The CFK R35 cross-flow filters are engineered for high-efficiency filtration of lees and liquids with elevated concentrations of suspended solids. Designed for fully automatic operation, these systems deliver maximum product recovery with minimal intervention.
Precision Filtration for Fine Suspended Solids
CFK R35 filters excel at processing lees and fine suspended solids similar to emulsions, handling materials without fiber or coarse particles larger than 4 mm. Ceramic membranes with 0.2 micron nominal porosity ensure consistent, prolonged filtration performance with exceptional product recovery.
The system's backwashing capability maintains membrane efficiency throughout extended filtration cycles, delivering top-quality filtered product while concentrating lees in the retentate up to 80% (v/v).
Operational Advantages
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Fully Automated Operation – Complete management of filtration cycles (filling, filtration, discharge) and backwashing sequences
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High Nominal Output – 30-60 liters per square meter per hour
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Maximum Product Recovery – Lees concentration rates up to 80% (v/v) in retentate
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Extended Filtration Cycles – Longer run times before washing with automatic cycle management
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Product Integrity – No reduction in red color, no oxygen absorption
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Remote Control & Assistance – Monitor and manage operations from anywhere
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Energy Efficient – Reduced power consumption for lower operating costs and environmental impact
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Compact Design – Space-saving footprint ideal for production environments
Versatile Filtration Capability
Beyond lees filtration, CFK R35 systems are equally effective for wine filtration, offering all the advantages of cross-flow technology including superior filtered product quality and consistent performance across applications.
Built for Commercial Wine Production
Low energy consumption, compact size, and complete process automation make the CFK R35 ideal for wineries focused on maximizing yield and product quality. The system's simplicity of use and automated backwash cycles ensure reliable operation with minimal supervision.
