A significant part of the future hydrogen demand is estimated to be produced in electrolysers (alkaline/PEM/solid oxide). Maximizing the efficiency and lifetime of these hydrogen electrolysers will be crucial for decarbonization. In today’s technologies, 20-40% of the hydrogen electrolyser capacity is turned into excess heat that needs to be continuously cooled off.
No matter if it’s the commercial electrolyser technologies on the market today, or the ongoing development of the next generation of electrolyser, optimizing the electrolysers cooling as well as the hydrogen plant itself is a key success factor for efficient and scalable green hydrogen production.
The Perfect Partner for the Hydrogen Industry
Watch the video and discover what makes a perfect partner for a hydrogen plant.
By working with Alfa Laval, you will get:
- Top-notch equipment and experience
- Reliability and efficiency
- Support to scale up hydrogen production
Energy efficient green hydrogen production
When renewable electricity is splitting water molecules into hydrogen and oxygen in an alkaline/PEM electrolyser, a large part of the electrolyser capacity is turned into excess heat. By cooling off the heat in an efficient, compact and scalable way – we not only maximize the efficiency and lifetime of the hydrogen electrolyser itself, it also allows for further repurposing of this excess heat.
By not letting excess energy go to waste, the overall efficiency of green hydrogen production can increase.
Hydrogen plants: We understand reducing OpEx and CapEx is mandatory to ensure a cost competitive green hydrogen production. With Alfa Laval’s heat transfer technology, we enable a lower levelised cost of hydrogen.
- Reducing costs
- Enabling heat recovery
- Productivity first
Heat exchanger tech: The new generation of Alfa Laval semi-welded plate heat exchangers takes pressure weighting to the next level, designed for optimised performance to guarantee a reliable operation in the electrolyser system.
- Handles high pressure
- Flexible configuration
- Space saving
Service solutions: Equipment used in hydrogen production must be handled in a very careful manner. Connected services ensure safety by monitoring the health status of the plate heat exchanger as well as prolonging the lifetime of the equipment.
- Ensure safety
- Accelerate sustainability
- Efficient for decades
Efficient cooling electrolyser system with Alfa Laval heat exchangers
1. Electrolyser stack
This is where the electricity is concentrated and the water is electrolysed into this most simple elements. Where the magic happens!
2. Anolyte cooler
3. Catholyte cooler
The electrolyte coolers are here to maintain the stack at optimal temperature and remove the waste heat produced during the water electrolysis process. This enables better performance and a longer lifetime of the equipment. Alfa Laval heat exchangers are just the right fit for this duties and enable more adding the possibility to recover the heat from them.
4. Hydrogen gas cooler
5. Oxygen gas cooler
The gas coolers have the crucial function to insure a good efficiency of green hydrogen production by reducing the gas temperature to the lowest level possible. Alfa Laval heat exchangers enable you to have both safe operations with robust equipment and recover heat from the gas if you want to.
Green hydrogen gives hope for the future
Green hydrogen has long held promise for achieving Europe’s climate targets. Now in Germany, a new pilot project is showing the potential to make this a reality. Using Alfa Laval heat exchangers, Thyssenkrupp Uhde Chlorine Engineers GmbH is testing hydrogen instead of injection coal to reduce CO2 emissions in ongoing blast furnace operations at its Duisburg site. The only thing left over from this new process is water vapor.
This project, which is funded by the German government, uses the metallurgical gases produced during steelmaking to produce chemicals, thus reducing CO2 emissions in both steelmaking and chemical production. Check out the full story to learn more about the critical role Alfa Laval technology has played in this pilot.
Supplies the world’s largest green hydrogen plant
Alfa Laval has signed an agreement to deliver compact heat exchangers to the world’s largest green hydrogen plant, which is to be constructed in the Middle East. The facility, powered by renewable energy, will be part of the city of Neom, built from scratch in the northwestern desert, with the ambition of establishing a new model for sustainable living.
Alfa Laval’s offering in green hydrogen production
Alfa Laval Semi Welded Heat Exchanger
- Highly efficient and flexible
- Space-saving compact unit
- Low operating cost possible owing to superior energy efficiency and prolonged service intervals
- Safe and reliable sealing with no risk of cross-contamination
- Pressure and temperature fatigue resistant
Alfa Laval Industrial GPHE
Meet with modern requirements
- Highest thermal efficiency and close temperature approach
- Compact units - space saving, easy to service and maintain
- Maximum uptime - less fouling, stress, wear and corrosion
- Flexible - easy to adapt to changed duty requirements
Alfa Laval ALF filter
For all Alfa Laval heat exchangers
- Automatic backflushing for uninterrupted filtering process
- Easy installation and maintenance
- Increased cooling system uptime and lower maintenance costs
- Proven, reliable technology
Contact us for more efficient green hydrogen production
We have more experience in green hydrogen production and scaleup to share with you. Contact us today for further information and partner up with us for a more sustainable future.
Energy efficient clean hydrogen solutions
Do you want to know more about how Alfa Laval supports in development in the full hydrogen value chain? Explore our offerings in everything from production to end-use.
Water purification for green hydrogen production
Water quality is a crucial aspect to optimize green hydrogen production. Combined with increased energy efficiency makes it even more important. Find out more about what Alfa Laval can offer in water generation for green hydrogen production.