Английская Википедия:Chandrapur back-to-back HVDC converter station

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Шаблон:Short description Шаблон:Use dmy dates Шаблон:Use Indian English Шаблон:Infobox power transmission line The Chandrapur back-to-back HVDC station is a back-to-back HVDC connection between the western and southern regions in India, located close to the city of Chandrapur. Its main purpose is to export power from the Chandrapur Super Thermal Power Station to the southern region of the Indian national power grid. It is owned by Power Grid Corporation of India.

The converter station consists of two independent poles, each with a nominal power transmission rating of 500 MW. Both poles were built by GEC-Alstom between 1993 and 1997[1] and have nominal DC voltage and current ratings of 205 kV, 2475 A.

The converter station is located Шаблон:Convert from the eastern terminal of the Chandrapur–Padghe HVDC transmission system. The close proximity of the two converter stations meant that the control systems needed to be carefully coordinated, a task made more challenging by the fact that the two stations were built by different manufacturers. To address this problem a series of joint simulation studies, involving the control equipment from both converter stations connected to a common simulator, was performed.[2]

On 31 December 2013, the Northern, Eastern and Western grids were synchronised with the Southern regional grid, creating a single synchronous AC grid over the whole of India. [3] As a result, the converter station is no longer required for its original purpose of asynchronously linking the Western and Southern grids, although it can still be used as an embedded power flow device to help control power flow within the AC system. The stations could potentially be shifted to elsewhere to export/import power from other countries. Sometimes the excess power fed to the southern grid by this HVDC link is flowing back to Western region through the 765 kV AC lines between Southern grid and the Western grid with futility. Шаблон:Citation needed

Arrangement and main equipment

Overall arrangement

Each of the two poles is identical and consists of a back-to-back connection of two 12-pulse bridge converters. Unusually, no DC smoothing reactors are used.[4]

Each pole is grounded at one of the two DC terminals.

Converter transformers

Each of the two poles uses three, single-phase, three-winding converter transformers on each side.[5]

Thyristor valves

The scheme comprises 48 thyristor valves (12 at each end of each pole) and with each thyristor valve including 54 thyristor levels in series. The thyristors are of 100 mm diameter and are rated at 5.2 kV. The thyristor valves are floor-mounted even though the station is located in a seismically active area.

AC filters and reactive power

Each side of the station is equipped with a total of 848 MVAr of AC harmonic filters. Each side of each pole is equipped with three, 106 MVAr double-damped filters (tuned to 12th and 24th harmonics) and one, 106 MVAr "C-type" filter (tuned to 5th harmonic). On the Southern side there are also two, 50 MVAr shunt reactors.

Sites

Site Coordinates
Chandrapur Back to Back Шаблон:Coord

See also

References

Шаблон:Reflist

External links

Шаблон:GeoGroupTemplate

  1. Prasher V.K, Kumar Devender, Gupta R.S., Suri Rajesh, Joshi Ashok, Mukoo Sanjay, Operational Experiences of Chandrapur 2 x 500 MW back-to-back station, CIGRÉ session, Paris, 2002, paper reference 14-121.
  2. Abbott, K.M., Aten, M., Two HVDC schemes in close proximity: a coordination study, CIGRÉ Session, Paris, 2000, paper reference 14-109.
  3. One Nation – One Grid Шаблон:Webarchive, Powergrid website (retrieved 18 November 2015).
  4. Wheeler J.D., Davidson C.C., Williams J.D.G., Roy A.K., Design aspects of the 2 x 500MW Back-to-back HVDC scheme, CIGRÉ session, Paris, 1996, paper reference 14-104.
  5. Andersen B.R., Monkhouse, D.R., Whitehouse R.S., Williams J.D.G., Prasher V.K, Kumar Devender, Commissioning the 1000MW back-to-back HVDC link at Chandrapur, India, CIGRÉ session, Paris, 1998, paper reference 14-114.