AVL Focus - Issue 2025

T H E AV L M O B I L I T Y T R E N D M A G A Z I N E

2 0 2 5

AI as the

New Engine of

­Mobility Innovation

From Code to Road:

Developed, built, and tested in just twelve

months, the AEE 1 demonstrates how AVL is suc-

cessfully transferring its automotive know-how

into the energy sector.

AVL combines engineering, simulation, and

testing expertise to help OEMs and brake

system suppliers not only comply, but also

create cleaner, safer, and more innovative brake

systems.

AVL’s First

­In-House PEM

Electrolyzer Stack

Meeting Euro 7

­Standards

Artificial intelligence is redefining how we create value, make

decisions, and innovate. It is not a question of if we use AI, but how

responsibly and effectively we do so.

Lukas Walter returns to AVL as Chief Operating Officer

Engineering. In this interview, he shares how curiosity,

responsibility, and innovation drive change.

AVL delivers a modular software toolchain that empowers

OEMs and suppliers to efficiently test and calibrate vehicles

and their components.

Horse, born from Renault’s spin-off with Geely, is

­transforming Valladolid into a hub for next-generation

hybrid technologies, supported by over 100 AVL engineers

­advancing efficient, reliable, and sustainable mobility.

EDITORIAL AND CONTENT

AI as the New

­Engine of ­Mobility

Innovation

“Sometimes You

Just Have to Skip

the ­Hierarchy”

EVolve Mobility:

Faster from Lab to Road

A New Era in

Hybrid Powertrains

22

04 From Code to Road: AI as the New Engine

of Mobility Innovation

06 Between Promise and Responsibility:

The Rise of AI-Driven Vehicle Development

CORPORATE INSIGHTS

08 “Sometimes You Just Have to Skip the Hierarchy” –

­Interview with Lukas Walter

10 AVL Tech Center Steyr: Driving the Future of

Commercial Mobility

12 AVL ZalaZONE Opens New High-Speed Oval

ENERGY AND SUSTAINABILITY

16 AVL’s First In-House PEM Electrolyzer Stack

Hydrogen Innovation Made in Graz and Vancouver

18 HyCentA and AVL: Revolutionizing Hydrogen Technology

­Testing Together

19 First Time Right: How Simulation Drives Electrolyzer Efficiency

and Lifetime from Day One

20 AVL Digital Battery Passport: From Regulation to Real-World

Value

21 From Hydrogen to Air Quality: Why Purity Is the Hidden Hero

of Clean Energy and Clean Air

E-MOBILITY

22 Let’s Release! EVolve Mobility: Faster from Lab to Road

24 AVL Battery Cell Testing: It’s All About Better Batteries

60

04

08

16

40

2 | 3

Dear

Readers,

Innovation is strongest when it is shared. At AVL,

collaboration with customers, partners, and research

institutions has long been the foundation of our

progress. Today, this collaborative spirit gains a new

dimension with the rise of artificial intelligence. AI is

no longer just a tool; it is becoming a true partner that

expands human creativity, shortens innovation cycles,

and enables us to tackle challenges once thought

insurmountable.

Yet, as with every partnership, success depends on

trust and responsibility. Technology alone cannot

define the future. It is how we choose to apply it –

transparently, ethically, and with foresight – that

determines its value for society. For our customers, AI

opens entirely new possibilities to handle complexity,

speed up product validation, and bring innovations

to market faster. It helps to develop vehicles that are

cleaner, safer, and more intelligent throughout their

lifecycle – from design and testing to operation in the

field. For AVL, this means that AI can amplify what we

do best as engineers and innovators, while reminding

us that judgment, creativity, and responsibility remain

essential.

This edition of FOCUS reflects that broader horizon.

Alongside the opportunities of AI, you will find insights

into electrification, hydrogen and fuel cell development,

next-generation vehicle systems, motorsport, and the

global activities of our affiliates. Each story illustrates

that the future of mobility is not shaped in isolation, but

through an ecosystem of ideas, disciplines, and people

working together across the globe.

For AVL, the path forward is clear: combine engineering

excellence with digital intelligence, strengthen

collaboration as the catalyst for progress, and never

lose sight of our responsibility toward people and

planet. In doing so, we aim to turn potential into lasting

impact – for industry, for society, and for generations

to come.

I hope this magazine inspires new perspectives on how

together technology and responsibility can reimagine

mobility.

Prof. Helmut List

Chairman and CEO, AVL

26 Electrochemical Modeling: Redefining Battery Simulation

27 Electrified Powertrain Integration: Two Paths in Focus

28 High-Speed and High-Efficiency EDUs: Driving Innovation in

E-Mobility

30 Over 99.6 % Efficiency: VisIC Technologies and AVL Set New

Standards in GaN Inverters

31 Ready for Take-Off: Validating the Future of Electric Aviation

33 MORELife Project: Unleashing the Potential of Fuel Cells

FUTURE ICE SOLUTIONS

34 Hybrids and Range Extenders: More Than Just Bridging

­Technologies?

36 Achieving IMO CO2 Targets: Converting Traditional Engines to

Alternative Fuels for Maritime Decarbonization

38 Future-Ready Testbeds: Modernization with AVL

39 Pioneering PEMS Testing on Motorcycles in India

NEXT GENERATION VEHICLES

40 We Take Care of Brake Wear: Meeting Euro 7 Standards

42 Steer-by-Wire: Turning the Wheel into the Future

45 AVL ThermalLab™ Is Tackling the Thermal Challenge in BEVs

45 New AVL Tilting Powertrain TS™ Is Expanding the ­Limits of

E-Powertrain Testing

46 Redefining the Vehicle Backbone: AVL’s Approach to SDV E/E

Architectures

47 Modular Vehicle Testbeds: A Turnkey Solution for Faster Testing

48 Vehicle Interior Air Quality: A Breath of Fresh Air for ­Vehicle

Development

49 AVL Prime Mover: How AVL Took the Lead in

F1 ­Transmission Testing

AUTOMATED AND CONNECTED MOBILITY

50 Verification & Validation for ADAS/AD: A Multi-Pillar Approach

for Safe and Scalable Mobility

52 Beyond Infotainment: SDV’s Hidden Impact on ­Development

and Testing

53 TERRA-V: Optimizing Autonomous Mobility in Off-Road

­Environments through Virtual Testing

54 Cyber Security for All Mobility Sectors, Across Every Maturity

Stage

AVL RACETECH

56 go_RACE™ – Changing the Game

58 Multi-Sim: Teaming Up for the Future of Race Simulation

GLOBAL FOOTPRINT

60 From Valladolid to the World: A New Era in Hybrid ­Powertrains

62 Driving Infrastructure Innovation for a Sustainable Future

63 Acquisition of New Customer:

HOPPECKE ­SYSTEMTECHNIK GmbH

64 Japan Technical Center Is Driving Innovation

65 AVL Japan Opens First Skills Center in Nagoya

66 Tackling India’s Battery Testing Challenges

68 PRODUCT AND SOLUTION HIGHLIGHTS

2025

COVER STORY

cross industries, AI is reshaping processes, business

models, and leadership logic. It enhances productivity

and accelerates innovation cycles, while also raising

new questions about skills, responsibility, and trust. For Europe

in particular, the challenge lies in avoiding passivity. A culture

of regulation without decisive action risks leaving innovation

and market leadership to other regions.

Education plays a central role in ensuring sovereignty. Digital

resilience is not built in data centers but in classrooms. Young

people must learn how algorithms work and how to reflect on

their implications. Repetitive entry-level tasks in many profes-

sions, once essential for building judgment and expertise, are

increasingly automated. The risk is not that machines think

better, but that humans stop learning to think for themselves.

Artificial intelligence is not just another wave of digitalization.

It marks a fundamental shift that is transforming economies,

societies, and even our self-perception. Unlike previous

technology trends, AI is spreading at unprecedented speed

and depth, redefining how we create value, make decisions,

and innovate. It is not a question of if we use AI, but how

responsibly and effectively we do so.

AI as the

New Engine of

­Mobility Innovation

From Code to Road:

4 | 5

Business as Bridge Builders

Companies carry a special responsibility for connecting

technology with values and responsibility. AI must not be

reduced to a tool of efficiency but understood as a strategic

enabler.

At AVL, this means combining engineering expertise with

advanced methods in simulation and testing. AI does more

than accelerate processes – it transforms how knowledge

is applied to create enterprise value. By codifying expertise

and enabling seamless collaboration, AI shortens time to

market, improves quality, and strengthens long-term com-

petitiveness. At the same time, trust is essential: only sys-

tems that are transparent, verifiable, and explainable can

serve as a reliable foundation for future business success.

Relevance for the Mobility Industry

Few sectors illustrate the transformative power of AI as

clearly as mobility. Across the entire value chain, AI drives

innovation, enables sustainable business models, and safe-

guards competitiveness in a global market.

For companies, this also means a redefinition of value

itself. Data, algorithms, and platform effects are becoming

strategic assets, intangible yet decisive for enterprise suc-

cess. Leaders must learn to evaluate these new forms of

capital while ensuring that compliance, safety, and societal

acceptance remain intact.

Shaping the Future with Responsibility

AI is a mirror of our thinking. It reflects the values and

responsibility with which we use it. The real risk is not

the technology itself but our passivity, whether through

hesitation, overregulation, or neglecting the education and

empowerment of future generations. To move forward,

three priorities stand out:

• Invest strategically: in research, infrastructure, and skills

to remain competitive

• Embed responsibility: make transparency, fairness, and

accountability core design principles of AI systems

• Foster human learning: ensure that people continue to

develop judgment, creativity, and resilience alongside AI.

Responsibility and strategy must go hand in hand. Only by

combining innovation with accountability can AI become a

trusted partner that creates both societal benefit and sus-

tainable corporate value. For the mobility industry, and for

AVL in particular, this is not an abstract debate. If embraced

with vision and responsibility, AI will not diminish human

ingenuity but amplify it, helping us reimagine mobility as

safer, cleaner, and more sustainable.

Imagination and Courage

Are the True Capital of the

Age of AI

Artificial intelligence is the most profound shift since

Gutenberg’s press. Just as movable type reshaped soci-

ety’s relationship with knowledge, AI is redefining how we

generate insight, make decisions, and create value. It is not

just an incremental tool, but a new grammar of thought

– one that extends our capabilities while shifting parts of

reasoning to systems we must carefully govern.

In mobility, legacy industries are burdened by entrenched

processes, slowing adoption compared to fast-moving sec-

tors like consumer electronics. Overcoming this demands

imagination and courage to rethink structures, redesign

engineering and testing, and pioneer workflows that unlock

innovation despite constraints.

AI is also an engine of discovery. It accelerates research

and simulation, opening frontiers from material science to

predictive vehicle design. What once took years of trial and

error can now be explored in weeks. For leaders, the key

question is not only how to capture efficiency, but how to

invest so that AI expands the frontier of possibility.

However, efficiency gains will not fall evenly. Some will

benefit platforms and productivity; others may free up per-

sonal time. Whether we use it for connection, reflection, or

creativity will decide if AI enriches life or merely accelerates

business.

Imagination and courage will always involve mistakes and

failures. Responsibility in AI does not mean avoiding all

errors, but managing them openly, correcting them quickly,

and turning them into learning. Leaders must create

environments where failure is possible without eroding

trust – where responsibility doesn’t stifle innovation, but

strengthens it.

At AVL, we see ourselves as bridge builders: creating

technology that advances mobility while serving trust, re-

sponsibility, and sustainability. In the age of AI, imagination

and courage are not luxuries - they are the true capital that

turns technology into progress, and the only currency that

secures a future worth having.

by Yorck Schmidt

Chief Financial Officer

2025

COVER STORY

The Rise of AI-Driven

Vehicle Development

Between Promise and Responsibility:

By combining human expertise with data-driven intelligence, AI creates

a seamless link between engineering, simulation, and testing. It not only

accelerates innovation but also enhances quality, reliability, and trust, which

are essential values in shaping the next generation of mobility. FOCUS asked,

Stefan Bruhnke, Roland Wanker, and Jens Poggenburg to shed light on the

significance of this topic and how artificial intelligence is redefining what’s

possible in vehicle development.

Why is AI a true game changer for vehicle development rath-

er than just another tool?

Bruhnke: AI is changing our overall approach to development.

It influences methods, processes, and even how we think

about systems. AI helps shorten development cycles across

the entire chain, from requirements to predictive mainte-

nance. It is the foundation for future concepts such as the

software-defined vehicle.

Wanker: For me, AI is a powerful catalyst. It brings automa-

tion and efficiency into areas that were too complex to handle

manually, especially in simulation. What matters most is that

engineers can access and use information across the organi-

zation faster and more intuitively.

Poggenburg: AI gives us a new level of confidence. It

strengthens the credibility of results, for instance, in ADAS

validation or over-the-air software updates. It also enables

us to align our entire portfolio with AI-enriched methods,

from development tools to customer services. This marks a

fundamental shift.

How is AI changing the way AVL develops, simulates, and

tests vehicles, and how are these areas more closely linked

through AI?

Poggenburg: AI is changing how we work together. It takes

data usage to a completely new level. We can use information

that already exists in the company faster and more effectively,

which makes collaboration across business units much easi-

er. In 2026, we will launch an AI-supported Service Center that

will serve as a direct interface between customers and AVL

experts. It will enable knowledge sharing and problem solving

in real time, making collaboration even more efficient.

Bruhnke: What AI enables is a truly holistic approach. We gen-

erate data from simulations, from tests, and from develop-

ment work itself. With consistent data management, which AI

makes possible, we can connect it all and even feed back field

data into the requirements process. This makes the entire

development more focused.

Wanker: Simulation is already one of the strongest drivers

of efficiency, and AI is pushing that even further. The world

is looking for speed, and AI helps deliver it. It connects data

sources, automates model creation, and enables engineers to

get to results faster.

Can you share examples where AI has accelerated develop-

ment or made new results possible?

Bruhnke: A good example is our AVL Vehicle Composer. It

uses trained AI models to create a Virtual Twin very early on

in development. You can evaluate multiple vehicle attributes

simultaneously and immediately see how a change in one

component affects the overall system. This can shorten

concept phases by up to three months and reduce hardware

prototypes by up to 40 %.

Wanker: One clear use case is virtual calibration in real-time

simulation. Without AI and machine learning, this speed and

precision would not have been achievable.

Poggenburg: In testing, AI supports both parameterization

and planning. We can now use far more data from lab, road,

and fleet operations in a unified process. This expands test

coverage and improves the quality of results. The boundaries

between virtual and physical testing are becoming more and

more fluid.

6 | 7

Vehicle development is becoming increasingly complex.

How does AI help manage that?

Poggenburg: The complexity, especially in ADAS validation

and software testing, is enormous. AI helps us manage that

by identifying the most relevant scenarios and detecting

inconsistencies between software versions. It also supports

engineers in finding new solutions by highlighting connec-

tions we might otherwise overlook.

Bruhnke: Complexity will not go away, but we can handle it

differently. With automated interfaces and consistent data

flow, AI helps us connect all development stages. Our Inte-

grated and Open Development Platform is the backbone for

this, integrating tools and data across domains, making the

process more transparent and the results more reliable.

Wanker: Much of the complexity is caused by delays in get-

ting the right information. AI acts as a catalyst by distributing

and structuring data so that engineers have exactly what they

need at the right time. We are already using it in field analyt-

ics to detect anomalies in vehicle data, which allows us to

pinpoint specific issues rather than analyze entire fleets.

What challenges do you see today?

Poggenburg: The biggest challenge is skills. Using AI effec-

tively requires more than knowing how to operate a tool. It

also means understanding risks, data, and responsibility.

Regulations also differ widely: Europe is more rule-based, the

U.S. moves faster on technology, and China is highly pragmat-

ic. For global companies like AVL, this creates very different

conditions for data use.

Wanker: Knowledge management is essential. The expertise

in people’s minds must be captured and made usable for AI

systems. Once that happens, knowledge becomes accessible

across teams and locations. This will fundamentally change

the engineering process and how value is created, as exper-

tise can then be applied at scale.

Bruhnke: Data quality is still a major challenge, especially for

training models in safety-relevant systems. But the goal is

clear: explainable and transparent AI that strengthens trust

and supports engineers in making better decisions.

Where is AI taking us next? What will vehicle development

look like in the coming years?

Bruhnke: We are moving toward self-learning vehicles that

improve continuously through data and feedback. They will

adapt their performance to real-world conditions and commu-

nicate with other systems to enhance safety and efficiency.

Wanker: The next big step is for AI to become invisible. It

will be embedded so deeply in our tools and workflows that

engineers will no longer notice it as a separate element. It will

simply be there, like electricity – powering everything we do.

At the same time, AI will democratize engineering knowledge,

making expertise accessible to many more people.

Poggenburg: AI will connect development, production, and

service even more closely. We will see systems that learn

from every stage of their lifecycle, from simulation and testing

to operation in the field. This creates a continuous improve-

ment loop that benefits both manufacturers and drivers.

Interview with

Stefan Bruhnke

EVP Sales and Business Development Engineering

Roland Wanker

VP Advanced Simulation Technologies

Jens Poggenburg

EVP Software Products, Emission and Services

Testing Solutions

2025

Interview with

Lukas Walter

COO of AVL Engineering

“Sometimes

You Just

Have to

Skip the

­Hierarchy”

Lukas Walter has returned to

AVL, as a colleague and also as

part of the leadership team in the

role of Chief Operating Officer

Engineering. In this interview, he

talks about curiosity, responsibility,

and innovation as drivers of

change – and why sometimes

skipping hierarchy, or setting

a white tablecloth, reflects the

culture needed for the future of

mobility.

After several years at MAN, you returned to AVL. Did it feel

like a reunion or like a completely new company?

Both. Some structures and processes were familiar. But AVL

has developed enormously: today it is a global network with

strong affiliates and very independent management. That

international scope was new to me. At the same time, I saw

how much technological progress – from AI to new business

models – is embedded in daily life. Yet something of the “old

AVL” has remained, which I value.

You were brought back to advance transformation in the engi-

neering division. What attracted you to the role?

Everything: organization, processes, customer relationships,

culture. The range is particularly exciting: AVL covers all tech-

nologies, industries, and customers worldwide – that is unique.

And it comes with a clear expectation: We must be open to

transformation and stay curious. At MAN, I learned how trans-

formation works. Applying this knowledge here is truly reward-

ing. My approach builds on principles rather than super-precise

KPIs. Decisions should be made where the knowledge lies.

CORPORATE INSIGHTS

8 | 9

Transformation sounds big. How do you define it?

Transformation affects everything: organization, collaboration

with customers, culture, and technology. The key is believing

that change is possible – and actively shaping it rather than

just enduring it. Organizations must be self-adaptive, make

independent decisions, and engage with customers on equal

terms.

How have your first few days in the new role been?

Surprisingly hierarchical. All levels were sitting at the same

table during technical discussions. After six years in a com-

pany in which I had broken down hierarchies, this was a clear

contrast. I prefer when teams present their own solutions – it

saves time and avoids misunderstandings. The specialists

often have better information to make decisions than higher

levels. Sometimes you just have to skip the hierarchy to give

teams the freedom to make smart decisions.

The mobility industry is transforming. Where do you see the

greatest challenges?

The demand for mobility is rising worldwide. At the same

time, the energy supply is adapting. Therefore, in addition to

powertrains and vehicles, we are also working on energy sys-

tems around hydrogen and fuel cells. Advancing both mobility

and energy systems through innovation and a "cutting-edge"

approach must be our focus. We must not fall into the trap of

offering only commodity or interchangeable services.

Artificial intelligence is a hot topic. Will it replace people?

No. Domain know-how remains crucial. Our strength is com-

bining experience with AI. Over the years, we have gathered

data, simulated measured phenomena, and gained a deep

physical understanding. AI can do a lot, but without people

who understand what the results mean, there will be no prog-

ress.

How is collaboration with customers changing?

In the past, the focus was mainly on powertrains. Today, it is

on complete systems, vehicles, and software. This expands

the range of our stakeholders – from developers to CEOs. We

must be present at every level. Relationships are the core of

our business: It’s about long-term, trusting partnerships at all

levels. We have to work to ensure that our customers per-

ceive AVL as a whole. We can make this possible by inviting

customers to visit us. That is why I value things like the white

tablecloths in our canteen. They show how many customer

groups we are hosting, how much exchange takes place, how

guests perceive AVL as a company. This applies not only at

headquarters, but also at other locations – get the white cloth

on the table.

What is something most people do not know about you?

I often spend my free time in the forest, with protective gear

and a tractor, felling trees. It makes me feel rooted to the core

of the earth. I like the sustainability aspect, how the impact of

decisions is revealed over the long term. I also value encoun-

ters without staging – direct, honest, at eye level. You can

argue passionately and still remain respectful. That is what

good collaboration is about.

What drives you personally?

I am motivated by moving things forward – from small im-

provements to major shifts. And by friendly encounters and

good conversations. Those are just as valuable to me as big

successes. Of course, my private environment is also crucial.

Without that balance, I would not be able to generate the

energy for work.

What is your biggest goal for AVL?

Innovation, differentiation, sustainability. For AVL to remain

strong for decades to come. We want everyone to take re-

sponsibility, stay curious – and sometimes skip the hierarchy.

What do you take from your career so far?

At MAN, I learned how much is possible in transformation

when you stretch boundaries. One colleague even switched

from diesel development to battery development five years

before retirement – and said those last years were the best

of his 40-year career. That is real engineering: staying curious,

pushing limits, constantly learning, adapting, and embracing

new technologies. This mindset is essential for success in our

industry – and for motivation.

A final piece of advice for the team?

Be courageous. Take responsibility, make mistakes, and learn

from them. Stay curious, question things, think outside the

box. And never forget – friendliness and openness make work

more enjoyable for everyone.

“Transformation is not something you

endure – it is something you shape,

every day, at every level.”

2025

Located in the city of Steyr, Austria, the AVL Tech Center Steyr is

a state-of-the-art hub for the development and testing of next-

generation commercial vehicles. Spanning approximately 15,000

m² and staffed by around 100 experts, the facility combines

engineering excellence with cutting-edge testing infrastructure –

shaping the future of sustainable, intelligent mobility.

AVL Tech Center Steyr

Driving the Future

of Commercial

­Mobility

Engineering and Testing Under One Roof

From initial concept and simulation to full-vehicle validation,

AVL delivers the entire development cycle in a single loca-

tion – supported by the strength and expertise of AVL’s global

engineering network. This close integration enables seamless

collaboration, faster iteration loops, and highly efficient project

execution.

Six high-performance testbeds allow comprehensive testing

of powertrains and entire vehicles up to 14 meters in length.

With capabilities of up to 125,000 Nm wheel torque, 800

kW wheel power, and 1,600 kW transmission input, even the

most demanding applications can be validated under realistic

conditions. The facility is hydrogen-ready, enabling advanced

fuel cell and hydrogen propulsion system testing to drive clean

mobility innovations. Specialized capabilities – such as one of

the world’s first brake emission testing systems for heavy-duty

vehicles – support compliance with upcoming Euro 7 regula-

tions.

A dedicated 5,000 m² off-road proving ground, including

hill gradients of 8 % and 12 %, ensures real-world validation

of heavy-duty and off-road vehicles. Prototype and general

commercial vehicle development is supported by flexible

workshops, sheltered assembly zones, and integrated fast-

charging infrastructure – offering end-to-end support across

the development cycle.

CORPORATE INSIGHTS

10 | 11

Commitment to Sustainability

Beyond its technical capabilities, the Tech Center Steyr is a

showcase of AVL’s sustainability strategy. At its heart is a

holistic energy and heat recovery system, developed together

with APESS® GmbH and Metaplan Energietechnik GmbH. The

concept enables the entire site – including offices, workshops,

and testbeds – to operate completely without fossil fuels (of

course, with the exception of the fuel required to operate an

ICE unit under test).

Three custom-built heat pumps, intelligent hydraulic circuits,

and a compound-loop recovery system enable simultaneous

generation of heating and cooling energy. Waste heat from

the testbeds is fed directly into the hot water system, ensuring

maximum utilization. The intelligent control unit dynamically

selects energy sources to optimize efficiency. Real-world data

confirm the system’s outstanding performance: a COP of

5.89 during the heating season and 41.2 % lower electricity

consumption compared to standard heat pumps.

This pioneering achievement was honored with the ATZlive

Sustainability Award 2025 in the "Mobility Concepts - Business

Models" category, underlining AVL’s role as a benchmark-setter

for sustainable facility design.

Fuel Cell Technology Demonstrator Truck

A highlight of the opening was the first public demonstration

of AVL’s Fuel Cell Demonstrator Truck at the Vienna Motor

Symposium 2025. Hydrogen-based fuel cell systems are wide-

ly regarded as a key technology for achieving clean, efficient

long-haul transportation. The demonstrator, which also re-

ceived a 2025 ATZlive congress award (category: “Technology

- Complete Vehicle”), integrates AVL’s proprietary core tech-

nologies – from fuel cell stacks and system architecture to

advanced thermal management. Features include a high-pow-

er fuel cell system with leading efficiency, a Digital Twin for

predictive fleet operation, and no-flame-out battery technology

for enhanced safety. While not intended for series production,

the truck is a near-market prototype, offering a clear vision of

how zero-emission heavy-duty mobility can become reality.

Automation Solution for Off-Road Vehicles

Alongside fuel cell innovation, AVL is also driving autonomy in

challenging environments. In cooperation with ARTI-Robots

initiated by AVL Creators, AVL has developed a generic auto-

mation solution for off-road vehicles.

Designed for flexibility and scalability, the system can be

integrated into new platforms or retrofitted into existing fleets.

It combines localization, navigation, task planning, teleopera-

tion, and comprehensive safety features in a single package.

Multimodal sensor fusion ensures reliability even under harsh

conditions.

This technology has already been implemented in the AVL

Demonstrator Tractor, where it showcases real-world potential

for agriculture and other off-road applications. By addressing

both labor shortages and efficiency demands, AVL helps in-

dustries such as farming and construction meet the challeng-

es of tomorrow.

Shaping Tomorrow’s Mobility

With its unique combination of engineering expertise, ad-

vanced testing capabilities, and award-winning sustainability

measures, AVL Tech Center Steyr is more than a facility – it

is a driving force behind the transformation of commercial

mobility.

The integration of holistic energy management, zero-emission

propulsion, and intelligent automation sends a clear message:

the road to climate-neutral, efficient, and intelligent transporta-

tion requires not only vision but also infrastructure, innovation,

and the courage to lead by example.

AVL Tech

Center Steyr

• Opened April 2025 in Steyr, Austria

• 15,000 m² hub with around 100 experts

• 6 high-performance testbeds – hydrogen-ready,

up to 14 m vehicles

• Brake emission testing system for Euro 7 compliance

• 5,000 m² proving ground with 8 % and 12 % gradients

• 100 % fossil-free energy concept, COP 5.89

• Innovation showcase: Fuel Cell Demo Truck and Off-

Road Automation

• Award-winning: ATZlive Sustainability Award 2025

Guests of honor, includ-

ing AVL Chairman and

CEO Prof. Helmut List

(fourth from left), cut the

ribbon at the opening

of the AVL Tech Center

in Steyr.

2025

A Milestone in European Testing Infrastructure

On May 14, 2025, AVL ZalaZONE inaugurated the new high-

speed oval track at its ZalaZONE proving ground in Zalae-

gerszeg, Hungary. The opening marks another important step

in the expansion of one of the most modern proving grounds

in Europe.

The track is approximately 4,450 meters long and consists of

two straight sections of 950 meters each and two parabolic

curves with a radius of 350 meters. With four lanes (each 3.75

meters wide) and a crown width of 22.5 meters, the facility

CORPORATE INSIGHTS

With the addition of a high-speed oval track, AVL ZalaZONE now

offers one of the most advanced testing environments in Europe.

Built with extreme precision and banking of up to 47 degrees, the

track enables new levels of vehicle testing at speeds exceeding

270 km/h. With the official opening of the new facility by Prof.

List, AVL is strengthening its position as a leading provider of

testing for the mobility of the future.

AVL ZalaZONE Opens New High-Speed Oval

Full Speed Ahead

at ZalaZONE

enables high-speed testing of various vehicle types, including

passenger cars and commercial vehicles.

Built for Stability – and Speed

A key feature of the oval is its neutral driving zone, allowing

speeds between 21 and 180 km/h without lateral accelera-

tion. In the outermost lane, vehicles can reach speeds of up

to 270 km/h in the curves and even higher on the straights,

depending on vehicle performance.

12 | 13

“With the new high-

speed oval track, we

are strengthening

AVL ZalaZONE’s

position as a leading

proving ground in

Europe.”

The track complies with international standards, including

­UNECE R79 and ISO 15037-1, and was built using 3D-con-

trolled paving technology and precision geometry. There are

only two machine chains in the world capable of producing

asphalt surfaces with this level of banking and accuracy.

More Than Just an Oval

AVL ZalaZONE is part of a comprehensive testing ecosystem

spanning 250 hectares. The facility includes 13 dedicated

modules for testing autonomous functions, driving dynam-

ics, and durability – such as smart city environment, ADAS/

AD zone, off-road section, wet handling, and NVH surface.

The modules are designed for all types of vehicles, including

heavy-duty trucks and buses with axle loads of up to 16 metric

tons.

On-site services include fully equipped workshops, hydrogen

and EV charging stations, ADAS simulation and data labs, ho-

mologation support, and certified test driver training. Testing

is possible year-round under highly controlled and repeatable

conditions.

A Strategic Platform for AVL and the Industry

AVL ZalaZONE is already being used by more than 50 inter-

national manufacturers and suppliers, with further growth

expected following the oval’s addition. Thanks to its modular

infrastructure and seamless integration of physical and virtual

testing, ZalaZONE supports faster validation workflows and

helps reduce time to market. Whether for electric vehicles,

advanced driver assistance, automated driving, or high-load

durability testing, the oval extends the capabilities of an al-

ready state-of-the-art facility.

A Track You Can Feel

The opening day offered guests an unforgettable glimpse

into the full potential of the new facility. Professional drivers

took visitors on rides in high-performance vehicles, reaching

speeds of over 200 km/h in the steeply banked curves. Over

the course of two laps, guests experienced firsthand what it

means to test at the limits of stability and control.

In addition, special demonstrations showcased steering and

pedal robots executing dynamic maneuvers – such as double

lane changes – on the adjacent dynamic platform. During the

“Fun Drive” program, guests had the opportunity to explore the

handling courses alongside experienced instructors, combin-

ing technical insight with adrenaline-filled driving.

Let the Testing Begin

The high-speed oval marks a new chapter for AVL ZalaZONE

and sends a strong signal to the global mobility industry. As

vehicle systems grow more complex, testing infrastructure

must not only keep pace – it must set the pace. At ZalaZONE,

AVL combines engineering expertise, simulation integration,

and world-class facilities in a central location for future mobil-

ity testing.

• Total area: 250 hectares

• Modules: 13 – including Smart City Zone,

ADAS/AD, off-road, dynamic platform

• Vehicle types: passenger cars, trucks, buses

(axle loads up to 16 metric tons)

• Standards: UNECE R79, ISO 15037-1

• Certifications: ISO 27001, TISAX

• On-site services: workshops, charging/refueling,

engineering, test driver service, driver training

The New High-Speed Oval

• 4,450 m total length

• Two straights: 950 m each

• Two curves: radius 350 m

• Banking: up to 47 degrees

• Neutral driving: 21–180 km/h

• Maximum cornering speed: up to 270 km/h

AVL ZalaZONE

at a Glance

Zoltán Hamar

Managing Director of

AVL ZalaZONE

2025

HOME OF INNOVATION

14 | 15

At AVL, innovation has always been

more than the pursuit of progress; it’s

our way of shaping the future. Across

all fields of technology, we turn ideas

into real-world solutions that make

mobility cleaner, smarter, and more

connected.

2025

Green Hydrogen as a Key to the Energy Transition

Green hydrogen is regarded as a key energy carrier of the

future. It enables the storage of renewable energy, serves as a

carbon-free feedstock in industrial processes, and can replace

fossil fuels in mobility and heavy-duty transport. At the heart

of this transformation lies electrolysis, which splits water into

hydrogen and oxygen. Among the available technologies,

proton exchange membrane (PEM) electrolysis is increasingly

in focus. It combines high efficiency, dynamic operation, and

compact design – the exact features required for integration

into renewable energy systems.

With its first proprietary PEM electrolyzer stack, AVL marks

a significant milestone in hydrogen technology. Developed,

built, and tested within just twelve months, the AEE 1 already

surpasses international efficiency targets. It demonstrates how

AVL successfully transfers its automotive know-how into the

energy sector.

Hydrogen ­Innovation

Made in Graz and

­Vancouver

AVL’s First In-House PEM Electrolyzer Stack

Technology Environment and Market Demand

Currently, alkaline electrolyzers (AEL) dominate the market.

They are cost-effective, but comparatively slow and less

efficient. PEM electrolyzers, on the other hand, can respond

rapidly to fluctuating power from wind and solar energy,

operate at higher current densities, and produce high-purity

hydrogen. Global demand is therefore rising for high-

performance PEM stacks that enable the scale-up of green

hydrogen. AVL has positioned itself early on to address this

need.

16 | 17

HOME OF INNOVATION

ENERGY AND SUSTAINABILITY

The Innovation: AEE 1

In 2024, AVL took a decisive step: with its first proprietary

PEM electrolyzer stack – designated AEE 1 – a new level

of technology excellence was established. Developed,

manufactured, and tested entirely in-house within only twelve

months, the stack stands out not only for its efficiency, but

also for several technological features that set it apart from

existing solutions:

• Differential pressure operation: AEE 1 operates reliably at

30 bar. This reduces the need for additional compressors

and simplifies direct integration into industrial processes.

• Optimized water and gas management: Uniform

distribution across all cells ensures low pressure losses

and minimizes degradation – critical for long service life.

• Material and design innovations: Tailored bipolar plates

and catalyst layers enhance robustness and enable high

current densities, even under dynamic operation with

renewable energy sources.

Development Process and Core Competencies

The stack architecture builds on AVL’s profound understanding

of hydrogen technology and its long-standing experience

with automotive fuel cell stacks. Proven principles from

high-volume manufacturing – such as precise sealing

concepts and minimized contact resistance – were directly

transferred to the electrolyzer design. Another decisive factor

was AVL’s methodology of safeguarding designs through

virtual simulation and co-simulation with Digital Twins,

which shortened iteration loops significantly, while ensuring

maximum precision and quality.

Customer Benefits and Market Impact

The benefits for customers are clear: AEE 1 enables reduced

development costs and shorter time to market. Beyond

providing the technology, AVL supports customers with

simulation, testing, and training. A current example is a

project with a Chinese partner to develop a 2.5 MW stack

based on the AEE 1 design, demonstrating that the solution is

immediately transferable to industrial scale.

With its first PEM stack developed in-house, AVL underscores

its innovative strength in energy technology. AEE 1 exemplifies

how expertise from the automotive industry can be

successfully applied to the challenges of the energy transition.

It represents AVL’s commitment to actively shaping the path to

a climate-neutral future.

AEE 1 PEM

­Electrolyzer Stack

• Developed in just 12 months

• Efficiency: 71 % (LHV) > exceed-

ing DOE 2026 target (69 %)

• Energy consumption:

47 kWh/kg H2

• Operation at 30 bar differential

pressure

• Active cell area: 300 cm²

• Foundation: automotive fuel cell

engineering know-how

• Reference project: 2.5 MW PEM

stack with Chinese partner in

development

“The AEE 1 is a

technological

breakthrough for

scalable, efficient

PEM electrolysis,

marking AVL’s entry

into industrial stack

development.”

JÜRGEN RECHBERGER

Head of Business Unit Fuel Cell & Energy

2025

HOME OF INNOVATION

ENERGY AND SUSTAINABILITY

Revolutionizing Hydrogen

­Technology Testing ­Together

HyCentA and AVL

HyCentA and AVL have joined forces in the COMET program (Competence

Centers for Excellent Technologies) to revolutionize the testing and

validation of hydrogen technologies. This strategic collaboration unites

cutting‑edge research with proven engineering expertise, paving the way

for safer, more efficient, and longer‑lasting hydrogen applications.

develop groundbreaking solutions that will support the transi-

tion to a hydrogen‑powered future,” says Dr. Alexander Trattner,

CEO & Research Director at HyCentA. AVL shares this com-

mitment: “With our experience in simulation and testing, AVL

is excited to work with HyCentA to drive hydrogen technology

advancements. Our joint efforts will lead to more efficient and

sustainable hydrogen applications worldwide,” adds Helmut

Iancu, Global Business Segment Manager at AVL.

Building the Next Generation of Testing Technologies

Through its integrated approach, ReMET is building the next

generation of measurement and testing technologies for

hydrogen applications – from containerized electrolyzer test-

beds with multi‑megawatt capacity to advanced diagnostic

and simulation environments. By accelerating development

cycles and improving system reliability, the project is laying the

foundation for faster commercialization of hydrogen technolo-

gies, strengthening Austria’s role as a global innovation leader

in the hydrogen economy.

aunched in 2023, the COMET project ReMET (Revolution-

ary Measurement and Testing Technologies for Hydro-

gen Applications) aims to set new industry benchmarks

for performance, safety, and durability in hydrogen systems.

Funded by the COMET program, it focuses on electrolyzers,

fuel cells, and hydrogen storage solutions, addressing the

most critical challenges in their development and commercial-

ization.

From Testing Methods to International Standards

The hydrogen economy demands systems that are safe,

efficient, and long‑lasting. Achieving this requires precise

testing methods, robust measurement technology, and clear

international standards. ReMET addresses all three. A major

focus of the strategic cooperation is on new test methods

for electrolyzers, including advanced analysis of degradation

and operating conditions to improve durability. This is com-

plemented by precise measurement technology for hydrogen

systems, enabling cost‑effective monitoring while ensuring

operational safety.

Innovation Across the Hydrogen Value Chain

The project also targets material compatibility studies, assess-

ing long‑term stability and permeability to ensure safe applica-

tions. Diagnostic tools for online health monitoring will allow

early detection of degradation mechanisms and help optimize

fuel cell lifetime. In parallel, simulation models and AI‑driven

testing frameworks will support predictive maintenance and

performance optimization. Standardization and certification

activities within ReMET aim to pave the way for the safe and

widespread implementation of hydrogen technologies.

A Shared Commitment to Progress

“This partnership marks a major step forward in hydrogen

research and testing. Combining our expertise enables us to

HyCentA stands for Hydrogen Research Center Austria.

Founded in 2005, HyCentA Research GmbH is Austria’s

leading non-university research institute for hydrogen

technologies. HyCentA operates within the COMET program

(Competence Centers for Excellent Technologies), which

receives funding from the BMIMI (Federal Ministry for

Innovation, Mobility, and Infrastructure) and the BMWET

(Federal Ministry for Economy, Energy, and Tourism), as well

as the co-financing federal provinces of Styria, Upper Austria,

Tyrol, and Vienna. The COMET program is managed by the

Austrian Research Promotion Agency (FFG).

18 | 19

First Time Right

Electrolyzer development does not allow for endless prototype loops. Early

application of multiphysics modeling and simulation at the system level

is becoming increasingly important. With its advanced solutions, AVL not

only speeds up development and saves costs – it also unlocks the potential

to design better, more robust electrolyzers from day one.

­interactions between stack, balance of plant (BoP) compo-

nents, control strategies, and dynamic load conditions – espe-

cially in combination with renewable energy sources.

AVL’s scalable simulation approach allows engineers to test

different materials, geometries, and operating scenarios

virtually – not only to boost efficiency, but to identify potential

failure modes early on. With growing emphasis on total cost

of ownership and uptime, the ability to simulate and optimize

lifetime has become a decisive differentiator.

Digital Twins for Durability

The long-term goal is a real-time Digital Twin of the electro-

lyzer system that monitors operating conditions continuously

and predicts degradation in response to fluctuating loads and

ambient influences. This would allow predictive maintenance

and adaptive control strategies that extend stack lifetime and

lower the levelized cost of hydrogen.

AVL is already laying the foundation for this vision. By com-

bining data-driven models with physics-based simulation, and

calibrating these models against experimental results, highly

accurate lifetime prediction is now within reach. For a tech-

nology sector defined by long investment cycles and steep

learning curves, this is a game changer.

Unlocking Lifetime Potential Through Simulation

As global momentum around green hydrogen continues to

increase, electrolyzer technology is stepping into the spot-

light. Whether based on proton exchange membrane (PEM),

anion exchange membrane (AEM), alkaline, or solid oxide (SO)

technology, all electrolyzer systems face similar development

challenges: efficiency, cost, scalability, and – most critically –

lifetime.

Traditional hardware-based validation methods reach their

limits when systems must meet lifetime requirements of up to

100,000 operating hours. This is why simulation is no longer

a supporting tool – it is a strategic enabler. AVL’s simulation

platforms AVL FIRE™ M and AVL CRUISE™ M provide detailed

insights into flow dynamics, thermal effects, and electrochem-

ical processes. These insights form the basis for understand-

ing degradation mechanisms and simulating component

longevity – long before a physical prototype is built.

From Stack to System – and Back Again

Stack performance alone does not determine overall efficiency

or durability. Design choices such as membrane thickness or

system pressure may appear beneficial at cell level but might

compromise overall system performance. Simulation enables

developers to evaluate the entire system, accounting for the

How Simulation Drives

Electrolyzer Efficiency and

Lifetime from Day One

2025

From Regulation to

Real-World Value

Digital battery passports (DBP) will become mandatory in the EU from

2027 – but they are much more than a compliance tool. By enabling

transparency, traceability, and circularity, they will shape the future of

sustainable mobility. AVL offers a turnkey solution that helps customers

master the challenges and turn regulation into opportunity.

attery value chains are under close scrutiny: from raw

material sourcing and carbon footprint to second life

and recycling. Companies must prove sustainabili-

ty, ensure data integrity, and comply with rising regulatory

demands. Digital battery passports create a standardized

Digital Twin of the battery, enabling lifecycle transparency and

circular economy models.

Complex Path to Compliance

While the benefits of DBPs are clear, the road to implementa-

tion, however, is demanding. Harmonized data formats across

fragmented supply chains are still evolving. Confidentiality

raises concerns over intellectual property protection. Techni-

cally, a DBP requires integration of battery management sys-

tems (BMS), secure cloud platforms, and strong cybersecurity.

Fixed IT and compliance costs pose a significant barrier to

DBP adoption. Ensuring data accuracy through standardized

audits and cooperation across the value chain – even among

competitors – is essential.

A Secure End-to-End Platform

AVL addresses these challenges with a modular, compli-

ance-ready platform. The AVL Digital Battery Passport inte-

grates data from BMS and supply chain sources into a secure,

cloud-based architecture. Built-in interoperability ensures

alignment with EU and international frameworks, while dash-

boards and user-friendly interfaces make information accessi-

ble. Developed at AVL’s Battery Innovation Center, the solution

is validated in real testing environments. In partnership with

Microsoft, AVL provides certified cloud infrastructure, ad-

vanced security, and data notarization to protect data integrity.

Complementary consulting and integration services further

reduce complexity.

Early Readiness, Tangible Benefits

AVL’s turnkey approach accelerates regulatory readiness.

Customers gain early compliance with the 2027 mandate,

improved ESG reporting, as well as transparency on carbon

footprint and raw material sourcing. The scalable design

makes the system accessible to both OEMs and SMEs, avoid-

ing exclusion due to cost or complexity.

Differentiators That Build Trust

AVL combines lifecycle expertise with proven digital ecosys-

tem know-how. Participation in initiatives such as Catena-X

ensures standard alignment. A strong focus on robust data

governance builds the trust needed to share sensitive infor-

mation across global supply chains. The solution is already de-

signed for future digital product passport (DPP) requirements,

including vehicle passports.

From Obligation to Opportunity

The countdown to 2027 is underway. Early adoption avoids

last-minute risks and positions companies as leaders in sus-

tainable mobility. More than a regulatory obligation, a DBP is

an enabler for circular business models and a key step toward

climate-neutral transport. With AVL’s solution, compliance

becomes competitive advantage.

AVL Digital Battery Passport

20 | 21