-Geon; Chung, Jin-Kyu (2008). "High Speed Rail Construction of Korea and Its Impact" (PDF). KRIHS Special Report Series. 12. Korea Research Institute for Human Settlements. Archived from the original (PDF) on 29 May 2011. Retrieved 14 November 2010.
"SNCF International in South Korea" (PDF). SNCF. May 2008. Archived from the original (PDF) on 24 July 2011. Retrieved 27 August 2010.
"KTX 속도 시속 5km 빨라진다". JoongAng Ilbo (in Korean). 26 November 2008. Archived from the original on 13 July 2011. Retrieved 5 November 2010.{{cite news}}: CS1 maint: unfit URL (link)
Lee, Hisung; Moon, Dae-Seop (2005). "Next Generation of Korea Train Express (KTX): Prospect and Strategies" (PDF). Proceedings of the Eastern Asia Society for Transportation Studies. 5: 255–262. Retrieved 1 September 2010.
^ Kim, Kihwan (May 2008). "Korea develops high-speed ambitions". International Railway Journal: 35–36. Retrieved 4 November 2010.
"Trans-Korean Railway" (PDF). Korean Rail Technology. 1: 4–5. May–June 2005. Archived from the original on 6 April 2016. Retrieved 4 November 2010.{{cite journal}}: CS1 maint: unfit URL (link)
"KTX 개통 5주년 보도자료" (in Korean). Rail Safety Information System. 1 April 2009. Archived from the original on 22 July 2011. Retrieved 13 November 2010.
^ "400 km/h High-Speed Train to be Unveiled by 2012". Next-Generation High-speed Rail Technology Center. 21 September 2009. Archived from the original on 22 July 2011. Retrieved 28 August 2010.
"Project Overview". Next-Generation High-speed Rail Technology Center. Archived from the original on 22 July 2011. Retrieved 1 September 2010.
"HSR350x looking out for name". KRRI. 4 May 2006. Retrieved 21 November 2010.
^ 한국형고속열차 네이밍 (in Korean). Chae, Nam-Hee. 5 April 2007. Archived from the original on 8 July 2011. Retrieved 20 November 2010.
^ "[주간조선] KTX 진화를 거듭하다". The Chosun Ilbo (in Korean). 9 June 2009. Archived from the original on 13 August 2009. Retrieved 2 September 2010.
"Korean high-speed train business team visits Brazil". Newsletter. Hyundai Rotem. August 2009. Retrieved 24 November 2010.
"Korea's HEMU-400X high speed train to roll in 2011". Railway Gazette International. 27 October 2010. Archived from the original on 31 October 2010. Retrieved 30 October 2010.
"Experimental 430 km/h high speed train unveiled", www.railwaygazette.com, 18 May 2012, archived from the original on 21 May 2012, retrieved 21 May 2012
"Development of EMU prototype train technology (II-1)". Next-Generation High-speed Rail Technology Center. Archived from the original on 12 January 2013. Retrieved 1 September 2010.
^ Lee, Yeongbin; Rho, Joohyun; Kwak, Minho; Lee, Jaeho; Kim, Kyuhong; Lee, Dongho (2009). "Aerodynamic Characteristics of High Speed Train Pantograph with the Optimized Panhead Shape" (PDF). Proceedings of the 7th IASME/WSEAS International Conference on Fluid Mechanics and Aerodynamics. pp. 84–88. Retrieved 16 February 2011.
^ "차세대 고속열차 HEMU-400X 차량 디자인". Korean Rail Technology (in Korean). January–February 2009. Archived from the original on 31 December 2019. Retrieved 13 November 2010.{{cite journal}}: CS1 maint: unfit URL (link)
Cuenca, Oliver (5 January 2021). "Korail launches new high-speed trains". International Railway Journal. Retrieved 6 March 2021.

Rolling stock of Korail

Current/Active

High-speed trains

Locomotives

Electric	8000 8100 8200 8500
Diesel	4400 [ko] 7300 7400 7500 7600

Multiple units

Electric	3000 [ko] 200000 210000 (EMU-150) 311000 319000 321000 331000 341000 351000 361000 368000 371000 381000 391000 [ko] 392000 [ko]
Diesel	Special railcars [ko] Roger-1000k [ko]

Retired/Withdrawn

Locomotives

Electric	Dero3
Diesel	2000 2100 3000 3100 [ko] 3200 [ko] 4000 4100 4200 4300 5000 6000 6100 6200 [ko] 6300 7000 7100 7200 9100 [ko]
Steam (Tender)	Ame1 Mateo1 Mateo2 Mika1 (ex-Mantetsu) Mika1 (ex-Sentetsu) Mika2 Mika3 Mika4 Mika5 Mika6 1-5 (ex-Mantetsu) Mika6 (ex-Sentetsu) Mika7 Pasi1 Pasi3 Pasi4 Pasi5 Sori1 Sori2 1-100 Sori2 101 Sori6 Teou1 Teou2 Teou3 Teou5 Teou6 Teou6-100 901
Steam (Tank)	Baru1 Moga1 Pureo1 Pureo2 Pureo3 Pureo4 Pureo7 Pureo7-100 Pureo7-200 Pureo7-300 Pureo8 Sata1

Multiple units

Electric	EEC [ko] 1000
Diesel	3rd class diesel railcars DC [ko] DEC [ko] DHC [ko] NDC [ko] CDC/RDC
Gasoline	Keha

Passenger car

Nakeha
Narrow-gauge DC [ko]

Experimental

High-speed trains

Multiple units

Electric	TTX

v t e Experimental and prototype high-speed trains
China	CRH2C-2061, CRH380AM-0204 DJF2 DDJ1 DJJ1 DJJ2 Intercity EMU Experimental Platform CJ1 CJ2 CJ3 CJ4 CJ5 CJ6 Tianchi
France	Aérotrain AGV (Elisa, Pégase) TGV 001 TGV 2N TGV 88 TGV P V150
France & Germany	Eurotrain
Germany	DB Class 403 ICE S InterCityExperimental Rohr UTACV Schienenzeppelin Transrapid
Japan	300X ALFA-X Class 951 Class 961 Class 962 Class 1000 Fastech 360 Gauge Change Train SCMaglev STAR21 WIN350
Korea, South	HEMU-430X HSR-350x
USSR	Aerowagon Sokol SVL TEP80
United Kingdom	Advanced Passenger Train British Rail APT-E RTV 31
USA & Canada	Budd Jet Car (Black Beetle) Budd Silverliner Garrett LIMRV Grumman TACRV JetTrain Rohr UTACV
See also: Category High-speed rail List of high-speed trains

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