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Why Hydrogen Fuel Cell Adoption Is Accelerating in Marine Markets, Explains IDTechEx

Today, liquified natural gas (LNG) vessels are the largest alternative fuel in marine markets. The global LNG fleet has been growing for decades, driven by an initial policy aimed at reducing localized emissions such as sulfur oxides, nitrous oxides, and particulate matter. However, the focus is now shifting towards reducing emissions of greenhouse gases, such as carbon dioxide and methane. Today, liquified natural gas (LNG) vessels are the largest alternative fuel in marine markets. The global...
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Today, liquified natural gas (LNG) vessels are the largest alternative fuel in marine markets. The global LNG fleet has been growing for decades, driven by an initial policy aimed at reducing localized emissions such as sulfur oxides, nitrous oxides, and particulate matter. However, the focus is now shifting towards reducing emissions of greenhouse gases, such as carbon dioxide and methane.

Indeed, new IMO (International Maritime Organization) policy includes an 'Energy Efficiency Existing Ship Index (EEXI)' and the Carbon Intensity Indicator (CII). EEXI ensures a ship is taking technical steps, in terms of how it is equipped and retrofitted, to reduce greenhouse gas emissions. CII is a measure of the carbon emissions per amount of cargo carried per mile and targets reducing emissions operationally. The measures are expected to become mandatory from 2023, with the first ship ratings given in 2024. Such regulations will be difficult to achieve without fundamental changes to the ways in which vessels are powered.

The new regulations undermine LNG use as a long-term solution because of methane slip, which occurs at every step in LNG's lifecycle, alongside energy-intensive cooling (–161C) and re-gassing requirements. However, IDTechEx expects the regulations will create opportunities for alternative fuels, including green hydrogen, green ammonia, or e-fuels combined with carbon capture. To learn more about carbon capture and utilization, see the IDTechEx report "Carbon Dioxide (CO₂) Utilization 2022-2042: Technologies, Market Forecasts, and Players".

The chemical energy held in alternative fuels can be converted into mechanical energy in multiple ways, including combustion; however, fuel cells offer great potential as a highly efficient solution, with a pathway to zero-emissions using green fuels. Currently, there are two main options for fuel cells in the marine environment – PEMFC, using green hydrogen, and SOFC, which are fuel flexible but notably can run on green ammonia, a derivative of green hydrogen.

Today, PEMFCs are the most technologically mature fuel cell technology. This has been driven by their high-power density and ambient temperature operation, making them suitable across various transport applications. Indeed, companies like Toyota, Hyundai, and Ballard have invested heavily in advancing and commercializing the technology in road sectors. While fuel cell vehicles have yet to demonstrate meaningful market adoption, the technological advancements behind them are enabling rapid commercialization in the marine sector.

Leading marine PEMFC suppliers include Nedstack, Powercell, and Ballard, which are vertically integrated pure-play companies. Corvus Energy is another notable contender with plans to release its first FC product over the next few years using fuel cells sourced from Toyota. While none of these companies began supplying fuel cells to the marine sector – Nedstack began with stationary power, PowerCell is a spin-out from Volvo, Ballard supplies heavy-duty road vehicles, and Corvus Energy is the leading maritime battery supplier – all have begun to pivot to the sector as opportunities have been created by regulation and funding.

Innovations from these players are also driving sales, with recent products greatly increasing power density and safety. Indeed, improvements include the use of novel stainless steel plate materials (increasing volumetric power density by around 40%) alongside double-walled hydrogen pipes, ventilation fans, and hydrogen sensors, allowing the fuel cell to be installed within the ship (rather than on the open-deck) – a gamechanger.

As is evident, the stars have been aligning for marine fuel cell markets over the past couple of years, and the average system size per vessel has now jumped to over 1MW, according to the project database tracked by IDTechEx in "Fuel Cell Boats & Ships 2023-2033: PEMFC, SOFC, Hydrogen, Ammonia, LNG". Currently, end-use is dominated by a few large systems in inland cargo vessels, workboats, offshore support vessels (OSVs), tugs, cruise ships, and ferries. Amongst the largest orders are a 3.2MW PEMFC system from PowerCell, a 2MW SOFC system from Alma Clean Power (for the Viking Energy OSV), and individual 2MW PEMFC orders for the H-Tug and Ulstein OSV to be delivered by Nedstack.

IDTechEx expects that most orders in the mid-term will use PEMFC technology and remain in inland and coastal sectors (due to the volumetric limits of hydrogen). Nevertheless, the market today is just getting started, and the IDTechEx report predicts a total of 6MW will have been delivered to vessels by the end of 2022. Since most deliveries are pilot projects for fleet operators, each with fleet sizes of hundreds to thousands of similar vessels, repeat orders are poised to drive rapid market growth.

This article is based on IDTechEx's broad research portfolio, which tracks the adoption of electric vehicle demand & technology trends across land, sea, and air, helping one navigate whatever may be ahead. Find out more at www.IDTechEx.com/Research/EV.

IDTechEx guides your strategic business decisions through its Research, Subscription and Consultancy products, helping you profit from emerging technologies. For more information, contact research@IDTechEx.com or visit www.IDTechEx.com.

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Lucy Rogers 
Sales and Marketing Administrator
press@IDTechEx.com
+44(0)1223 812300

Twitter: www.twitter.com/IDTechEx
LinkedIn: www.linkedin.com/company/IDTechEx 
Facebook: www.facebook.com/IDTechExResearch

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