MIXTARGET AxF/RxF
About the productMIXTARGET AxF/RxF
The AxF/RxF floating mixers were developed to combine high performance with ease of installation, operation, and maintenance, with low energy consumption. Even operating at low power density, they guarantee complete reactor mixing due to the optimized sizing of the propellers through CFD (Computational Fluid Dynamics). This approach ensures adequate mixing velocity and flow rate gradients to keep solids, oils, and greases in suspension, preventing the formation of phases and dead zones inside the tank or reactor.
Applications
- Food industry, Beverage industry, Textile industry, Dairy, Paper & Pulp, Fish farming, Municipal wastewater treatment, Landfills, Oil & Gas, Mining
Advantages
- Hydraulic design optimized by CFD (Computational Fluid Dynamics)
- Customized design according to reactor geometry and fluid characteristics.
- Low-speed operation, reducing mechanical wear.
- Perfectly sized propellers, providing greater pumping/mixing with less installed power.
- Floating installation, eliminating the need for complex civil structures.
- Easy-to-remove system, facilitating maintenance and inspection.
Quick and easy installation
- Customized design according to reactor geometry and fluid characteristics.
- Low-speed operation, reducing mechanical wear.
- Perfectly sized propellers, providing greater pumping/mixing with less installed power.
- Floating installation, eliminating the need for complex civil structures.
- Easy-to-remove system, facilitating maintenance and inspection.
Quick and easy installation
Benefits
- Greater hydraulic mixing efficiency, eliminating dead zones and improving flow patterns in the reactor.
- Lower specific energy consumption to achieve the required mixing gradient.
- Reduced mechanical stress, increasing the equipment's lifespan.
- Greater stability of biological processes through proper homogenization of the reactor.
- Reduction of deployment costs and civil structures.
Simplified maintenance, with less downtime.
Greater flexibility for repositioning or replacing equipment.
- Lower specific energy consumption to achieve the required mixing gradient.
- Reduced mechanical stress, increasing the equipment's lifespan.
- Greater stability of biological processes through proper homogenization of the reactor.
- Reduction of deployment costs and civil structures.
Simplified maintenance, with less downtime.
Greater flexibility for repositioning or replacing equipment.
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