The times are numbered for the Lerwick Power Station, whose diesel turbines have equipped electrical energy to the Shetland Islands for over 70 years. Beginning across the center of 2024, the Shetlands—and in addition a part of mainland Scotland—can be powered by the 443-megawatt Viking wind farm, consisting of 103 wind generators on the primary island of Shetland.
However what’s most attention-grabbing in regards to the mammoth, £580 million mission isn’t a lot the generators because the subsea transmission hyperlink that can join the wind farm to the Scottish mainland. Peak demand within the Shetlands is barely about 44 MW, so at any given time as a lot as 90 p.c of the Viking output may circulate south by way of the hyperlink. The 260-kilometer, 320-kilovolt high-voltage direct-current (HVDC) transmission system, primarily based on expertise from
Hitachi Energy, in Zurich, marks a milestone in an ongoing transformation of the European energy grid: It would plug into the primary really dynamic multiterminal HVDC network in Europe.
This newer HVDC expertise is opening up new alternatives. “European grid operators are adopting HVDC because the expertise of alternative for his or her bulk-transmission wants sooner or later,” says
Cornelis Plet, vp for DNV, a consultancy that advises on energy programs and threat administration.
In keeping with Plet, wind power is driving an acceleration of HVDC installations in Europe. By 2030, the European Union seeks to roughly double, to 42.5 p.c, the share of power met by renewables. Officers are prioritizing tasks that faucet the comparatively constant and robust winds that blow farther offshore, greater than 75 km, say—a distance for which the excessive capacitance of insulated energy cables renders AC transmission impractical. Grid operators are additionally putting in subsea DC interconnections in different areas to share wind-energy surpluses and hook up with backup provides, akin to Scandinavia’s large hydropower reservoirs. Moreover, subsea and underground HVDC cables more and more appear like essentially the most viable solution to push added wind energy throughout congested nationwide grids and densely populated landscapes.
New Know-how Drives an HVDC Renaissance
Driving this enlargement in HVDC are main technical advances. Traditionally, HVDC traces conveyed energy from one single level to a different. The extent of energy switch wanted to be set, and its path couldn’t be instantaneously reversed—as could be essential if the traces had been a part of a community. Nonetheless, beginning round 25 years in the past, the trail to multiterminal HVDC programs was established by massive enhancements within the converters that change high-voltage alternating present to DC, and vice versa.
Energy generated by the443-megawatt Viking wind farm, within the Shetland Islands, will feed a 3 terminal HVDC community, with the potential of two extra terminals sooner or later. The southern most terminal is at Blackhillock, Scotland, the location of Europe’s second-largest substation.Elias Stein
The important thing advance was the implementation of voltage-source converters (VSCs). Amongst different options, they permit operators of a transmission line to independently management not solely the true energy flowing on a line, but additionally the
reactive energy, which is the product of the voltage and the present which might be out of part with one another. One other characteristic of the brand new programs is modularity: Most fashionable VSCs are applied as an built-in set of modules, in a system known as a modular multilevel converter (MMC).
The converters are made up of submodules, and the upper the voltage being transformed, the larger the variety of submodules. These submodules, in flip, are usually primarily based on capacitors and high-speed insulated-gate bipolar transistors. Vitality from the AC supply is saved in DC capacitors within the submodules. The capacitors are then charged and discharged in sequence to trade power with the AC community.
The Shetland hyperlink will create a three-terminal system by including on to an current HVDC cable additional south. From the Shetland HVDC converter station, close to the wind farm, DC is transmitted by way of the subsea cable to an current converter station, close to the cable’s landfall on Scotland’s northern tip. An inverter there can feed into the mainland AC grid. Or the DC energy coming from the island can bypass that first mainland converter, persevering with south to a 3rd converter station that’s 160 km nearer to Scotland’s big-city customers. Or the system’s controller can flip all the sport plan, sending electrical energy north to Shetlands customers simply as shortly as its winds can shift.
What makes that dynamic energy juggling potential is the versatile management over present and voltage that’s the hallmark of VSC expertise. Over the previous three many years, China
pushed traditional HVDC expertise, primarily based on present supply converters and thyristors, to huge scale to ship hydro, coal, and wind energy hundreds of kilometers to its coastal industries and megacities. To take action, engineers needed to construct the world’s most sturdy AC networks, together with big quantities of reactive-power compensation and numerous filtering to stop harmonic suggestions.
VSC is a essentially completely different expertise, pioneered within the late Nineteen Nineties at Swiss-Swedish engineering large ABB, whose power-grid enterprise was
recently acquired by Hitachi Vitality. Not like the normal current-source converters, VSCs can regulate their very own voltage. Which means they may help stabilize the AC networks they commerce energy with. That characteristic gave ABB’s VSC-based programs an instantaneous area of interest the place there was actually no AC grid to lean on: sending electrical energy ashore from distant wind farms.
The expertise caught a tailwind in 2010 when ABB’s main HVDC rival, Siemens, commercialized the modular design that has since swept the market. Siemens’s MMC submodules swap solely as soon as per AC cycle, chopping losses from about 1.7 p.c to 1 p.c per converter. MMCs at the moment are the usual configuration and are utilized in the UK’s
newest offshore wind farm, off the coast of Yorkshire, which has 1,080 submodules and started delivering energy in October.
European grid operators have deployed about 50 gigawatts of VSC-based HVDC expertise thus far. One other 130 GW is deliberate for the continent over the subsequent 10 years, based on a
September 2023 report that Plet cowrote for a U.S. grid analysis and advocacy consortium.
Europe and China Race for “Meshed” Grids
To this point, Germany has essentially the most formidable program. A trio of HVDC programs will take wind energy coming from offshore into northern Germany and transfer it inland to southern Germany. However way more HVDC transmission capability can be wanted to accommodate an anticipated surge in offshore wind. For instance, Dutch-German grid operator TenneT lately signed €30 billion (US $33 billion) in contracts for 14 units of converters and subsea cables to be working by 2031—some in Germany and the remaining within the Netherlands. That scale is chopping prices and rushing supply by serving to its distributors—GE Renewable Vitality, Hitachi, and Siemens—finance capability expansions.
Germany has additionally led standardization, with an eye fixed to expanded DC grids down the road. TenneT requested all of its suppliers to supply suitable 525-kV HVDC programs with room for additional switchgear, creating the choice to interconnect at this time’s segments in bigger networks.
Different European states have joined the rising 525-kV customary. The UK’s audacious community plan specifies a dozen 525-kV offshore wind hyperlinks that its electrical energy system operator deems essential by 2030. Amongst them is a potential five-terminal system linked end-to-end astride the North Beach—to attenuate each the converter stations bought and the cable crossings and landfalls dug throughout delicate coastal ecosystems. As well as, the U.Okay. plans to push its rising wind harvest south towards London by way of six extra offshore HVDC cables, operating shore-to-shore like patch cords in an old-time phone switchboard.
In 2020, Chinese language utility large State Grid began up the world’s first meshed DC grid—a four-node, 500-kV ring close to Beijing
Finally, European grid planners foresee a day when at this time’s HVDC tasks interconnect to type a meshed DC community stretching throughout the North Sea and past. That may require one thing additional: an HVDC circuit breaker able to practically instantaneous operation at 525 kV.
Chopping off AC energy is extra easy as a result of its voltage zeroes out each time the present reverses path. HVDC programs presently exploit that zero-crossing to deal with faults, utilizing AC breakers to energy down the converters and thus squelch the continual present flowing between them. However converter stops and restarts can be too disruptive to massive HVDC networks. “Once you go to 4 or 5 terminals, the system turns into too massive to close down,” says
Andreas Berthou, Hitachi Vitality’s group senior vp and world head of HVDC.
In 2020, Chinese language utility large State Grid began up the world’s first meshed DC grid—a four-node, 500-kV ring close to Beijing full with 16 proprietary HVDC breakers. However Western sources say there’s been no unbiased evaluation of its operation.
All the massive HVDC suppliers are engaged on circuit breakers. Hitachi Vitality’s proprietary unit has been verified at 350 kV, and Berthou says it’s being thought-about for “a pair” of offshore tasks. “We’re able to tender at 525 kV,” he claims.
An HVDC converter corridor at an undisclosed location is outfitted with Hitachi Vitality’s Voltage Supply Converter expertise, primarily based on modular, multilevel converters. Hitachi Vitality
One among Germany’s cross-country HVDC tasks will reveal an alternate strategy: an MMC converter design with “full-bridge” modules able to opposing and stopping gigawatts of DC energy. The fee: twice as many dear, power-consuming insulated-gate bipolar transistors per module.
Meshed HVDC grids seem to be science fiction in a U.S. grid context—house to only 3 p.c of contemporary HVDC installations, based on Plet’s report. However a number of states have plans to observe Europe’s HVDC lead. New Jersey chosen a system of HVDC hyperlinks to attach its first offshore wind farms, for instance, and California is contemplating an offshore HVDC “patch wire” to spice up its north-south energy flows.
However securing the gear gained’t be straightforward, based on specialists.
Emmanuel Martin-Lauzer, a U.S. business-development director for Paris-based cable producer Nexans, lately likened Europe’s mission pipeline to a “black gap” devouring the world’s provide of HVDC cable.
Plet says some U.S. transmission builders have put down “tens of tens of millions of {dollars}” to safe a spot in manufacturing queues—a “massive threat” since poorly coordinated state and federal grid-approval processes kill off many tasks. Builders may even pay dearly to employees up, he says, given the dearth of U.S. electrical engineers with HVDC experience. Including it up, Plet figures that U.S. HVDC improvement could lag Europe’s by a decade.
This text seems within the January 2024 print subject as “Excessive-Voltage DC Energy Roars Ashore in Europe.”
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