“Talcher–Kolar HVDC system”的意思、由来-开放百科全书

词条

Talcher–Kolar HVDC system

释义

Ground electrodes
Sites
References
External links

{{Infobox power transmission line
| name = Talcher–Kolar HVDC system
| photo =
| caption =
| map =
| map_caption = Location of Talcher–Kolar HVDC system
| country = India
| state = Odisha, Karnataka
| province =
| coordinates = {{Coord|21|06|01|N|85|03|49|E|type:landmark|name= Talcher–Kolar HVDC system – Talcher converter station}}
{{Coord|13|10|39|N|78|07|00|E|type:landmark|name= Talcher–Kolar HVDC system – Kolar converter station }}
| lat =
| long =
| direction =
| start = Talcher, Odisha (Eastern Region)
| through =
| finish = Kolar, near Bangalore (Southern Region)
| par =
| owner = Power Grid Corporation of India
| partners =
| operator =
| cable_manufacturer =
| cable_installer =
| cable_layer =
| substation_manufacturer=
| substation_installer= Siemens
| contractors =
| construction =
| expected =
| est = 2003
| decom =
| type = Transmission
| current_type = HVDC
| length_km = 1450
| capacity = 2000 MW
| AC_voltage =
| DC_voltage = ±500 kV
| poles_no = 2
| circuits_no =
}}

The Talcher–Kolar HVDC system, otherwise known as the East–South interconnection II is a 1450 km HVDC transmission connection between the eastern and southern regions in India connecting four states namely Odisha, Andhra Pradesh, Tamil Nadu and Karnataka. The system has a transmission voltage of ±500 kV and was originally put into service in March 2003,^[1] with a rated power of 2000 MW. In 2007 the scheme was upgraded to 2500 MW.

The Talcher–Kolar HVDC system is owned by Power Grid Corporation of India and the converter stations were built by Siemens.

The scheme is a conventional bipolar system with overhead lines for the high-voltage conductors and ground return for the neutral current.

Ground electrodes

The scheme includes two ground electrodes, of ring construction, located at Rohila, 28.5 km northeast of the Talcher converter station and at Chikkadasarahalli, 30 km northwest of the Kolar converter station.^[1]

However, the soil conditions at some distance from the electrode at Chikkadasarahalli were later found to have higher than expected soil resistivity. These geological effects gave rise to problems with DC currents flowing into the neutral connections of transformers at nearby AC substations, which required the addition of DC blocking devices.

Sites

Talcher converter station	21\|06\|01\|N\|85\|03\|49\|E\| type:landmark\|name= Talcher–Kolar HVDC system – Talcher converter station }}
Rohila electrode station	21\|12\|11\|N\|85\|19\|05\|E\| type:landmark\|name= Talcher–Kolar HVDC system – Rohila electrode station }}
Kolar converter station	13\|10\|39\|N\|78\|07\|00\|E\|type:landmark\|name= Talcher–Kolar HVDC system – Kolar converter station }}
Chikkadasarahalli electrode station	13\|20\|19\|N\|77\|53\|49\|E\| type:landmark\|name= Talcher–Kolar HVDC system – Chikkadasarahalli electrode station }}

References

1. ^¹Nayak R.N., Sasmal R.P., Sen S., Pelly B., Riedel P., Experience with blocking devices during monopolar operation of +/- 500kV, 2000MW Talcher–Kolar HVDC system in India, CIGRÉ session, Paris, 2006, paper reference B4-204.

External links

https://web.archive.org/web/20121013104458/http://www.powergridindia.com/PGCIL_NEW/home.aspx Power Grid Corporation of India
http://www.energy.siemens.com/hq/en/power-transmission/hvdc/?stc=wwecc120599 Siemens HVDC website

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