Process Innovation How Global Megatrends are Changing Mechanical Process Engineering - and Making it Cool

Related Vendors

Glatt Ingenieurtechnik GmbH

EDL Anlagenbau Gesellschaft mbH

TRM Filter d.o.o.

What do the trend topics of circular economy, battery production and plant proteins have in common? They challenge the creativity of process engineers, and they follow the global megatrends of resource scarcity, mobility, nutrition and climate protection. Where the focus in the past decade was on new chemical processes and digital technologies, now it is the turn of mechanical process engineering.

The future belongs to the electrification of the economy and mobility. And storage technologies will play a decisive role in this. But if you ask experts where the greatest innovation potential can be expected in battery technology, the answer will surprise most people: Not in chemistry and new materials, but in production technology. While, for example, a technological optimum is visibly in sight for lithium-ion batteries on the materials side, the production of battery cells and batteries is still far from mature. For example, the energy density, service life and performance of battery cells in general and especially at low temperatures depend crucially on the precision of particle sizes and shaping. And although China is currently the undisputed market leader in the production of batteries for electric cars, this could change in the coming years if new players in the USA and Europe build new battery factories with the latest technology in large numbers.

Researchers from the Fraunhofer Institute for Manufacturing Engineering and Automation, IPA, are convinced that the key to this lies in the production process. Mechanical processes are an important factor: They enable the production and processing of nanomaterials and the precise manufacture of electrodes. The complexity of the battery value chain already begins with the extraction of raw materials through mining or chemical extraction - but the process gets really tricky when it comes to processing the materials: these not only have to be produced in consistently high quality ("battery grade"), but also in large quantities. And because active battery materials are toxic, the production processes must also be hermetically sealed (containment).