Single Tubes-2501
The NPC-S-2501 Single-Channel Ceramic Membrane is a tubular filtration element with a 25 mm outer diameter and a 15 mm internal channel designed for controlled micro- to ultrafiltration and Nanofiltration. With a total length of 1200 mm and a filtration area of 0.0942 m², it provides stable performance in applications requiring a single-channel flow path.
The membrane body is available in Alumina, Silicon Carbide, or Mullite, allowing selection based on chemical and mechanical requirements. Its surface can be coated with Zirconia, Alumina, SiC, Titania and Silica to achieve targeted separation performance. The membrane supports and active layer pore sizes of 5, 3, 1, 0.5, 0.2, 0.1, 0.05, 0.02 and 0.005 microns and molecular sieving layer. Equal to 5000nm, 3000nm, 1000nm, 500nm, 200nm, 100nm, 50nm, 20nm, 5nm and molecular sieving layer
- 25 mm outer diameter single‑channel ceramic membrane
- 15 mm hydraulic channel
- 1200 mm element length
- Filtration area: 0.0942 m²
- Body materials available: Alumina, SiC, Mullite
- Coating options: Zirconia, Alumina, SiC, Titania, Silica
- Pore sizes from microfiltration to advanced ultrafiltration (5 to 0.02 μm)
- Model Code: NPC-S-2501
- Membrane Type: Single Channel Ceramic
- Outer Diameter: 25 mm
- Number of Channels: 1
- Channel Diameter: 15 mm
- Length: 1200 mm
- Filtration Area: 0.0942 m²
- Body Material: Alumina / SiC / Mullite
- Coated Material: Zirconia / Alumina / SiC / Titania / Silica
- Pore Sizes (Micron): 5, 3, 1, 0.5, 0.2, 0.1, 0.05, 0.02 and 0.005 microns and molecular sieving layer Equal to 5000nm, 3000nm, 1000nm, 500nm, 200nm, 100nm, 50nm, 20nm, 5nm and molecular sieving layer
- Food & Beverage: Clarification, microbial control, protein recovery
- Pharmaceutical & Biotech: Cell broth filtration, enzyme and protein separation
- Petrochemical: Oil–water separation, catalyst recovery
- Water Treatment: MBR polishing, RO pretreatment
The advanced materials and customizable pore sizes ensure stable filtration, longer service life, and reduced maintenance downtime, lowering overall operating costs.
