Shanghai maglev train
|Transit type||Magnetic levitation|
|Number of lines||1|
|Number of stations||2|
|Began operation||December 31, 2002|
April 2004 (Commercial)
|Operator(s)||Shanghai Maglev Transportation Development Co., Ltd.|
|System length||30.5 km (18.95 mi)|
|Top speed||431 km/h (268 mph)|
|Shanghai maglev train|
|Literal meaning||Shanghai Maglev Demonstration Operation Line|
The Shanghai maglev train or Shanghai Transrapid (Chinese: 上海磁浮示范运营线) is a magnetic levitation train, or maglev line that operates in Shanghai. The line is the third commercially operated magnetic levitation line in history, after the British Birmingham Maglev and the German M-Bahn, and the first commercial high-speed maglev. It is the fastest commercial high-speed electric train in the world.
The train line connects Shanghai Pudong International Airport and Longyang Road Station (in the outskirts of central Pudong), where passengers can interchange to the Shanghai Metro to continue their trip to the city center. The line is not part of the Shanghai Metro network, which operates its own service to Pudong Airport from central Shanghai and Longyang Road Station. It cost $1.2 billion to build. The line's balance of payments has been in huge deficit since its opening.
From 2004 to 2006, Shanghai Maglev Transportation Development Co. Ltd, the company which runs the line, had more than one billion RMB in losses. The line's lack of profitablity derives from its construction for political reasons as a test project for the future of China's rail infrastructure, rather than as a viable market solution for the needs of travelers.
The line runs from Longyang Road station in Pudong to Pudong International Airport; The Pudong International Airport station provides a transfer to Line 2, but the Longyang Road station provides access to Line 2, Line 7 and Line 16. At full speed, the journey takes 7 minutes and 20 seconds to complete the distance of 30 km (18.6 mi), although some trains in the early morning and late afternoon take about 50 seconds longer. A train can reach 350 km/h (217 mph) in 2 minutes, with the maximum normal operation speed of 431 km/h (268 mph) reached thereafter.
Hans-Dieter Bott, vice president of Siemens that won the contract to build the rail link, stated that "Transrapid views the Shanghai line, where the ride will last just eight minutes, largely as a sales tool. This serves as a demonstration for China to show that this works and can be used for longer distances, such as Shanghai to Beijing". However, the decision was eventually made to implement the Beijing–Shanghai high-speed railway with conventional high-speed technology. Plans for a shorter maglev extension from Longyang Road to Hangzhou, the Shanghai–Hangzhou Maglev Line, have been suspended.
Speculation that a line would be built from Shanghai to Beijing mounted in 2002. It would cover a distance of about 1,300 km (808 mi), at an estimated cost of £15.5bn. The chief executive of ThyssenKrupp, Dr Ekkehard Schulz said he was certain that not only Germany, but many countries would follow the Chinese example. The German government along with a selection of German companies sought to win more projects for their maglev technology, and highlighted that a train between Shanghai and the Chinese capital, Beijing remained a possibility. However, no projects have been revealed as of 2014.
Construction of the line began in March 1, 2001, and public commercial service commenced on 1 January 2004. The top operational commercial speed of this train is 431 km/h (268 mph), making it the world's fastest train in regular commercial service since its opening in April 2004. During a non-commercial test run on 12 November 2003, piloted by Jonathan Texiera, a maglev train achieved a Chinese record speed of 501 km/h (311 mph). The Shanghai Maglev has a length of 153 metres (502 ft), a width of 3.7 metres (12 ft), a height of 4.2 metres (14 ft) and a three-class, 574-passenger configuration.
The train set was built by a joint venture of Siemens and ThyssenKrupp from Kassel, Germany and based on years of tests and improvements of their Transrapid maglev monorail. The Shanghai Maglev track (guideway) was built by local Chinese companies who, as a result of the alluvial soil conditions of the Pudong area, had to deviate from the original track design of one supporting column every 50 metres to one column every 25 metres, to ensure that the guideway meets the stability and precision criteria. Several thousand concrete piles were driven to depths up to 70 metres to attain stability for the support column foundations. A mile-long, climate controlled facility was built alongside the line's right of way to manufacture the guideways.
The electrification of the train was developed by Vahle, Inc. Two commercial maglev systems predated the Shanghai system: the Birmingham Maglev in the United Kingdom and the Berlin M-Bahn. Both were low-speed operations and closed before the opening of the Shanghai maglev train.
The line is operated by Shanghai Maglev Transportation Development Co., Ltd and runs from 06:45 to 21:30, with services every 15 to 20 minutes. A one-way ticket costs ¥50 (US$8), or ¥40 ($6.40) for those passengers holding a receipt or proof of an airline ticket purchase. A round-trip return ticket costs ¥80 ($12.80) and VIP tickets cost double the standard fare.
Following the opening, overall maglev train ridership levels were at 20% of capacity. The levels were attributed to limited operating hours, the short length of the line, high ticket prices and that it terminates at Longyang Road in Pudong – another 20 min by subway from the city centre.
|Journey time (minutes)||8:10||7:20||8:10||7:20||8:10||8:10|
|Maximum speed||300 km/h (186 mph)||430 km/h (267 mph)||300 km/h (186 mph)||430 km/h (267 mph)||300 km/h (186 mph)||300 km/h (186 mph)|
|Average speed||224 km/h (139 mph)||249.5 km/h (155 mph)||224 km/h (139 mph)||249.5 km/h (155 mph)||224 km/h (139 mph)||224 km/h (139 mph)|
|Interval||20 minutes||15 minutes||15 minutes||15 minutes||15 minutes||20 minutes|
Two additional one-way scheduled trains starts off at 10:15 pm and 10:40 pm from Pudong Airport to Longyang Road for about 8 minutes since October 2016. Travel time was sped up considerably, as the 30 km (19 mi) journey takes 45 minutes by road.
|Longyang Road||龙阳路||[note 1]||Pudong||0.00|
|Pudong International Airport||浦东国际机场||[note 2] PVG||30.50|
A 2007 statement by Transrapid USA said with 4 million passengers in 2006 the system was able to cover its operating costs. The ratio of costs were given as: 64%-energy, 19%-maintenance & 17%-operations/support services; no amount was given. The high proportion of energy costs was attributed to the short trip time and high operating speed. However, according to Chinese media's report, due to the huge costs of operating and the lack of the passenger flow, Shanghai Maglev Transportation Company would lose 500 million to 700 million RMB every year.
The Shanghai Transrapid project took ¥10 billion (US$1.33bn) and two and a half years to complete. The line is 30.5 km (18.95 mi) track and has a further separate track leading to a maintenance facility.
In January 2006, the Shanghai–Hangzhou Maglev Line extension project was proposed by the Shanghai Urban Planning Administrative Bureau. The extension would continue the existing line towards Shanghai Hongqiao International Airport, running via Shanghai South Railway Station and the Expo 2010 site, with a possible continuation towards Hangzhou. The extension would allow transferring between the two airports—located 55 km (34 mi) apart—in approximately 15 minutes.
The plan for the extension to Hangzhou was first approved by the central government in February 2006, with a planned date of completion in 2010. Work was suspended in 2008, owing to public protests over radiation fears despite an environmental assessment by the Shanghai Academy of Environmental Sciences saying the line was safe and would not affect air and water quality, and noise pollution could be controlled. According to China Daily, as reported on People's Daily Online 27 February 2009, the Shanghai municipal government was considering building the maglev line underground to allay the public's fear of electromagnetic pollution and the final decision on the maglev line had to be approved by the National Development and Reform commission.
Another approval was granted in March 2010, with construction to begin in late 2010. The new link was to be 199.5 km (124 mi) long, 24 km (15 mi) longer than the original plan. The top speed is expected to be 450 km/h (280 mph) but limited to 200 km/h (124 mph) in built-up areas.
In October 2010 the non-maglev Shanghai–Hangzhou High-Speed Railway was opened, bringing travelling time between the two cities down to 45 minutes. Consequently plans for a Maglev link have been suspended again.
On 11 August 2006, a Maglev train compartment caught fire at 14:40, after having left Pudong International Airport in the direction of Pudong Longyang Road Station. There were no injuries aboard. Preliminary reports indicated that an electrical problem may have been the cause.
On 14 February 2016, the Shanghai Maglev line had an equipment failure which affected operation for more than 1 hour. Due to the use of single-line operation during this time, the train interval was extended.
- Magnetic levitation
- S1 line (Beijing Subway) (low-speed maglev)
- Incheon Airport Maglev
- Chuo Shinkansen
- Hunt, Hugh (2017-01-19). "How we can make super-fast hyperloop travel a reality". Independent. Retrieved 19 January 2017.
- Antlauf, Walter; Bernardeau, François; Coates, Kevin (November 2004). "Fast Track". Civil Engineering Magazine. Archived from the original on 2006-05-08. Retrieved 2017-12-22.
- Zhang Feng'an (张凤安); Li Peng (李芃) (2008-01-15). 磁悬浮经济账：上海磁浮公司三年亏损超10亿. 《21世纪经济报道》. Retrieved 2017-01-20.
- Coates, Kevin (May 2005). "Shanghai's maglev project–levitating beyond transportation theory" (PDF). Engineering World. Archived (PDF) from the original on 2006-05-08. Retrieved 2017-12-27.
Rather than just deploying the high-speed rail systems of Japan or Europe to shorten long distance travel times, the Chinese decided to investigate the possibility of leap-frogging existing high speed rail technology by first deploying the German-designed Transrapid maglev system as a demonstration line. This way, the Chinese engineers could accumulate and analyse data from actual commercial operations of a new electronic transportation system.
- "Maglev (Magnetic Levitation Train) Shanghai". maglevgps.yolasite.com.
- McDonald, Joe (January 23, 2001). "Germans win bid to build China's futuristic rail link". The Independent. London. Retrieved May 23, 2010.
- "China claims train blue riband". Retrieved 27 December 2014.
- "Shanghai welcomes high speed train". Cnn business. Retrieved 27 December 2014.
- Chronicle of Events Archived 2012-08-09 at the Wayback Machine., Shanhai Maglev Transportation Development Co., Ltd.
- "Shanghai Maglev Train (431 km/h) - High Definition Video". shanghaichina.ca.
- "Archived copy". Archived from the original on 2014-12-08. Retrieved 2015-03-20.
- "VAHLE Chronicle" (PDF). Vahle Konkret Special: Chronicle of a Century. Paul Vahle GmbH & Co. May 2012. p. 9. Archived from the original (PDF) on 26 May 2013. Retrieved 31 December 2012.
- Wu Zhong (2007-06-13). "China's dented image projects". Asia Times.
- Train Info. Archived 2015-02-17 at the Wayback Machine., Shanghai Airport Transportation maglev reference
- "浦东机场磁浮线夜间增开两个班次 比平时便宜10元". 东广新闻台fm90.9. 2016-10-10. Retrieved 2017-01-20.
- "Transrapid Shanghai Maglev Project Update" (PDF). May 2007. Retrieved 2014-05-22.
- 王珏磊、徐太岳 (2009-02-26). "上海磁悬浮项目酝酿地上转地下 示范线年亏几亿". 《时代周报》. Retrieved 2017-01-20.
- "Report: China suspends work on magnetic levitation train over radiation fears". International Herald Tribune.
- "Hundreds protest Shanghai maglev rail extension". Reuters. Jan 12, 2008.
- "Report: Maglev extension given green light". Shanghai Daily.
- "Report: Maglev link plan is suspended". Shanghai Daily. January 19, 2011. Retrieved February 16, 2011.
- 李继成 (2016-02-14). "上海磁浮线今晨出故障 影响运营1个多小时". 澎湃. Retrieved 2017-04-27.
|Wikimedia Commons has media related to Shanghai Maglev Train.|