Our Way of Clearing Up
Using a Whirlpool vessel is considered the smartest method of hot trub separation
GEA whirlpools have proven to be reliable in operation and work to the highest standards. A technical understanding of the brewing materials and process, of wort properties, fluid dynamics and the complex way they interact, are essential for the design of a Whirlpool vessel. Apart from the raw materials used in the brew and the up-stream conditions in the brewhouse, the successful function of the Whirlpool is very much dependent on the wort mass flow, the entry velocity into the vessel, the vessel geometry and the resulting flow conditions as well as the arrangement of the wort outlets. It is only when all these criteria are in the correct balance that the formation of a compact trub cone in the centre of the Whirlpool can be guaranteed.
Resource-efficient fashion has been a long-sought ambition amid the fashion industry’s considerable contributions to global carbon emissions. The need to close the loop by recycling textile fibers into virgin-like materials is higher than ever but seemed like a distant dream until now: Circ, GEA’s American customer and pioneer in the field of textile recycling, might be rewriting the future of the fashion industry.
Alternative proteins are promising – yet still expensive to produce. The usual response is that scaling up will solve this issue. But what if the solution was really about getting better, not just bigger? From more efficient, high-yield processes to upcycling waste heat, engineers are reshaping how we grow food.
As anti-cancer drugs become more powerful and complex, GEA is redefining how to safely freeze-dry these life-saving treatments.