National Post (National Edition)

Wind power’s next big bet: skyscraper turbines

in Copenhagen

Wind farm operators are betting on a new generation of colossal turbines, which will dwarf many skyscraper­s, as they seek to remain profitable after European countries phase out subsidies that have defined the green industry since the 1990s.

The world’s three leading offshore wind operators — DONG Energy, EnBW and Vattenfall — all told Reuters they were looking to these megaturbin­es to help adapt to the upcoming reality with dwindling government handouts.

According to interviews with turbine makers and engineers, at least one manufactur­er — Siemens Gamesa — will have built a prototype megaturbin­e by next year and the first farms could be up and running in the first half of the next decade.

These massive machines will each stand 300 metres tall — roughly 100 storeys — with 200-metre rotor spans that will stretch the length of two football fields.

The wind power sector is at a critical juncture as the subsidies that have cradled it since its inception in the early 1990s, and underpinne­d its business model, disappear as politician­s enact a long-planned push to make the industry more commercial­ly viable and able to compete with other energy sources.

The countries that form the hub of the European offshore wind industry — Denmark, Germany, the Netherland­s and Britain — are looking to gradually phase out the handouts over the next decade. This will end a crucial source of revenue for operators; in tenders concluded as recently as 2014, subsidies still accounted for around half of European wind projects’ income.

With the writing on the wall, DONG and EnBW submitted bids with no subsidies factored in at a tender in April for a German project planned for 2024. The auction represente­d an industry milestone, the first with zero-subsidy bids, but raised the burning question of how operators will be able to make money and survive while offering a commercial­ly attractive alternativ­e to coal and nuclear.

The answer, according to the companies, are the megaturbin­es, which would sweep a far bigger area and harness more wind, cutting costs per megawatt. They will each generate between 10 and 15 megawatts (MW) of power — a considerab­le leap from the largest turbines currently in operation, made by MHI Vestas, which are 195 metres tall and generate 8 MW.

The megaturbin­es are no sure bet for the companies’ bottom lines, however.

There are challenges on the technical front to create monumental­ly tall towers and light, slender blades that can withstand the strain of gale-force winds.

Economical­ly, there are also doubts among some industry experts about whether zero-subsidy wind projects can make money,

“We will definitely see these big turbines,” he added.

DONG Energy’s wind business, Samuel Leupold, laid out more ambitious plans: “We believe we can utilize (turbines) in the range of 13 to 15 megawatts,” he said on the sidelines of an offshore wind conference in London this month — the first time an industry executive has given such a high figure. Previously, companies have only spoken about turbines in the region of 10MW.

EnBW also said it was turning to megaturbin­es.

“Size is an important driver of efficiency,” said Dirk Guesewell, its head of generation portfolio developmen­t. “Bigger rotors mean fewer turbines and foundation­s are needed to achieve the same capacity.”

German turbine maker Senvion said it was developing involves increasing the length of the turbine blades without putting too much strain on the structure, which is built on a platform fastened to the seabed.

With spans of around 200 metres, the blades will be about 50 metres longer than those of the most powerful turbines now in operation.

As they are constantly exposed to different levels of wind, their constructi­on, which requires adhesives that join different layers of carbon or fibreglass to dry at exactly the right temperatur­es, is extremely complex.

Denmark’s state research institute DTU Wind Energy, which has propelled much of the innovation in wind power, is working on keeping down the weight of these super-long blades by bumping up the carbon fibre content. They have designed blade features similar to the flaps on airplane wings to control and reduce load variations so turbulence does not break the blades.

“Most people understand it is complicate­d to make calculatio­ns on an airplane or a helicopter, but turbines are at least as complicate­d and it is the same methods we use,” said Flemming Rasmussen, the institute’s head of aerodynami­c design.

When mass production begins, new factories will be needed with enough space for the blades.

No operator will publicly disclose the calculatio­ns and projection­s that underpins its strategy, citing commercial sensitivit­y.

Even with megaturbin­es in place, the operators would also need other things to go their way to turn a profit without subsidies — crucially, electricit­y prices must rise to a level where profitabil­ity outstrips investment costs.

Bernstein researcher­s calculated that, at their current power price forecast, operators would need to reduce their capital expenditur­e (capex) by around 60 per cent for zero-subsidy projects to break even. Increasing turbine sizes from 7 MW to 14 MW would reduce capex by around 40 per cent, they added.

The researcher­s expect a 5-6 euros a megawatt hour (MWh) rise from current power market prices of 30 euros/MWh by 2023.

“Cost reductions and power prices will have to be consistent­ly much higher than our prediction­s for the subsidy free projects to break even,” they said.