Training Example: thyssenkrupp nucera – Review the Data, Give Your Score & Compare to the Real AI Evaluation

[H1] We Shape the New Era
thyssenkrupp nucera delivers electrolysis technologies for the industrial production of green hydrogen and chlorine. With over 600 projects worldwide, 10+ gigawatts installed, and more than 60 years of experience, we drive sustainable industrial transformations for a better future.

8
locations

1,000+
employees worldwide

600+
successful projects

[IMG: Headquarters of thyssenkrupp nucera in Dortmund, Germany]

Press Release

12.05.2026
thyssenkrupp nucera reports significant new orders and quadruples order intake in the second quarter

# Corporate

[IMG: scalum 20 MW alkaline water electrolysis unit by thyssenkrupp nucera]

Press Release

19.03.2026
thyssenkrupp nucera Supplies Electrolyzers for Moeve to Build Southern Europe's Largest Green Hydrogen Project

# Green Hydrogen

[IMG: Werner Ponikwat at the stage at WHS Rotterdam with an audience listening]

CEO Opinion

19.05.2026
From Energy Shocks to Energy Resilience: Why Europe Must Build Electrolysis at Scale

# Green Hydrogen
# Market & Policy

13.02.2026
Bankability of Hydrogen Projects: What It Means and Why It Matters

# Green Hydrogen
# Market & Policy

06.02.2026
Getting Europe’s Industrial Policy Right: Why Electrolyzers Matter Now

# Green Hydrogen
# Market & Policy

15.01.2026
Why thyssenkrupp nucera Is the Right Partner for Your Hydrogen Project

# Chlor-Alkali
# Green Hydrogen

[H2] Who We Are
We have extensive expertise in the planning, procurement, and construction of electrochemical plants. With our high-efficiency electrolysis technologies, we supply systems that are deployed worldwide across chlor-alkali and green hydrogen applications. Our green hydrogen electrolyzers are designed to operate with renewable energy, enabling large-scale, clean hydrogen production that contributes to sustainable value chains and a decarbonized industry. Committed to engineering excellence, we focus on safe, reliable, and scalable solutions that empower a clean industry for future generations.
Go to Corporate Brochure

World-leading electrolysis technologies

1.5 GW/yr
supply chain established

>10 GW
of capacity installed

>3 GW
contracted capacity

[H2] Our Technologies

[H3] Alkaline Water Electrolysis
Our scalable alkaline water electrolysis technology enables efficient, cost-effective production of green hydrogen at industrial scale. As a key driver of the energy transition, we deliver solutions that help decarbonize industries and energy systems worldwide – made for gigawatt scale.
More About Alkaline Water Electrolysis

[H3] Chlor-Alkali Electrolysis
Our advanced chlor-alkali electrolysis solutions set industry standards for energy efficiency, reliability, and performance. With decades of experience and a global track record, we help chemical producers optimize operations and meet tomorrow’s demands today.
More About Chlor-Alkali Electrolysis

[H3] Hydrochloric Acid Electrolysis
Our hydrochloric acid electrolysis technology enables reliable and resource-efficient HCl processing. Designed for continuous industrial operation, it supports circular value chains and reduces environmental impact with proven performance worldwide.
More About Hydrochloric Acid Electrolysis

[H3] Future Solutions
With technologies such as our high-temperature SOEC and pilot projects like Carbon2Chem®, we expand the scientific and technical foundations of industrial electrolysis. Our Future Solutions unit focuses on scalable system development, data-driven process improvement, and close cooperation with research partners.
More About Our Future Solutions

[H2] Our Service Portfolio
To ensure you obtain the best possible performance from your electrolyzers, we offer a holistic service portfolio supported by our global network and expertise.
Explore Service Solutions

[IMG: an employee of thyssenkrupp nucera in front of an electrolyzer]

[H2] Newsroom
Explore the latest press releases, articles, and updates from thyssenkrupp nucera. Dive into upcoming events, discover key terms in our glossary, and access logos, images, and more in our media center.

Go to Newsroom

[IMG: Werner Ponikwat at the stage at WHS Rotterdam with an audience listening]

CEO Opinion

19.05.2026
From Energy Shocks to Energy Resilience: Why Europe Must Build Electrolysis at Scale

# Green Hydrogen
# Market & Policy

[IMG: Headquarters of thyssenkrupp nucera in Dortmund, Germany]

Press Release

12.05.2026
thyssenkrupp nucera reports significant new orders and quadruples order intake in the second quarter

# Corporate

[IMG: scalum 20 MW alkaline water electrolysis unit by thyssenkrupp nucera]

Press Release

19.03.2026
thyssenkrupp nucera Supplies Electrolyzers for Moeve to Build Southern Europe's Largest Green Hydrogen Project

# Green Hydrogen

[IMG: scalum 20 MW alkaline water electrolysis unit by thyssenkrupp nucera]

Press Release

17.03.2026
thyssenkrupp nucera to Conduct FEED Study for 260 MW Green Hydrogen Project in India

# Green Hydrogen

[IMG: Headquarters of thyssenkrupp nucera in Dortmund, Germany]

Press Release

17.03.2026
Statement on Outlook Update

# Corporate

[IMG: Headquarters of thyssenkrupp nucera in Dortmund, Germany]

Press Release

19.02.2026
AGC Vinythai Commissions Chlor-Alkali Plant with Increased Capacity and e-BiTAC Electrolyzers from thyssenkrupp nucera

# Chlor-Alkali

[H2] Investing in the Future of Electrolysis
We stand at the forefront of the global energy transition with scalable technologies for green hydrogen and chlor-alkali. Learn more about our growth strategy, market potential, financial performance, and key milestones.
Learn More

[H2] Shape the New Era with Us
At thyssenkrupp nucera, you’ll help build a cleaner future with cutting-edge hydrogen and electrolysis technologies. From day one, you’ll have real impact – supported by international collaboration, flexibility, and a shared mission to power the energy transition.
Discover Job Opportunities

[H2] Any Questions? We’re Here to Help.
Whether you’re looking for more information about our technologies, services, or career opportunities: our team is happy to assist you.
Get in Touch

Home

Technologies

Alkaline Water Electrolysis

[H1] Industrial-Scale Alkaline Water Electrolysis
We enable our customers to accelerate the energy transition with scalable alkaline water electrolysis technology for industrial green hydrogen production. Backed by over 60 years of electrochemical expertise and more than 600 successful projects, thyssenkrupp nucera delivers electrolyzers designed for maximum lifetime, high availability, and dynamic operation in demanding industrial environments.

[IMG: industrial-scale water electrolyzer manufacturing]

World-leading electrolysis technologies

1.5 GW/yr
supply chain established

>10 GW
of capacity installed

>3 GW
contracted capacity

[H2] Our Global Green Hydrogen Reference Projects
Our alkaline water electrolysis (AWE) technology powers some of the world’s largest industrial green hydrogen projects – from Saudi Arabia to Sweden. With over 3 GW in our order backlog and a total of 2.7 GW delivered across 2024 and 2025, we enable scalable hydrogen production through a fully established gigawatt-scale supply chain. Discover our selected global green hydrogen reference projects.

[H3] Locations

[H3] Projects

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Show locations

Show projects

Alle Standorte

All locations

Alle Project

All projects

Europe

[IMG: Stegra]

Stegra

Green Steel Plant
Boden, Sweden

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Holland Hydrogen 1

Shell
Port of Rotterdam
Rotterdam, Netherlands

[IMG: Onuba]

Onuba

Moeve
Huelva
Spain

Middle East

[IMG: NEOM]

NEOM

Tabuk
Saudi Arabia

[H2] Your Hydrogen Project Partner: From Feasibility to Operation
We support our customers in developing robust industrial hydrogen projects – from initial feasibility to long-term operation. Our holistic project approach includes feasibility studies, LCOH analyses and FEED studies, laying the foundation for cost-efficient hydrogen projects. In parallel, we place a strong focus on delivering our highly standardized electrolyzers and related services to ensure efficient implementation and long-term performance. We work side by side with our customers – from concept to construction, commissioning and beyond. The result: efficiency, consistency, and technical excellence across the entire lifecycle of your plant.
Download Brochure

[H2] scalum® Electrolyzer for Industrial Green Hydrogen Production
Our 20 MW scalum® unit is engineered for gigawatt-scale hydrogen production. With modular scalability, high availability, and dynamic operation, the scalum® electrolyzer unit supports industrial hydrogen applications across sectors – including refineries, steel plants, and downstream derivative production such as ammonia, methanol, and e-SAF. scalum® transforms large-scale hydrogen visions into industrial reality.

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[H3] Single Element
Single-cell design ensures flexibility, high durability, and long cell life – already proven in chlor-alkali electrolysis.Our high-performance cells are based on decades of proven chlor-alkali technology. Each cell is individually removable from the cell rack, allowing for targeted maintenance without dismantling the entire stack. This minimizes downtime and significantly reduces maintenance costs.The cells are designed for multiple reuse cycles and only require refurbishment, not full replacement.Integrated condition monitoring of each single-cell element enhances plant safety and reliability.

[H3] scalum® 20 MW Electrolyzer Unit
Dynamic operation: Fast dynamics and wide operating range for renewable energy fluctuations, ensuring stability and reliability.Maintainability: Holistic service portfolio supported by global network to ensure best possible electrolyzer performanceCompact footprint: High current density and modular design enable space-saving installation for industrial green hydrogen plants.Optimization: Our dedicated R&D roadmap focuses on automating serial production to deliver high capacities at reduced costs and lead times.Service and support: We offer full lifecycle support through our global service network – ensuring reliable performance and long-term success.Digitalization: Our digital solutions like nucera evaluator, nucera load balancer and Digital Twins improve safety, optimize energy use and enable predictive maintenance through continuous operational insights.The foundational design for our scalum® has been certified by TÜV Rheinland to meet the requirements of Chapter 4 of ISO 22734:2019.  Our continuously ongoing product development will be backed by upgraded certification.

[H3] Modular Electrolysis Plant
When the world demands hydrogen projects from hundred-megawatt to gigawatt-scale, you need a solution that’s: modular reliable efficient ready to scale to from megawatt to gigawatt level Our prefabricated, skid-mounted electrolysis plants enable rapid deployment and scalability. With our deep-rooted EPC expertise, we deliver reliable hydrogen infrastructure for industrial-scale decarbonization.

[H2] Service Portfolio for Alkaline Water Electrolysis
Our global service network ensures optimal performance of your alkaline water electrolyzers – from installation to maintenance and upgrades. Benefit from decades of experience and tailored service solutions.

Explore Service Solutions

[IMG: an employee of thyssenkrupp nucera in front of an electrolyzer]

[H2] More on Green Hydrogen
Here you’ll find in-depth information on projects, partnerships, and technological developments related to thyssenkrupp nucera and the green hydrogen economy.

[IMG: Two engineers looking at an electrolysis cell]

19.05.2026
Hydrogen Americas Summit and Exhibition 2026

# Green Hydrogen

[IMG: thyssenkrupp nucera booth at European Hydrogen Week]

19.05.2026
European Hydrogen Week 2026

# Green Hydrogen

[IMG: Werner Ponikwat at the stage at WHS Rotterdam with an audience listening]

CEO Opinion

19.05.2026
From Energy Shocks to Energy Resilience: Why Europe Must Build Electrolysis at Scale

# Green Hydrogen
# Market & Policy

[IMG: scalum 20 MW alkaline water electrolysis unit by thyssenkrupp nucera]

Press Release

19.03.2026
thyssenkrupp nucera Supplies Electrolyzers for Moeve to Build Southern Europe's Largest Green Hydrogen Project

# Green Hydrogen

[IMG: scalum 20 MW alkaline water electrolysis unit by thyssenkrupp nucera]

Press Release

17.03.2026
thyssenkrupp nucera to Conduct FEED Study for 260 MW Green Hydrogen Project in India

# Green Hydrogen

13.02.2026
Bankability of Hydrogen Projects: What It Means and Why It Matters

# Green Hydrogen
# Market & Policy

[H2] Let's Talk
Our experts support you with tailored solutions, deep expertise, and years of experience.
Get in Touch

[H2] Frequently Asked Questions

What are the advantages of alkaline water electrolysis (AWE) compared to proton exchange membrane (PEM) – and which technology is better for industrial green hydrogen production?

At thyssenkrupp nucera, we rely on AWE because it is the most mature and cost-effective technology available today and characterized by high long-term stability. Compared to proton exchange membrane (PEM) electrolysis, AWE offers clear key advantages for large-scale applications:Lower initial investmentWidely used for industrial-scale H2 productionScalability for large-scale productionDynamic operation capability suitable for fluctuating renewable power inputSimpler maintenance and operationAWE is the only technology currently ready to meet the massive hydrogen demands of the industry at large-scale and has been chosen for projects like NEOM (Saudi Arabia).

What are the lead times for thyssenkrupp nucera electrolyzers, and how do you reduce them?

We accelerate project execution through modularization and prefabrication. Our standardized, skid-mounted units are prefabricated off-site, minimizing on-site construction time, reducing installation risks, and ensuring consistent quality. This approach delivers faster time-to-operation, greater planning reliability, and scalable solutions that grow with demand.

Can thyssenkrupp nucera’s alkaline water electrolysis systems operate dynamically with fluctuating power of renewable energy sources?

Yes, our alkaline water electrolysis (AWE) technology is fully capable of dynamic operation. With a minimum load of just 10% of 20 MW, our system offers outstanding flexibility to accommodate fluctuating power supply, making it ideally suited for coupling with renewable energy sources such as wind and solar. We successfully demonstrated this capability as early as 2019 in our 2 MW Carbon2Chem® pilot plant. Our scalum® AWE units respond flexibly to variable power input which our proprietary load balancer translates into the optimized production of green hydrogen.

Can thyssenkrupp nucera’s alkaline water electrolysis technology compete with Chinese electrolyzers?

Absolutely. What differentiates thyssenkrupp nucera’s alkaline water electrolysis technology is:Single cell technology:Refurbishment instead of stack replacementCell monitoring allowing for preventive maintenance on single-cell levelHigh operating range between 10-100%, supporting fluctuating renewable energy usageLow current losses by design, avoiding leak currents, stray currents, and bypass currentsHigh current densities, leading to smaller footprintsThese features ensure high efficiency, reliability, and long-term cost advantages – enabling thyssenkrupp nucera to compete successfully with Chinese electrolyzers and deliver globally competitive hydrogen production economics.

What are the advantages of the single cell concept?

The single cell concept is a key differentiator of thyssenkrupp nucera’s alkaline water electrolysis technology. Unlike conventional systems, our design allows each individual unit to be serviced independently – without shutting down the entire plant. This feature significantly increases operational flexibility, reduces downtime, lowers maintenance costs, and increases plant availability. It also enables precise condition monitoring at cell level, enhancing operational safety and long-term performance. For industrial-scale hydrogen production, this means greater reliability, flexibility, and cost efficiency.

Home

Technologies

Future Solutions

[H1] Future Solutions
Our Future Solutions highlight how we are actively developing technologies that support the long-term transformation of energy and electrolysis technologies. The projects presented here focus on practical research and development activities in the field of green hydrogen production and chlor-alkali electrolysis. They include the development of new production facilities for high-temperature electrolysis components, pilot plants for different electrolysis technologies, and collaborative research projects aimed at improving efficiency, scalability, and industrial applicability. A key focus is on testing and validating these technologies under real operating conditions, ensuring that innovations can be transferred reliably from development to industrial use.

[H2] HTEM300
The project aims to establish a 300-megawatt (MW) manufacturing facility for high-temperature Solid Oxide Electrolysis (SOE) stack modules, with potential future scalability towards multi-gigawatt production facilities. It also aims to completely avoid greenhouse gas (GHG) emissions relative to the reference scenario, directly contributing to Europe’s decarbonization targets and accelerating the transition from fossil fuels to clean hydrogen.

[IMG: robot for SOEC cells]

HTEM300 introduces a comprehensive and innovative approach to SOE stack module production. The project uses advanced manufacturing processes, including semi-automated assembly, quality control systems, and intelligent logistics, to ensure high production yields, consistent quality, and more effortless scalability. The SOE modules’ high operating temperature as well as the possibility to incorporate heat enables a higher electrical efficiency of 20-30% in hydrogen production compared with other technologies such as PEM electrolyzers. It allows for their installation within industrial hard-to-abate sectors with high levels of surplus heat, such as steel and fertilizer production. SOE technology’s competitive advantage and expected market growth drive further cost reductions in hydrogen production. HTEM300 aims to avoid a cumulative 3.7 million tonnes of CO₂e by replacing conventional energy carriers with renewable hydrogen.

HTEM300 aligns with the European Green Deal, the Net-Zero Industry Act and Europe’s hydrogen strategy. By fostering a domestic manufacturing ecosystem for clean hydrogen, the project contributes to Europe’s clean-tech supply chain and supports the fast and resilient scale-up of renewable hydrogen production. Developing manufacturing capacity for advanced solid oxide electrolyzer cells stack modules will reinforce Europe’s position as a global leader in green technologies and contribute to its leadership in the hydrogen sector.
The project aims to create over 100 direct and indirect jobs, contributing to the growth of the local economy and supporting the European clean-tech industry. The facility will strengthen regional supply chains and foster resilience within Europe’s clean energy infrastructure.

Disclaimer: “Funded by the European Union. Views and opinions expressed are however those of the author(s) only and do not necessarily reflect those of the European Union or [name of the granting authority]. Neither the European Union nor the granting authority can be held responsible for them.”

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List of Participants

thyssenkrupp nucera HTE GmbH
thyssenkrupp nucera AG & CO. KGaA

Project Coordinator

thyssenkrupp nucera HTE GmbH

Contact Person

thyssenkrupp nucera HTE GmbHTel.: +49 (0)231 229727100 229727100E-Mail: info@thyssenkrupp-nucera.com

[H2] SOEC Test Facility
The Starting Position
As a leading provider of highly efficient electrolysis technologies with over 60 years of expertise in electrolysis, we are among the few global suppliers capable of producing green hydrogen on a gigawatt scale. Far from being complacent, we are constantly developing new and innovative solutions. Consequently, we view SOEC as another promising electrolysis technology deserving of investment.
Fraunhofer IKTS, a specialist in ceramic technology, has been active in the SOEC field for over 25 years and possesses comprehensive expertise across the entire value chain—from materials to systems, including economic feasibility studies. To accelerate further industrial application, collaboration is essential. This is why our strategic R&D partnership with Fraunhofer IKTS aims to advance SOEC technology for large-scale application.

[IMG: women watches SOEC stack assembling robot]

What We Do
The production of green hydrogen using SOEC technology is currently confined to a laboratory and other small scale settings, indicating that we are in the early stages of developing high-temperature electrolysis for industrial-scale application. Consequently, a pilot manufacturing plant planned by Fraunhofer IKTS and operated by thyssenkrupp nucera® HTE will commence operations in the first quarter of 2025, producing high-temperature electrolysis stacks with SOE cells — the core components of SOEC stacks — in limited quantities initially. The strategic partnership also encompasses a license for thyssenkrupp nucera to produce and utilize CFY stacks based on Fraunhofer IKTS’s SOEC technology. At the pilot manufacturing plant, we are thus combining our strengths to drive forward the industrialization of SOEC technology.

What We Aim For
A further test facility will focus on validating the technology’s efficiency in converting electricity to hydrogen in the produced stacks with the use of waste heat. By conducting practical tests and economic feasibility studies, we aim to fine-tune SOEC technology for large-scale applications, ensuring it meets the high operational standards required for industrial environments. This joint effort allows us to develop solutions that seamlessly integrate into existing industrial processes. Should the initial work on industrial applications prove successful and funding be secured, we will proceed with investing in the development of large-scale production infrastructure. SOEC will be an excellent addition to our technology portfolio, providing our customers with significant benefits.

[H2] Carbon2Chem
The Starting Position
How can off-gases from steelmaking be turned into valuable precursors for fuels, plastics or fertilizers? How can we make 20 million metric tons of Germany’s steel industry’s annual CO2 emissions economically viable?
In addition to CO2, the process gases from the fully integrated steel mill also contain carbon monoxide (CO), hydrogen (H2), methane (CH4) and large quantities of nitrogen (N2), and thus the same components as synthesis gases used in the chemical industry. These are unfortunately most commonly produced from fossil resources like natural gas and crude oil. Even though steel mill off-gases and especially coke oven gas contain a lot of hydrogen, additional hydrogen is needed for synthesis of valuable chemicals.

[IMG: two employees at Carbon2Chem]

What We Do
Our pilot plant in Duisburg is probably the only one of its kind in the world where the individual processes are practically combined and tested under industrial conditions in practical operation with real steel mill off-gases. Now for the first time, Carbon2Chem® is using these gases from the steelmaking process as a raw material for chemical production.
Moreover, to ensure that the production of the additional hydrogen required does not create a new source of CO2, it must be green: that is, produced via electrolysis from renewable energy sources and without a CO2 footprint.*
For this very purpose, an alkaline water electrolysis (AWE) plant from thyssenkrupp nucera with a capacity of 2 MW has been set up at an early stage in the pilot plant. This can run both at permanent full load as well as with rapidly changing load profiles based on the electricity market for high-quality primary control power, thus simulating the volatile availability of renewable energies, for example from wind or solar power.

What We Aim For
The partner consortium from industry and science is working together on processes for gas purification and the production of ammonia and methanol and higher alcohols. In the second funding phase, the technical processes will now be further validated, expanded towards other industries and scaled up for industrialization from 2025.
Furthermore, it has been demonstrated that the thyssenkrupp nucera AWE technology has a very good performance at both permanent full load as well as being able to follow the renewable energy profile. This finding is also systemic for the energy transition and thus of great importance beyond the actual project: Sustainable production of hydrogen via electrolysis with renewable energies is possible. The hydrogen can be produced and stored when sufficient renewable energies are available. In times of energy shortage, storage facilities can be used, making thyssenkrupp nucera’s water electrolysis an ideal upstream fit for classic industrial scale chemical processes.
*No green electricity is contracted in the Carbon2Chem Project

[H2] H2Giga
The Starting Position
How high will the demand for green hydrogen in Germany be in the future? It will amount to several million tons of hydrogen. That’s why we are involved in the hydrogen lead project H2Giga. The hydrogen lead projects are the largest research initiative to date on the topic of energy transition and supported by the German Federal Ministry of Education and Research (BMBF).

[IMG: thyssenkrupp nucera employees at electrolyzer]

What We Do
The H2Giga project “INSTALL AWE” focuses on the industrialization of AWE, which is today the furthest developed market-ready technology and used above all for large-scale industrial applications. The modular and standardized 20 MW module from thyssenkrupp nucera is also advantageous in terms of economic aspects and climate protection.
This conserves resources and reduces the operating costs. Essential for this ramp-up to series production is the core relationship with the Joint Venture partner Industrie De Nora, a globally renowned specialist in electrochemistry and high-quality supplier for cell manufacturing and coatings.
In the H2Giga innovation pool with institutions, universities and small specialized companies offering scientific and technical skills with respect to the subject of series production, investigations of broader research and development topics are being carried out which are also intended to further drive forward our own development.
We will be receiving almost 8.5 million euros in subsidies for the research and development of the large-scale production of alkaline water electrolysis.

What We Aim For
We are driving forward the industrialization of alkaline water electrolysis (AWE) through automated series production. The aim on the one hand is to take advantage of scaling effects and thereby be able to reduce the manufacturing costs. On the other hand, an expansion of the existing supply chain of 1 GW to 5 GW of electrolysis cells enables larger project volumes to be implemented, so that several gigawatt projects can be implemented at the same time each year.

[H2] Test Facility Gersthofen
The Starting Position
How can we ensure a continuous improvement of our bipolar membrane (BM) chlor-alkali and hydrochloric acid technologies? By trying out, testing and optimizing our technologies. In this way, we secure the control loop between suppliers and end customers and can even replicate specific customer problems to find customized solutions.

What We Do
thyssenkrupp nucera operates two test facilities each for NaCl and HCl-ODC electrolysis in production scale at the CABB site in Gersthofen. Additionally, two smaller test facilities, each for NaCl-ODC and also NaCl electrolysis in full-scale height are operated. With these facilities, we are able to develop and lift optimization potential for our electrolysis technologies, for example with regard to specific electrical power consumption. In addition to the qualification of membranes, coatings and alternative materials, designs and different operation conditions are investigated. All application cases tested in Gersthofen can be transferred without any limitation to industrial scale and thus directly to the customers’ plants.

What We Aim For
It is our goal to optimize our technologies with regard to the highest possible availability, long service life and long-term low specific electrical power consumption. We are already a global leader in chlorine technologies. But only by being close to our customers and guaranteeing them continuous improvement of our technologies we can realize our vision of being the number one in chlorine technologies.

Home

Service

[H1] Our Service Portfolio
thyssenkrupp nucera ensures reliable, efficient operation of your electrolyzers with a global, end-to-end service offering – from predictive maintenance and operational support to refurbishment. Our 360° Lifecycle Service covers every phase of your plant, supporting maximum availability, safety, and performance worldwide.

[IMG: electrolysis cell in the air]

[H2] Reliable Performance Across the Full Plant Lifecycle
thyssenkrupp nucera’s service solutions support Chlor-Alkali and Green Hydrogen plants from commissioning to long-term operation and ensure high availability, stable performance, and long asset lifetime. These are your key advantages:Lifecycle services from a single technology partnerIntegrated support covering operation, maintenance, optimization, and modernization.Higher availability and operational efficiencyServices focused on minimizing downtime and sustaining reliable plant performance.Digitalization for smarter operationsData-driven tools and analytics improve transparency, support faster decisions, and help anticipate issues before they arise.Flexible and modular service conceptsServices can be tailored as individual modules or long-term service agreements.Global service network with local footprintWorldwide expertise combined with fast, on-site execution.Preventive, predictive, and corrective servicesStructured maintenance and operational support for secure and cost-efficient operation.Safety, know-how, and asset value preservationTechnical expertise and training to support safe operation and long-term plant value.

[H2] Alkaline Water Electrolysis Service
Dedicated services supporting high availability and performance of alkaline water electrolysis (AWE) plants for green hydrogen production.
Go to AWE Service

[IMG: Service employee is checking alkaline water electrolysis unit scalum by thyssenkrupp nucera]

[H3] Chlor-Alkali Service
Comprehensive lifecycle services for chlor-alkali plants, ensuring safe, efficient, and reliable operation.
Go to Chlor-Alkali Service

[IMG: emplyee working at electrolyzer]

[IMG: Dr. Ulf-Steffen Bäumer, Senior Director Service & Digitalization & Head of SOEC, thyssenkrupp nucera]

For our customers, true service means more than fixing a problem. It means having a partner who understands their plant, their goals, and their pace. That’s why we combine global reach with expert support that adapts to each plant’s needs. From deep technical insight to forward-looking digital tools, we’re continually evolving our service ecosystem to keep our customers’ electrolysis plants performing at their best – today and in the future.

Ulf Bäumer

Senior Director Service, thyssenkrupp nucera

[H2] Let’s Discuss Your Service Requirements
Whether you operate a Chlor-Alkali or Green Hydrogen plant, our service experts are ready to support you across the full plant lifecycle.
Get in touch to discuss service concepts, digital solutions, or long-term support options tailored to your operational needs.
Contact Service Team