Description
ULTRA FILTERATION (UF) SYSTEM FOR EDUCATION AND RESEARCH
Custom-Made & Research Grade Ultra Filtration (UF) System for Laboratory & Research Applications
Achieve precise and reliable results with our Custom-Made UF Filtration System, designed specifically for laboratory and research-grade applications. Ideal for universities, colleges, and research institutions, this advanced Ultrafiltration (UF) system delivers exceptional performance for a wide range of research activities, including biological, chemical, and environmental studies
KEY FEATURES
Tailor-Made for Research Needs: Customized design to meet specific research requirements, ensuring optimal performance for various experimental setups.
High-Precision Ultrafiltration: Removes particles, bacteria, and macromolecules as small as 0.01 microns, providing highly purified water essential for sensitive research.
Consistent and Accurate Results: Engineered to maintain stable and reproducible water quality, crucial for reliable lab outcomes.
Compact & Efficient Design: Space-saving with energy-efficient operation, making it ideal for laboratory settings.
Easy to Operate & Maintain: User-friendly controls and low-maintenance components allow researchers to focus on their work without unnecessary interruptions.
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Organic membrane is a semi permeable composite membrane with asymmetric microporous structure, which can separate particle with different molecules sizes of the mixture at the molecular level and achieve selective separation. According to the membrane pore size, it is divided into: microfiltration membrane (MF), ultrafiltration membrane (UF), nanofiltration membrane (NF), reverse osmosis membrane (RO), etc.
Organic membrane separation adopts cross-flow filtration method. The process can be summarized as: the solution is separated on the surface of the organic membrane under pressure, the solvent (usually water or alcoholic solution) and other small molecular solutes pass through the organic membrane, and the macromolecular solutes or particles are trapped on the surface of the membrane by the filter membrane. There is no phase change and no chemical reaction in the separation process. The asymmetric structure of the membrane and the highspeed flow of the material and liquid in the equipment make it difficult for the trapped substances to block the membrane pores, so that the membrane can be used for a long
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