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The Technology Progress Report, a new supplement to DNV’s annual Energy Transition Outlook, considers safety, efficiency, and competitiveness as well as the technical capability of these technologies, to deliver the deep decarbonization the world is striving for.

decarbonized energy system

Remi Eriksen, the Group President and CEO of DNV said, “The world needs to transition faster to a deeply decarbonized energy system, reducing emissions by around 8% each year to ensure an energy future compliant with the 1.5-degree ambition set under the Paris Agreement."

Remi Eriksen adds, "This urgent and complex challenge requires full energy system thinking: understanding the timeline and interdependencies of technologies, policies, and the difficult decisions that need to be made.”

emissions reductions

The challenge lies in navigating how and when to implement technologies that are at different stages of maturity

The technologies that have the potential to decarbonize the world’s energy system are well known. The challenge lies in navigating how and when to implement these technologies, which are at different stages of maturity, and in managing how they interact and rely on one another.

Understanding this will enable industry, governments, and those financing the transition to effectively prioritize their efforts, to achieve the emissions reductions required this year, next year, and every year through to mid-century.

Technology Progress Report

The Technology Progress Report’s 10 areas of focus were identified with two main criteria, first their ability to achieve an observable shift in the energy system, based on how quickly it is being deployed, and how much costs are expected to fall over the next five years.

The second is how the technologies interact with each other, sometimes referred to as sector coupling. When several technologies overlap and co-operate, a step change that accelerates the uptake of new technologies can follow.

electric vehicles

A lot can change in five years. It wasn’t that long ago that electric vehicles (EVs) were a novelty for early adopters,” said Sverre Alvik, the Energy Transition Outlook Director at DNV, adding “Now, the EV revolution is becoming visible, and by 2025 there will be 13 million EVs on the roads in Europe alone.”

Sverre Alvik continues, “Less than five years ago, hydrogen was not really on the radar as a key energy carrier; now, many roads to decarbonizing hard-to-abate sectors lead to hydrogen, and hydrogen strategies are established in countries and companies.”

net-zero

In energy production, solar PV will grow with its progressing development

DNV’s technology analysis reaffirms that there is no “silver bullet” and that the world needs to act urgently on multiple fronts to reach net-zero by mid-century. These include growing electricity from renewables, further improvements in energy efficiency, and carbon capture and storage (CCS).

In energy production, solar PV will grow with its progressing development, but will more and more be supplemented by floating wind, and waste-to-fuel and feedstock can help decarbonize hard-to-abate sectors.

energy transport, storage, and distribution

The utilization of pipelines for low carbon gases, meshed HVDC grids, and new battery technologies are considered important to advance energy transport, storage, and distribution.

Energy use considers the production of green hydrogen and scaling of CCS to effectively decarbonize manufacturing as well as energy production. It also looks at novel shipping technologies and the continued rise of electric vehicles and their integration with power grids.

green hydrogen

Existing competitive technologies, such as solar and wind power, need to take full advantage of the virtuous circle where cost decline both causes and is caused by the growing number of unit installations. For less-mature technologies, like green hydrogen, scaling from prototype to worldwide commercial uptake is critical,” said Sverre Alvik.

Sverre Alvik concludes, “Crucially, these technologies are interconnected. For example, one cannot model green hydrogen uptake without understanding developments in renewable production of power; and an understanding of CCS is not complete without considering technical requirements for pipelines transporting the CO2.”

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