HIGH SHEAR POWDER DISSOLVING FOR HOMOGENEOUS PRODUCTS

GEA INLINE FORMULA® Powder Dissolver

With a robust, ergonomic and compact skid-mounted design manufacturers are equipped for every application with the GEA INLINE FORMULA® Powder Dissolver system. It may be small in stature, with a space-efficient footprint, but the Powder Dissolver doesn’t skimp on either features or quality, making it the ideal tool for the production of up to 3,6 – 4,5T/h of fluidized powder with up to 50 % total solids (TS), in an affordable package. The GEA INLINE FORMULA® Powder Dissolver is designed specifically for those who do not need the highly advanced high shear vacuum mixer (GEA INLINE FORMULA® SOL High Shear Mixer).

GEA INLINE FORMULA Powder Dissolver: design based on high shear mixing technologies

With a design based on proven high shear mixing technologies, the GEA INLINE FORMULA® Powder Dissolver offers energy efficient, cost-efficient powder dissolving for multipurpose manufacturing but with a small footprint.

Fluidizing powder into liquid requires process knowhow and engineering skills

With the focus on flow characteristics the unit is designed to fluidize powder and hydrocolloids into liquid and meanwhile apply shear forces to the product. Compared to conventional addition of powder into the mixer tank with top-mounted agitator – the GEA INLINE FORMULA® Powder Dissolver will reduce the process time significantly. Achieving a homogenized product (without powder lumps) is crucial to keep the uptime on the downstream equipment.   

Using a design based on proven high shear mixing technology with the use of Computational Fluid Dynamics (CFD) to ensure optimum flow pattern, we can provide more accurate costing, achieve greater accuracy in design, provide better process insight and significantly reduce risk for customers.

Homogeneity matters

We understand the challenges faced by customers when it comes to dispersing powder into liquid: 

  • Inhomogeneous products caused by undissolved powder agglomerates can lead to phase separation/precipitation of solids in the downstream mixer tanks. This in turn can lead to an increased risk of fouling of downstream heat treatment resulting in reduced process time due to more frequent cleaning requirements.
  • Lack of flexibility with a limit of shear forces applied to the product can often result in a long process time and undissolved powder agglomerates causing an inhomogeneous product.   

With the GEA INLINE FORMULA® Powder Dissolver, liquid accelerates over the specially designed injector creating a venturi-based effect. This core design enables the operators to fluidize high volumes of powder without facing issues of “back-flush” or powder blockages of the entire system.

Likewise, the Powder Dissolver is equipped with an integrated stator/rotor in order to apply shear forces to the product to ensure a rapid dispersion of powder and achieve a better, finer distribution of powder and ultimately a homogeneous mix. By using the same flow characteristics as a centrifugal pump, we achieve high recirculation flow over downstream tanks enabling a fast turnover. 

A high amount of powder easily fluidizes into a liquid stream due to the combination of vacuum and the liquid injector. With this design, the operator can divert the flow into two streams – partly over the downstream storage tanks, partly over the Powder Dissolver itself. This special feature ensures multi-pass through the high shear mixing device enabling the operators to process applications even with high total solids (TS).    

Key benefits

  • Low CAPEX and OPEX
  • Pre-assembled skid offering fast installation and set-up 
  • Designed with the same flow characteristics as a highly efficient centrifugal pump to achieve optimum and simplified installation
  • Ergonomic working environment for operators 
  • Fully drainable after Clean-In-Place (CIP)
  • Integrated stator / rotor in order to apply mechanical stress to the product to achieve homogeneity
  • A booster pump between recirculation tanks and the unit is not needed (in most cases) due to a low NPSH curve
  • A discharge pump after the unit will (in some cases) not be needed due to high dynamic outlet pressure
  • Diverted flow streams – partly over the downstream storage tanks partly over the Powder Dissolver This special feature ensures multi-pass through the high shear mixing device enabling the operators to process applications with high total solids (TS) in a short time
  • Special design of powder funnel ensures a non-uniformity powder flow to avoid powder from bridging
  • Powder addition flowrate can be adjusted to individual processes by using the manual butterfly valve.  

Fully equipped for every application

Compact and easy to ship, the GEA INLINE FORMULA® Powder Dissolver complies with the highest safety standards. Further design elements include

  • Clean-in-place (CIP)
  • Hygienic design
  • All parts in contact with the product are made from stainless steel EN 1.4404 (AISI 316L). Other parts are made from EN 1.4307 (AISI 304L).
  • Options
    • Control system (incl. frequency converter with start/stop button and emergency button)

Downloads

GEA Insights

Human hands brought together to form a circle

In for the better: Community engagement at GEA

To support community engagement, GEA offers employees one day of paid time off per year.

How a digital rotary parlor supports sustainable dairy farming

How do you lead a dairy farm into the next generation while ensuring a sustainable future and animal welfare while managing increasing complexity? This is a question almost every dairy farmer around the world must consider. The...

GEA misison 30 logo

A strategy for the better: CEO interview on GEA's Mission 30

After reaching its Mission 26 targets two years early, GEA launches Mission 2030 strategy with focus on growth, value and making a positive impact.

Recibir noticias de GEA

Mantente al día de las innovaciones e historias de GEA suscribiéndote a las noticias GEA.

Contacte con nosotros

¡Estamos aquí para ayudar! Con solo un poco de información podremos responder tu consulta.