North Sea’s blueprint for the energy transition

How to become a renewable energy powerhouse? By realizing multiple, diverse clean energy projects the North Sea has become a hotspot for green innovation and a blueprint for decarbonization in many other parts of the world.

Each hour in Kassø, near the Danish-German border, the renewable energy developer European Energy will produce one ton of carbon-free hydrogen to decarbonize shipping routes. East across the sea, the long blades of the Moray West wind power plant are set to revolve off the Scottish coast and connect via an offshore AC substation to the shore, providing enough electricity to power the equivalent of 1.3 million homes. While serving as the longest direct current (DC) subsea cable at 765km, Viking Link will enable the exchange of power across broders, functioning as an electrical superhigway connecting the British and Danish power grids.

The North Sea, once the scene of Europe's oil and gas exploration, is becoming a showcase for a diverse mix of green technology in renewable power generation, infrastructure and Power-to-X - and these are just some examples of high-tech projects delivering sustainable energy for other regions.

Brazil, for example, could connect gigawatts of untapped offshore wind potential along the Atlantic to the grid. The High Plains in Texas alone could supply enough wind energy to power 9 million homes in the US. And China's western deserts, rich in wind and sun, could help the country peak greenhouse gas emissions by 2030.

Tripling the world's renewable energy capacity by 2030

The next five years are critical for climate action. Greenhouse gas emissions must be cut by 43 percent by 2030 (compared to 2019 levels) to limit global warming to 1.5°C, according to the IPCC. In response, 118 governments at COP28 pledged to triple the world's renewable energy capacity by that time, and major industries have pledged to scale up zero-emission fuels derived from green hydrogen to 11 million tonnes.

Worldwide, the Global Wind Energy Council's rolling ten year outlook details that, with the right regulatory framework, 410 gigawatts of offshore wind capacity can be deployed by 2033. But the rapid expansion of offshore wind "must be built on a growing collaboration between industry and government and the creation of streamlined and effective policy and regulatory frameworks". And the energy transition isn't done with generation; as a second step, electricity and hydrogen need to be transported where they are needed.

The projects in the North Sea are a prime example of how collaboration can help reach those goals. In 2022, the governments of Belgium, Denmark, Germany and the Netherlands signed the Esbjerg Declaration, initiating a cross-border collaboration to make the region "the green power plant of Europe". Last year they increased their targets from 30 gigawatts today to 120 gigawatts by 2030 and up to 300 gigawatts by 2050, covering more than half the renewable capacity required to make the EU climate neutral.

Explore the map of the North Sea and its neighboring countries, known for its rich natural resources and strategic location in the heart of Europe.

Mitigating climate change with connecting green power

For the North Sea, several key factors make it a complete energy hub. Northwestern Europe, with its long coastline, ferocious storms and towering waves, can be a harsh environment, but "it's a great place for offshore wind," says Lottie Edwards, Platform Package Manager at Siemens Energy. "It's one of the windiest places on the planet." Shallow waters make it easy to install turbines, plus the geology that kept natural gas in place for millions of years is the perfect place to bury carbon dioxide.

Edwards is responsible for installing and commissioning the transmission equipment for the Moray West project, an 882-megawatt wind power plan 22.5 kilometers from Scotland's coastline. "When completed, the project will offset 1.1 million tons of CO₂ emissions each year," says Edwards, "and provide enough renewable electricity for the equivalent of 1.3 million homes."

"The countries surroding the North Sea are in a great position to transition to a greener energy mix", says Lottie Edwards, Platform Package Manager at Siemens Energy.

Ensuring cross-border power exchange

Viking Link is another project that illustrates how cross-border collaboration is key to building green energy hubs: A 765-kilometer high-voltage interconnector, the world's longest undersea cable, linking Denmark and the UK. This superhighway allows electricity to be transmitted between the two countries in both directions.

Such interconnectors help optimize the use of wind power, says Peter Weinreich-Jensen, Managing Director at Siemens Energy in Denmark. "We can send wind power to Denmark. Then after a few hours, when the winds blow in Denmark, we can send power back to the UK, exploiting excess energy and stabilizing the grid."

The Danish power grid is also connected to the German one, adds Weinreich-Jensen, and allows electricity to be traded across Europe, impacting the continent's green energy transition and increasing its energy security.

Peter Weinreich-Jensen, Managing Director at Siemens Energy in Denmark and Jørgen Holgaard, Senior Project Manager at Siemens Energy at the convertor station of the Viking Link, HVDC interconnector.

Accelerating green shipping with hydrogen

The North Sea offers yet another way to use renewable energy with the production and storage of green hydrogen through electrolysis. In Kassø, Denmark, the world's largest e-Methanol production plant is being built, which will produce 42,000 tons of e-Methanol annually, synthesized from hydrogen and captured CO₂. "The electricity for the 50-megawatt electrolyzer plant will come from a local solar park and wind power from the sea," says Holger Riess, Project Manager for Siemens Energy in Kassø.

Most of the e-Methanol will be supplied to the Danish shipping group, Maersk, to power their container ships. The green fuel is seen as crucial to the energy transition in shipping, which accounts for 3 percent of global greenhouse gas emissions. "There are about 55,000 ships in the maritime sector that run on fossil fuels, and e-Methanol is seen as one of the most important solutions to make these ships carbon neutral," Riess says.

Hydrogen is not only in demand for shipping, but will also be used to reduce emissions from steel mills, refineries and the chemical industry. However, this will require millions of tons of green fuels. For the green transition, the world will need many energy hubs like the North Sea - with large-scale production of energy from renewable sources, interconnected grids and powerful plants to produce clean fuels.

Holger Riess, Project Manager, Siemens Energy and Andres Brendstrup, Head of EPC, European Energy A/S at the solar farm for hydrogen production in Kassø, Denmark.

Investing in the energy transition: green jobs and economic growth

To reach net zero emissions by mid-century, reports the International Energy Agency in their Net Zero by 2050, "annual clean energy investment worldwide will need to more than triple by 2030 to around $4 trillion. This will create millions of new jobs, significantly lift global economic growth, and achieve universal access to electricity and clean cooking worldwide by the end of the decade."

It is no surprise that creating a green energy hub in the North Sea is attracting global interest. Political stakeholders from as Australia, Japan and Vietnam have come to see what it takes to establish an integrated system that brings not only clean power, but also green jobs. "The countries surrounding the North Sea are in a great position to transition to a greener energy mix," says Lottie Edwards.

Creating a standard for these new projects is important, says Edwards, adding that bringing in the experience from building similar facilities and using the standard designs developed in previous projects makes the process run smoothly and efficiently. Moreover, the experience can be applied to projects in other parts of the world: "If we can do it here," says Edwards, "we can do it anywhere".

Infrastructure like the Viking Link interconnector are vital tackling emission goals and ensuring energy security.

About the author: Niels Anner is an independent journalist based in Copenhagen, who writes on business, science, technology and society in Northern Europe.

Combined picture and video credits: Siemens Energy

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