The Rio Madeira HVDC system is a

high-voltage direct current A high-voltage direct current (HVDC) electric power transmission system (also called a power superhighway or an electrical superhighway) uses direct current (DC) for electric power transmission, in contrast with the more common alternating curre ...

transmission system in

Brazil Brazil ( pt, Brasil; ), officially the Federative Republic of Brazil (Portuguese: ), is the largest country in both South America and Latin America. At and with over 217 million people, Brazil is the world's fifth-largest country by area ...

, built to export power from new hydro power plants on the

Madeira River The Madeira River ( pt, Rio Madeira, link=no ) is a major waterway in South America. It is estimated to be in length, while the Madeira-Mamoré is estimated near or in length depending on the measuring party and their methods. The Madeira is ...

in the

Amazon Basin The Amazon basin is the part of South America drained by the Amazon River and its tributaries. The Amazon drainage basin covers an area of about , or about 35.5 percent of the South American continent. It is located in the countries of Bolivi ...

to the major load centres of southeastern Brazil. The system consists of two

converter stations Converter may refer to: Electromagnetics *Frequency converter *Voltage converter, another name for **Electromagnetic transformer **Switched-mode power supply **DC-to-DC converter **Power inverter (DC to AC) ***Solar inverter Electronics *Digita ...

Porto Velho Porto Velho (, ''Old Port'') is the capital of the Brazilian state of Rondônia, in the upper Amazon River basin, and a Catholic Metropolitan Archbishopric. The population is 548,952 people (as of the IBGE 2021 estimation). Located on the border ...

in the state of

Rondônia Rondônia () is one of the 26 states of Brazil, located in the northern subdivision of the country (central-western part). To the west is a short border with the state of Acre, to the north is the state of Amazonas, in the east is Mato Grosso, ...

and

Araraquara Araraquara ( or ) is a city in the state of São Paulo (state), São Paulo in Brazil. The population is 250.314 (2022 est.) in an area of . It is also known as "the abode of the sun," because of its impressive sunset and because of its hot atmosphe ...

São Paulo state SAO or Sao may refer to: Places * Sao civilisation, in Middle Africa from 6th century BC to 16th century AD * Sao, a town in Boussé Department, Burkina Faso * Saco Transportation Center (station code SAO), a train station in Saco, Maine, U.S ...

, interconnected by two bipolar ±600 kV DC transmission lines with a capacity of each. In addition to the converters for the two bipoles, the Porto Velho converter station also includes two 400 MW back-to-back converters to supply power to the local 230 kV AC system. Hence the total export capacity of the Porto Velho station is 7100 MW: 6300 MW from the two bipoles and 800 MW from the two back-to-back converters. When Bipole 1 commenced commercial operation in 2014, Rio Madeira became the world’s longest HVDC line, surpassing the Xiangjiaba–Shanghai system in

China China, officially the People's Republic of China (PRC), is a country in East Asia. It is the world's most populous country, with a population exceeding 1.4 billion, slightly ahead of India. China spans the equivalent of five time zones and ...

. According to the energy research organisation ''Empresa de Pesquisa Energética'' (EPE),Esmeraldo, P.C.V., Araujo, E.M.A., Carvalho, D.S. Jr., HVDC Madeira Transmission System – Planning Development and Final Design, CIGRÉ session, Paris, 2010
Paper B4-306
the length of the line is .

Generating plant

The northern (Porto Velho) converter station is connected, via a 500 kV AC collector grid (''Coletora Porto Velho''), to the new Rio Madeira hydro plant complex. As of January 2013 this consisted of two generating stations: Santo Antônio, close to Porto Velho, with a capacity of 3150 MW, and Jirau, with a capacity of 3750 MW, approximately away. Both generating plants are of the low-head, so-called

run of river Run-of-river hydroelectricity (ROR) or run-of-the-river hydroelectricity is a type of hydroelectricity, hydroelectric generation plant whereby little or no water storage is provided. Run-of-the-river power plants may have no water storage at all ...

type in order to minimise the environmental impact of the project. They use ''bulb'' turbines, which are a type of horizontal-axis

Kaplan turbine The Kaplan turbine is a propeller-type water turbine which has adjustable blades. It was developed in 1913 by Austrian professor Viktor Kaplan, who combined automatically adjusted propeller blades with automatically adjusted wicket gates to ach ...

. These have very low

inertia Inertia is the idea that an object will continue its current motion until some force causes its speed or direction to change. The term is properly understood as shorthand for "the principle of inertia" as described by Newton in his first law ...

compared to other types of hydro-electric generator, and this led to concerns that the turbines could be damaged by over-speed in the event of a sudden interruption to power transmission on the HVDC lines.

Planning of the transmission system

With such a long transmission distance (2375 km), HVDC would seem to be the natural solution for transporting the generated power to the load centres of south-east Brazil, but a very comprehensive techno-economic analysis was nevertheless performed to evaluate the relative benefits of various different solutions. A total of 16 options were initially examined, including three all-DC options at 500 kV, 600 kV and 800 kV, as well as several all-AC options and hybrid DC+AC options. In the end it was concluded that DC, at a transmission voltage of 600 kV (the same as for the Itaipu scheme in southern Brazil) was the preferred option.Esmeraldo, P.C.V., Carijó, L., Vidigal, S., Carvalho, A.R.C.D., Araujo, E., Sereno, M.G., Souza, D., Macedo, N., Leite, A., Simões, V., Menzies, D.F., Feasibility studies for Madeira transmission system: technical and economics analysis, CIGRÉ session, Paris, 2008
Paper B4-103
Nevertheless, two of the other options (an all-AC option and a hybrid AC+DC option) were also taken forward to the second stage of project planning. Thus there were three options put forward for the final selection: * All-DC option: Two ±600 kV, 3150 MW transmission bipoles, plus two 400 MW back to back converters * Hybrid AC+DC option: One ±600 kV, 3150 MW transmission bipole plus two 500 kV AC lines * All-AC option: Three 765 kV AC lines The winner from the three short-listed options was decided by an auction in November 2008 and proved to be the ±600 kV all-DC option. This option was divided into seven separate packages, referred to as Lots 1–7: * Lot 1: Porto Velho 500 kV AC substation plus two 400 MW back-to-back converters * Lot 2: Two ±600 kV, 3150 MW converter stations for Bipole 1 * Lot 3: Two ±600 kV, 3150 MW converter stations for Bipole 2 * Lot 4: Two ±600 kV, 3150 MW transmission lines for Bipole 1 * Lot 5: Two ±600 kV, 3150 MW transmission lines for Bipole 2 * Lot 6: Receiving end AC substation * Lot 7: Grid reinforcement on 230 kV northern system

Converter stations

The transmission voltage of ±600 kV is the same as was used on the Itaipu project, but for Rio Madeira the converters are designed with only a single twelve-pulse bridge per pole. The Porto Velho

converter station An HVDC converter station (or simply converter station) is a specialised type of substation which forms the terminal equipment for a high-voltage direct current (HVDC) transmission line.Arrillaga, Jos; High Voltage Direct Current Transmission, se ...

contains the rectifier terminals of the two ±600 kV bipoles, as well as the two 400 MW back-to-back converters. The Bipole 1 converter stations and the two back-to-back converters have been built by

ABB ABB Ltd. is a Swedish- Swiss multinational corporation headquartered in Zürich, Switzerland. The company was formed in 1988 when Sweden's Allmänna Svenska Elektriska Aktiebolaget (ASEA) and Switzerland's Brown, Boveri & Cie merged to crea ...

Graham, J.F., Holmgren, T., Fischer, P., Shore, N.L., The Rio Madeira HVDC System – Design aspects of Bipole 1 and the connector to Acre-Rondônia, CIGRÉ session, Paris, 2012
Paper B4-111
and were commissioned in August 2014.ABB Press Release
ABB commissions world’s longest power transmission link in Brazil, 27 August 2014 The Bipole 2 converter stations been built by

Alstom Alstom SA is a French multinational rolling stock manufacturer operating worldwide in rail transport markets, active in the fields of passenger transportation, signalling, and locomotives, with products including the AGV, TGV, Eurostar, Avelia ...

Grid MacLeod, N.M., Chackravorty, S., Barrett, B.T., Design studies for the 3150 MW, ± 600 kV UHVDC Bipole 2 of the Rio Madeira long distance transmission project in Brazil, CIGRÉ session, Paris, 2010
Paper B4-208
and as at February 2015 are still undergoing commissioning. All the HVDC converters use air-insulated, water-cooled

thyristor valve In an electric power transmission system, a thyristor-controlled reactor (TCR) is a reactance connected in series with a bidirectional thyristor valve. The thyristor valve is phase-controlled, which allows the value of delivered reactive power t ...

s, suspended from the ceiling of the

valve hall A valve hall is a building which contains the valves of the static inverters of a high-voltage direct current plant. The valves consist of thyristors, or at older plants, mercury arc rectifiers. Mercury arc rectifiers are usually supported by ...

and using 125mm diameter thyristors. Both converter stations of Bipole 2 and the Araraquara converter station of Bipole 1 use single-phase, two-winding converter

transformer A transformer is a passive component that transfers electrical energy from one electrical circuit to another circuit, or multiple circuits. A varying current in any coil of the transformer produces a varying magnetic flux in the transformer' ...

s with the thyristor valves arranged in ''double-valves'', but the Porto Velho Bipole 1 converter station used single-phase three-winding converter transformers (because the river made the transport of larger transformers feasible than was the case at Araraquara) and valves arranged in ''quadrivalves''. Because the 230 kV network in Rondônia and Acre is very weak, the back-to-back converters are implemented as ''Capacitor Commutated Converters'' (CCC). The thyristor valves being much smaller than those of the transmission bipoles, it was possible to arrange each back-to-back converter as just three valve stacks of eight valves each (''octovalves''). The design of certain aspects of the two bipoles (which were supplied by different manufacturers) needed to be coordinated in order to avoid adverse control interactions or harmonic filtering problems. In addition, a considerable number of different operating modes needed to be taken into account, such as paralleling the converters of both bipoles onto a single transmission line. There is also a requirement for power flow in the south–north direction, although only at a reduced level. These aspects, along with the complex structure of the project with multiple engineering companies involved at the same time, led to some delays in the project.

References

External links

{{Portal, Brazil, Energy
ABB commissions world’s longest power transmission link in Brazil
Electric power infrastructure in Brazil HVDC transmission lines Energy infrastructure completed in 2014 2014 establishments in Brazil