A future powered by fuel cells

Fuel cell vehicles allow longer distances and are not temperature sensitive A future powered by fuel cells FEATURED STORY

Fuel cell vehicles allow longer distances and are not temperature sensitive

As the world seeks to transition away from fossil-based energy sources, multiple alternatives are needed. Hydrogen fuel cell technology is emerging as a green energy frontrunner.

Text and images by Alleima

The need for climate action is more urgent than ever, and with it, the race to identify the next viable energy source is on. While electric vehicles and batteries took an early lead, hydrogen is making a fierce comeback – especially in the form of hydrogen-powered fuel cells.

What are fuel cells?

Fuel cells were initially developed back in the 1830s as an efficient solution for generating electricity through an electrochemical reaction instead of combustion. Providing they have access to a continuous source of fuel and oxygen, fuel cells produce a steady and unbroken supply of electricity.

There are various types of fuel cells, although the most common at present is the proton-exchange membrane fuel cell (PEMFC), which uses hydrogen as fuel to generate electricity. Crucially, heat and water are the only by-products – or emissions – from this fuel cell. Estimates on how fast the fuel cell market will grow to vary, but there is consensus in expectations that the market will grow by double-digit numbers until 2030.1 The growth, CAGR, may vary between different applications but remain high in every area.

To understand what drives these bold projections, you need to look no further than the organisations throwing their support behind H2 fuel cells.

Growing hydrogen portfolios

The emerging industry is about to launch a few industrial scale-ups, and factories are being built to produce high-volume components and complete units. Except for car makers such as Toyota and Hyundai, which have produced FCEV for a long time, recent projects are Hyzon and Nikola, both in the commercial vehicle industry. They are setting up plants in the Netherlands and Germany to produce about 2,000-10,000 units per year.

Moreover, Volvo Trucks is expected to launch its first fuel-cell electric truck powered by hydrogen in the second half of this decade. “The combination of battery electric and fuel cell electric will enable our customers to completely eliminate CO2 exhaust emissions from their trucks, no matter transport assignments,” said Roger Alm, President of Volvo Trucks, in a press statement.2

Infrastructure, supply and cost

When many industry leaders are getting behind fuel cells, you may wonder what is preventing a mass rollout. According to Henrik Fintling, General Manager, Alleima Surface Technology, the answer is a lack of infrastructure, governmental policies, and low volumes. This means a higher than necessary cost per unit. Concerning the former, there is an ongoing drive – especially in Europe – to expand access to hydrogen refuelling stations. For example, the German H2Mobility program, funded by the German Federal Ministry for Digital and Transport (BMVD) and the European Commission’s Hydrogen Mobility Europe project, is developing a nationwide hydrogen infrastructure. Elsewhere, similar initiatives are in the pipeline. As for supply and cost, this is where Alleima comes in.

“We’re an enabler to make the transition to green energy possible,” says Henrik Fintling, adding that one of the problems with any new technology is that low initial volumes come with high per-unit costs. “Alleima is uniquely positioned to support large-scale production, thus getting the cost per unit down to make fuel cell technology commercially viable,” he continues.

Pre-coated steel strips for H2 fuel cell stacks

The Smarter Coatings pre-coated strip steel concept enhances the surface properties by reducing electrical resistance and improving corrosion resistance.
The Smarter Coatings pre-coated strip steel concept enhances the surface properties by reducing electrical resistance and improving corrosion resistance.

Alleima offers a portfolio of pre-coated steel strips for forming and welding bipolar plates, critical components in the hydrogen fuel cell stack.

At its manufacturing plant in Sandviken, Sweden, Alleima has the capacity for the high-volume production of this coated strip steel using an environmentally friendly vacuum coating process. Using a high-speed, controlled and accurate process, it can coat layers in the nanometer range, which are suitable for two key fuel cell application areas: transportation and stationary power. The latter is especially interesting, says Henrik Fintling, because, unlike fuel cells for transportation, which can only be powered by pure hydrogen, the ones used in stationary power applications, such as combined heat and power units (CHPs) and auxiliary power units (APUs), are fuel flexible. This means they could also be powered by compressed natural gas (CNG), biomethane, or ammonia for example.

Henrik Fintling explains how the pre-coated steel strips stand out from the regular coating methods. He says that, while it is possible to achieve fairly high levels through automation with the competing methods, pre-coated steel can be mass-produced at volumes that really make the supply chain truly cost-effective – and without compromising on quality.

Conductivity & corrosion resistance

The Alleima pre-coated strip steel concept for fuel cells is known as the Smarter Coatings concept. This means that, while the commodity stainless steel has good formability and stability, the coatings enhance the surface properties by reducing the electrical resistance and improving the corrosion resistance. The product range for fuel cells includes the Sanergy™ LT pre-coated stainless strip designed for PEMFC fuel cell applications that are favoured for hydrogen-powered vehicles, and Sanergy™ HT for interconnects in solid oxide fuel cell (SOFC) applications. The latter run at a high operation temperature and are typically used in stationary applications.

Many different types of energy

Providing they have access to a continuous source of fuel and oxygen, fuel cells produce a steady supply of electricity.
Providing they have access to a continuous source of fuel and oxygen, fuel cells produce a steady supply of electricity.

As for the renewable energy race, Henrik Fintling is not putting his money on any single candidate, believing instead that a range of solutions will be needed to cross the finish line.
“The new energy landscape will include many different types of energy and applications,” he says.
For example, whereas regular passenger cars are well suited to battery applications, fuel cell vehicles allow longer distances and are not temperature sensitive, making them more useful in heavy-duty or long-haul applications – in warm as well as cold climates.”
This view is echoed by Roger Alm from Volvo Trucks: “Hydrogen-powered fuel cell electric trucks will be especially suitable for long distances and heavy, energy-demanding assignments,” he said.2

Moreover, stationary power as SOFC fuel cells is getting more and more efficient and outcompetes for instance gas turbine power units in efficiency. As a SOFC metal-based fuel cell, a CHP unit provides >60% pure electrical power and 20% useful residual heat, all in all, >80% efficiency. This means that the consumption of for example CNG will be 25-30% less than today’s many gas turbines. And of course, the SOFC-cell can also run on partly, or pure, hydrogen.

“Sustainability is present in all aspects of our operations and is an integral part of our commercial strategy. The main contribution to sustainability is through our product offering, enabling the transition to renewable energy sources, electrification of industries, innovation in the medical sector and much more. We also actively seek to minimise the impact on the environment via our operations,” says Göran Björkman, President and CEO of Alleima.


  1. Fuel Cell Market Size By Product (PEMFC, DMFC, SOFC, PAFC & AFC, MCFC), By Application (Stationary, Portable, Transport), COVID-19 Impact Analysis, Regional Outlook, Application Potential, Competitive Market Share & Forecast, 2022 – 2030. GMInsights.com.
  2. Volvo Trucks showcases new zero-emissions truck. Volvotrucks.com

About this Featured Story

This Featured Story appeared in Stainless Steel World August 2023 magazine. To read many more articles like these on an (almost) monthly basis, subscribe to our magazine (available in print and digital format) – SUBSCRIPTIONS TO OUR DIGITAL VERSION ARE NOW FREE.

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