Transitioning global shipping from a carbon dependent industry into one that operates without greenhouse gas (GHG) emissions is a massive task. Container and roro carriers are already investing in the development of zero GHG technologies and are committed to enabling the industry’s transition to zero, but clear global regulations are needed. The World Shipping Council (WSC) has identified six regulatory and economic pathways, all of which are critical for the nations of the UN International Maritime Organisation to address for a successful maritime energy transition.
In June this year, the 78th session of the International Maritime Organisation’s Marine Environment Protection Committee (IMO MEPC 78) will consider further development of IMO’s GHG Strategy.
decarbonise shipping
There will be no single or simple fuel technology solution, no single party that can set the pace, no single regulation that will drive the necessary change. The reality will be a complex multi-technology, multi-stakeholder development process that needs to be driven and supported by an array of mutually reinforcing global regulations. Maritime actors, technology providers, fuel innovators, organisations and regulators will need to work together to decarbonise shipping in line with the Paris agreement.
“Liner shipping understands the shared responsibility for GHG reductions in the maritime sector, and we don’t underestimate the challenge. We are committed to decarbonizing shipping and have multiple ideas and projects in the pipeline. But to be able make these investments, to take the necessary risks, we – and all other maritime actors – need a regulatory framework that addresses the key strategic issues."
"We are now offering our perspective on the critical pathways the IMO should consider as it tackles this global challenge. Action is needed now by the governments of the IMO so as not to stall development but rather to support ambitious innovators and front runners,” says John Butler, President & CEO of WSC.
The path to zero emissions
WSC has identified six regulatory and economic pathways, all of which are critical for the IMO MEPC to successfully navigate the maritime energy transition:
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A global price on carbon combined with dependable and broad-based “buy down” programmes that effectively level the playing field among newer low and zero GHG ships and the tens of thousands of ships that will still be burning conventional fuels. This will play a large role in making it possible for companies to put zero GHG ships on the water and to operate them competitively.
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Transparent well-to-wake life cycle analysis of fuels, breaking out well-to-tank emissions and tank-to-wake emissions, combined with regulatory mechanisms to incentivize first-movers for use of alternative fuels that offer significant GHG reductions even if they are not available from fully renewable sources from the start.
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Integrated development of global production and supply of zero GHG fuels through partnerships between IMO member states and energy providers, as well as regulatory provisions that allow for flexibility in the initial stages of the energy transition, given that zero GHG fuels will not be available at the same time around the globe.
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A Green Corridors Programme to accelerate an equitable fuel and technology transition, introducing zero GHG ships and fuels across trade lanes where the necessary shoreside energy infrastructure is first available. This will speed development of best practices and encourage IMO member states and interested parties to focus on government-to-government initiatives and coordinated public-private investments to build the necessary production facilities and supply infrastructure.
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New build standards that support the energy transition, such as requiring ships built after a certain date to be able to operate on zero GHG fuels or not allowing the construction of vessels that can only operate on fossil fuels after a certain date.
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Applied R&D for shipboard and shoreside systems that allow the safe use of zero GHG fuels is necessary to put zero emission ships on the water. To avoid accidents and stranded assets, a significant increase in the level of R&D effort and investment is needed to develop the technologies necessary to use the most promising fuels onboard transoceanic ships.