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Process technologies for efficient industrial biotechnology
Alfa Laval participates in BioEurope Spring 2026 to present separation, heat transfer, and hygienic handling solutions designed to optimize biotechnological and pharmaceutical processes.
www.alfalaval.com
Alfa Laval will participate in BioEurope Spring 2026, an international event focused on biotechnology and pharmaceutical innovation, where it will present process engineering solutions aimed at improving operational efficiency, product purity, and sustainability in demanding industrial environments.
Industry context and collaboration landscape
The development of biopharmaceuticals, vaccines, biomaterials, and industrial fermentation processes requires technologies that ensure precise control, traceability, and regulatory compliance. In this context, BioEurope Spring brings together technology companies, research centers, and investors to foster collaboration and accelerate the transfer of innovation into industrial applications.
With more than 140 years of experience in process engineering, Alfa Laval supports the sector through solutions focused on resource optimization, reduced energy consumption, and improved performance in critical operations.
Technical solutions and responsibilities
During the event, the company will present key technologies for biotechnological production:
- High-precision centrifugal separation systems, designed to preserve the integrity of sensitive biological products while optimizing process energy efficiency.
- Compact heat exchangers, tailored for sterilization processes and thermal control with high efficiency and minimal resource loss.
- Hygienic pumps and valves, developed to ensure sanitary safety, traceability, and compliance with standards throughout the production chain.
These technologies form part of an integrated approach combining energy efficiency, process control, and hygienic design for bioindustrial applications.
Applications and use cases
The solutions target sectors such as biopharmaceutical production, industrial fermentation, biofuels, and biomaterial processing. Operational benefits include improved process stability, reduced energy consumption, optimized water usage, and enhanced recovery of by-products.
Sustainability and digitalization strategy
Alfa Laval’s technological approach is based on three main pillars:
Applications and use cases
The solutions target sectors such as biopharmaceutical production, industrial fermentation, biofuels, and biomaterial processing. Operational benefits include improved process stability, reduced energy consumption, optimized water usage, and enhanced recovery of by-products.
Sustainability and digitalization strategy
Alfa Laval’s technological approach is based on three main pillars:
- Energy optimization, through heat recovery and advanced flow management.
- Circularity, promoting resource reuse and by-product valorization.
- Sustainable water management, aimed at minimizing consumption and improving treatment.
Expected impact
Participation in BioEurope Spring 2026 provides an opportunity to demonstrate how process engineering can enhance efficiency and sustainability in industrial biotechnology. The integration of advanced solutions supports more resilient and competitive operations aligned with global decarbonization and responsible resource-use objectives.
www.alfalaval.com
Participation in BioEurope Spring 2026 provides an opportunity to demonstrate how process engineering can enhance efficiency and sustainability in industrial biotechnology. The integration of advanced solutions supports more resilient and competitive operations aligned with global decarbonization and responsible resource-use objectives.
www.alfalaval.com
