This is a cross-sector collaboration of leading individuals from the public, private and social sectors to make recommendations that will contribute to the energy transition.
We believe that our capacity to innovate and to take a long-term view on investment, along with our experience, can help us to make an important contribution to the energy transition. You are here: You are in: Sustainability Report home Energy transition The energy future Energy transition Energy transition Meeting the energy challenge A successful energy transition requires sustained and substantial investment in all energy sources, including oil and gas production, to meet the global demand needed to fuel economic development.
Managing the transition The Paris Agreement has set the global direction for the energy transition. Mitigating climate change Net-zero emissions is a potentially achievable societal ambition.
Dutch urge swift EU hydrogen push to cut industry, transport emissions – gioretpitofjo.ml
Towards a lower-carbon future Shell is working to meet the energy challenge in many different ways:. Investment in lower-carbon technologies such as hydrogen and wind. Continued investment in oil and gas to meet growing demand. Advocating government-led carbon-pricing mechanisms. Chart generator.
Download centre. You may also be interested in. GRI Index. More in the report Reducing emissions Carbon capture and storage Biofuels Energy-efficient transport. More on other Shell websites Our work in cleaner energy, future transport, cities and the Shell Scenarios.
The Hydrogen Energy Transition : Cutting Carbon from Transportation
Excess variable power which is energy produced by intermittent wind and solar projects can now be directed to hydrogen production and used in transport, industry or gas grid injection. Used in this way, hydrogen becomes a source of storage for renewable electricity, keeps power system flexible and helps to balance the grid.
Hydrogen offers possibilities to tap high quality renewable energy resources. Often, the best solar and wind resources are located far from end-users in cities and major urban centres.
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Hydrogen, once produced, can be transported on land like liquefied natural gas as a global commodity unconstrained by grid connections. Hydrogen can take advantage of existing energy infrastructure. Up to a certain share, hydrogen can be injected into natural gas grids reducing the emissions of existing gas infrastructure, such as gas turbines for the power sector.
The Hydrogen Energy Transition: Cutting Carbon from Transportation
Fuelled by hydrogen, fuel cell electric vehicles FCEVs offer consumers a low emission driving performance similar to a conventional vehicle when the hydrogen is produced from renewable energy sources. Fuel cells vehicles can complement electric vehicles, overcoming the weight, range and charging limitations associated with EVs.
Hydrogen may become a key contributor to a potential per cent renewable energy future. To get there however, costs reductions are necessary and only possible through economies of scale. With enabling policies and regulatory frameworks in place, more private investment will be stimulated allowing technologies to mature resulting in cost reductions.
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