In our latest JAM Podcast episode, Anna-Maria had the privilege of speaking with Lukas Olbrich, Manager for Clean and Dry Rooms at Northvolt, who shared fascinating insights about clean room technology and its critical importance in the rapidly expanding battery sector. As specialists in engineering and tech recruitment, we're always keen to highlight the interconnected technologies shaping tomorrow's industries. Here are the key takeaways from our conversation.
The Expanding Reach of Clean Rooms
Clean rooms have traditionally been associated with pharmaceutical production and semiconductor manufacturing. However, as Lukas pointed out, these controlled environments are increasingly finding applications across diverse industries, including food production and—critically for Europe's industrial future—battery manufacturing.
The fundamental purpose remains consistent: creating spaces with minimal airborne particulates to prevent contamination. While a typical room contains approximately 35 million particles per cubic metre, standard clean rooms reduce this by at least tenfold, with high-specification environments allowing as few as 12 particles per cubic metre.
Why Technical Cleanliness Matters in Battery Production
The stakes for maintaining technical cleanliness in battery manufacturing couldn't be higher. Lukas highlighted several critical reasons:
Safety concerns: Minute conductive particles can cause internal short circuits within cells, potentially leading to thermal runaway and the battery fires occasionally reported in electric vehicles.
Mechanical integrity: External particulates on cell casings can create mechanical problems when batteries are stacked and compressed into packs.
Humidity control: Battery manufacturing requires not only particle-free environments but also exceptionally low humidity, adding another layer of complexity to clean room design.
As Lukas memorably put it, in the early days of computing, a "bug" might literally be an insect crawling across hardware components. Today's technology operates at such microscopic scales that even particles, invisible to the human eye can cause catastrophic failures.
The European Battery Challenge
Europe faces a particular challenge in the battery sector. While Asia has established significant expertise in battery manufacturing, European companies are racing to develop competitive capacity. This creates multiple challenges:
Time pressure to establish manufacturing capabilities quickly
Talent shortages in clean room construction and operation
Added complexity from the need for both particle control and low humidity
Nevertheless, Lukas sees substantial opportunity for European businesses to transfer expertise from adjacent sectors into battery manufacturing. Some high level examples:
Companies experienced in mixing paints could adapt to battery slurry mixing
Coating specialists could transition to electrode coating
Paper manufacturing expertise could transfer to handling thin materials
Pharmaceutical filling processes share similarities with electrolyte filling
Skills for Clean Room Workers
Finding experienced clean room personnel presents a significant challenge. Lukas emphasised that workers need to develop:
Disciplined adherence to procedures even when contamination isn't visibly apparent
Preventative mindset rather than reactive cleaning
Continuous awareness of cleanliness protocols
While workers from chemical plants, laboratories, and machine operation backgrounds may transition more easily, Lukas believes the industry needs to cast a wider net. The sector requires not only operational staff but also specialists who can construct clean rooms and install equipment.
The Energy Transition Connection
The battery industry plays a pivotal role in Europe's energy transition, extending beyond electric vehicles to include home energy storage systems that complement renewable generation. Lukas highlighted his own father's use of batteries to store solar energy for use when the sun isn't shining.
European battery production represents not just an environmental imperative but also enhances resilience against supply chain disruptions, as demonstrated during the COVID-19 pandemic.
Future Developments
Looking ahead, Lukas identified several promising directions for enhancing sustainability in clean room operations:
Reduced clean room sizes to minimise energy consumption
Mini or micro environments that create controlled conditions only around specific equipment
Battery recycling to recover materials and reduce production footprints
Renewable energy use in manufacturing to counter concerns about batteries' embedded carbon footprint
Education and Industry Collaboration
Lukas concluded with a call for greater educational focus on clean room technology, suggesting universities should offer dedicated courses on the subject. He also encouraged European machine manufacturers to recognise the opportunity in supplying clean room equipment, strengthening the continent's industrial ecosystem.
At JAM, we're committed to supporting the talent needs of this growing sector, connecting specialists with opportunities across the battery industry and related fields. As technical cleanliness becomes increasingly central to manufacturing innovation, recruiting the right expertise will be crucial for companies looking to compete in this space.
Interested in exploring opportunities in clean room technology or battery manufacturing? Contact JAM to discuss how our specialist recruitment services can help you find the perfect match for your career or business needs.
Get in touch with Anna-Maria to discuss how she can drive your business forward: a.nieuwkoop@jamrecruitment.co.uk.