Statkraft: Greater action needed to meet energy transition targets

“The world has been called to arms, to work in unison to slow the warming of our planet. It’s the mission of a lifetime, one that will define our generation. With the world slowly re-opening, so too are emissions returning to pre-pandemic levels, reinforcing our belief that the only way towards a 1.5°C path is through the energy transition,” says Statkraft Chief Executive Officer, Christian Rynning-Tønnesen.

Each year, Statkraft develops its ‘Low Emissions Scenario’, analysing developments in the global energy markets. The analysis is used as a foundation for the company’s future investments and for the sixth consecutive year, it has shared its key findings:

Green investments: Growth in renewable energy is ‘unstoppable’

• Green investments increased in 2020 despite the economic downturn caused by the pandemic. Investments in renewable power was 7% higher in 2020 than in 2019.
• Renewable energy is already in most places cheaper than fossil fuels when investing in new capacity. Solar and wind technologies outcompete existing coal and gas power plants in more and more places.
• Costs are on a declining trend. In general, for €1 invested in solar photovoltaic (PV) and wind today you get approximately four times the output compared to what you did 10 years ago.
• Solar power capacity will grow by a factor of 21, and wind power by a factor of seven between today to 2050. Solar and wind power will supply about 2/3 of the global power system.
• Power demand more than doubles to 2050 and all this growth and more is covered by renewable power. Renewable energy will supply approximately 80% of the global power system in 2050.

Electrification: Electrification cuts emissions locally and globally

• Electrification is the main tool for cutting CO₂ emissions. The share of electricity in final global energy demand will more than double to reach 47% in 2050.
• Energy saved is the most environmentally friendly form of energy. Electricity is more effective than fossil energy sources in most applications. In for example heating up a house, a heat pump needs merely 1/3 of the energy compared to a gas boiler. The same goes for electric vehicles, that require approximately 1/3 of the energy fossil fuel vehicles require to go the same distance.
• Emissions will be eliminated if the electricity originates from renewable energy sources. Electricity production from a gradually more renewable energy sector is the key to decarbonisation in the ‘Low Emissions Scenario’.
• 2020 was a good year for electric vehicles (EVs). Global sales of battery-electric cars increased by 40%, even if total car sales fell.
• The ‘Low Emissions Scenario’ estimates that almost all new lighter vehicles will be battery-powered, while around half of new heavier vehicles will run on battery or hydrogen in 2050 worldwide.

From 2° to 1.5°: Need to dramatically scale up transition

• The combined effect of lower renewable energy costs and stronger climate policies will result in carbon emissions following a 2°C pathway. Stopping global warming at 1.5°C, however, will require a substantial increase in both political ambitions and pace of global action.
• 2020 saw record high buildout of solar and wind power. But we need to install more than twice as much every year to 2050 to limit global warming to 2°C.

Green hydrogen: Fuelling the race to net-zero

• Green hydrogen is necessary to limit climate change to Paris Agreement levels.
• Regional hydrogen markets and seasonal storage become increasingly attractive with higher power price variation.
• Hydrogen will play a significant role in the 2050 energy system. On a windy day, electrolysers run by wind power can produce tons of green hydrogen. Electrolysers and storages combined can provide industry with a steady flow of green hydrogen.
• Approximately 10% (9.6%) of global power demand will come from green hydrogen production in 2050 and more than 20% for Europe in the ‘Low Emissions Scenario’.
• The costs of electrolysers have fallen by 60% over the last five years. This decline is expected to continue due to increased automation, standardisation, and technology improvements. Investment costs for green hydrogen production are expected to fall an additional 60% by 2050. Falling costs of both renewable energy and electrolysers will make an increasingly attractive business case for green hydrogen.
• The majority of clean hydrogen will go to industry: both to replace existing hydrogen feedstock and remove emissions in industries where direct electrification is impossible or costly, e.g. the steel industry.

For more news and technical articles from the global renewable industry, read the latest issue of Energy Global magazine.

Energy Global's Autumn 2021 issue

The Autumn issue of Energy Global features a varied spectrum of in-depth technical articles detailing recent projects, future projections, and technological advancements in the renewables sector, from companies including MISTRAS Group, Fugro, X1 Wind, Sulzer, and more.

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