GEA clarifier for biochemicals stand for utmost security of the investment, products and processes. They insure high product quality and yield.
The clarifiers are equipped with a disk-type bowl and movable sliding piston. The separation is fast and gently ensuring highest efficiency. The clarified liquid is discharged foam-free and under pressure by means of a centripetal pump. With very precise ejection systems which ejects the solids from the separator bowl at operating speed for a fully continuous operation and short payback periods. In many application areas of the White Biotech, developments have only just begun. To secure your investment, GEA clarifiers may be designed according to our customers’ needs after laboratory tests with the original products of the customer
Corrective repairs for your GEA separators and decanters
Is a FAT (Factory Acceptance Test) of your centrifuge not possible on site due to current travel restrictions, a very tight schedule or other urgent reasons? Are you generally looking for ways to make business processes more digital and to sustainably reduce costs and time?
Here, too, we are at your side with the professional quality you are accu...
How our centrifugal clarifying separator works
Let’s get connected – digital solutions for GEA centrifuges
Let’s get connected – digital solutions for GEA separators and decanters
The impact of global warming is increasingly apparent all over the world. Towns and cities everywhere face the same challenge: providing their communities with reliable, affordable, sustainably sourced heat. GEA spoke with an expert in the field, Kenneth Hoffmann, Manager, Heat Pumps at GEA Heating & Refrigeration Technologies, about tackling global warming faster.
Something caught Farmer Tom's eye. Instead of another product demo, GEA showcased innovations via AR. That's only the start of GEA's interactive digital farm.
GEA scientists are working with researchers at the Graz University of Technology to configure a homogenization process and technology that turns eucalyptus pulp into 3D-printed, organic structures mimicking human veins, arteries and other tissues.