Cummins H2 hydrogen truck.

In addition to working on hydrogen infrastructure and storage technologies, Cummins has been developing hydrogen-fueled engines for over three years. 

Photo: Cummins

In many ways, there is a lot of hope hanging on hydrogen in the trucking industry. Fleets are desperate for a diesel-like, zero-emission propulsion option for heavy trucks. And despite some concerns, there is widespread optimism that hydrogen could provide fleets with those capabilities burned as a liquid fuel in internal combustion engines.

On July 24, the Engine Technology Forum held a webinar to outline a new white paper, Powering On: Internal Combustion Engines & the Clean Energy Future. The purpose of the white paper is to detail where the development of hydrogen ICEs stands at the moment, and highlight what advantages this technology could eventually yield for heavy truck fleet operations.

Cummins hydrogen engine timeline chart.

Cummins expects to see scale production of hydrogen ICEs as early as 2028.

Graphic: Cummins

Allen Schaeffer, executive director of the ETF, opened the webinar by noting that internal combustion engines are the standard, and typically the only, power option in hundreds of applications serving every corner of the globe.

Furthermore, he noted, the magnitude of the global reliance on ICEs and the extraordinary challenges of transitioning to different energy systems strongly suggests a continued role for these engines many decades into the future, even as new fuels and technologies emerge.

“Our global economy relies almost solely on internal combustion engines for all of its power and mobility needs, Schaeffer said.

“All decarbonization technologies that are being implemented, or considered, face various limits and barriers. ICEs are uniquely positioned for the future, leveraging today’s fossil-fuel based economy and adapting to tomorrow’s more sustainable one that relies on renewable fuels and dramatically reduced carbon.”

The Staying Power of the Internal Combustion Engine

According to Schaeffer, internal combustion engines will continue to thrive and dominate most sectors of the economy for decades to come for three reasons:

  • Near sole reliance on ICE and its supporting infrastructure across wide sectors of the global economy for which there is no suitable alternative
  • Continuous improvements in efficiency and lower emissions, as well as significant opportunities for using lower carbon fuels that position it to compete with emerging alternatives
  • Delays and uncertainties due to funding support, infrastructure, market acceptance, as well as many other factors inherent in introducing new fuels and energy systems.

“We will need an increasingly diversified energy and technology portfolio that embraces advanced internal combustion engines with a greater reliance on low-carbon renewable liquid and gaseous fuels and hydrogen,” Schaeffer said.

ETF zero-emission propulsion chart.

The Engine Technology Forum believes hydrogen ICEs will be ideal for zer-emission heavy truck transport applications. 

Graphic: Engine Technology Forum

ICEs are expected not only to have staying power in the marketplace, but also growth for another decade or more, Schaeffer said. Various market forecasts predict combined annual growth rates as much as 9% from 2023-2030.

Though increasingly stringent future emissions standards are designed to accelerate the introduction of zero-emissions vehicles, it is still projected that ICE technology will power one third to one-half of the new vehicle fleet in 2032.

For the largest commercial vehicles, ICE technology is predicted to be the power source for 75% of the new vehicles. The staying power of advanced ICE is even more pronounced in heavy-duty off-road applications in agriculture, construction, marine, rail and power generation.

Complementary Sustainability Technologies

The path to the future for ICEs is well under way, Schaeffer said. That process involves building on past progress to meet new emissions and fuel efficiency requirements — and a considerable increase in the use of low-carbon renewable fuels such as renewable gasoline, renewable diesel, renewable natural gas, biodiesel, hydrogen, as well as e-fuels now under development.

According to the white paper, life cycle analysis shows that ultimately, the key factor to reduce emissions is the fuel rather than the powertrain. In other words, the source of the GHG emission problem is fossil fuels, not the internal combustion engine.

A group of panelists spoke to the various challenges and opportunities the shift away from fossil fuels presents for ICEs in heavy truck applications. They included:

  • Jim Nebergall, Executive Director – EBU Market Strategy, Cummins
  • Ivan Tate, Head of Technical Center, FPT Industrial
  • Louise Arnold, Product Line Director, Johnson Matthey
  • Dmitri Konson, Vice President Engineering, Tenneco Clean Air

“All OEMs have some form of hydrogen ICE development going on today,” said Ameya Joshi, vice president of ClearFlame, in introductory remarks.

“A massive amount of work is being done. As a result, engine technology has advanced quite a bit over the past few years. But there is still a lot of work to be done in improving the efficiency of a hydrogen ICE.”

Cummins has been working on hydrogen ICE technology for three years, Nebergall said in his opening remarks. “Cummins is also investing in the economic systems needed to produce and store renewable green hydrogen,” he added.

In Cummins’ view, hydrogen will be the future fuel for both ICEs and fuel cell battery electric trucks.

“We view these as complementary technologies,” he explained. “Hydrogen ICEs complement fuel cell vehicles because both approaches will allow us to build the scale and volume needed to increase demand. And having both technologies in play drives the faster creation and establishment of a hydrogen fueling infrastructure.”

The Most Diesel-Like Option Available

Most importantly, Nebergall said hydrogen ICEs aren’t a flight of fancy.

“We already know how to make engines run with hydrogen as fuel,” he said.

“And end users are excited about this technology because it can provide them with the most diesel-like, green fuel solution available to us. It provides both the power and torque they need to move heavy goods. And a hydrogen ICE can operate in the existing trucking environment and applications that we have today.”

Cummins hydrogen engine chart.

Hydrogen-powered engines couled be a drop-in replacement for diesel in trucking, construction and industrial applications.

Graphic: Cummins

Johnson Matthey developed the hydrogen fuel cell for NASA that landed men on the Moon, Louise Arnold said.

“The great thing about hydrogen is that it can be almost a drop-in substitution for diesel fuel,” she said. “And, in the long term, it can be a great enabler that will allow us to eventually get to an even lower-carbon future in trucking.”

Battery-electric trucks are a great option for low- to medium-power requirements that don’t have range requirements beyond the battery’s technology, added Dmitri Konson with Tenneco Clean Air. BEVs also require time in the workday to pause and recharge the truck – although nighttime charging is the perfect solution for that requirement.

And fuel cell trucks pretty much follow that degree of functionality, Konson added. Fuel cell trucks have longer range than BEVs, and the processes and times required to refuel them are a lot more practical for fleets.

“But,” Konson noted, “high-power/high-range trucking applications need a propulsion technology that has good energy density, practical refueling times, and the robustness, durability and resistance to impurities that will allow it work in construction and agriculture as well as on-highway. And we believe that hydrogen ICEs are the power solution for green high-power/high-range applications.”

Green Hydrogen and Engine Aftertreatment

There are several different kinds of hydrogen available. Green hydrogen, which is produced with renewable energy, is the most desirable for long-term sustainability goals.

Arnold said that depending on where hydrogen fuel comes from and how it was produced, it can have different levels of purity. But a hydrogen engine can run any of them without any issues.

“Impurities in hydrogen as a fuel are quite low,” she added. “Which means on the emission end of things, tailpipe emissions are as close to zero as we can possibly measure. Essentially, what is coming out of the exhaust pipe is cleaner than what is going into the engine.”

ETF hydrogen fuel grade charts.

Hydrogen engines can burn any form of the fuel without any issue. 

Graphic: Engine Technology Forum

“The amount of nitrogen in hydrogen is very small,” Konson added. “So there are no NOx emissions coming out of the engine.”

But, he said, burning hydrogen as an engine fuel produces water as a byproduct of the combustion process.

“That water creates some challenges for us in terms of aftertreatment systems,” he said. “But with the right thermal management in the engine, we are confident those problems can be overcome.”

At the end of the day, though, Konson said hydrogen ICEs will eventually introduce reduced complexity and cost into fleet management operations.

“I think that costs will trend down from the baseline of diesel operations today,” he said. “We still have many complex technical issues to work out. But, eventually we will reach a consensus in the engine design world as to what the combustion process will be and what form of hydrogen these engines will use as fuel. As with a smaller number of technical options in play will come decreased complexity and cost.”

The ultimate goal, Tate with FTP Industrial said, is to create hydrogen ICEs that are dollar-for-dollar, and hour-for-hour, as capable as diesel engines are today.

“And these will be all-new engines,” he added. “Although many of the components on a hydrogen engine are the same as a diesel, it costs significantly more to retrofit a diesel engine to burn hydrogen than to simply purchase a new engine.”

There is much more in the ETF white paper detailing the future of hydrogen ICE technology, which can be downloaded here: https://enginetechforum.org/internal-combustion-engine-primer.

About the author
Jack Roberts

Jack Roberts

Executive Editor

Jack Roberts is known for reporting on advanced technology, such as intelligent drivetrains and autonomous vehicles. A commercial driver’s license holder, he also does test drives of new equipment and covers topics such as maintenance, fuel economy, vocational and medium-duty trucks and tires.

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