According to the comparative experimental study of critical flux test, it can be seen that the flux of the multi-channel dual-channel membrane element can be increased by 18%~22% compared with the traditional flat membrane element, thereby reducing the engineering infrastructure cost; the chemical cleaning effect improves the single-channel flat membrane element The phenomenon of polluting dead ends can prolong the service life of membrane elements; the low transmembrane pressure difference can save operating costs and greatly enhance the market competitiveness of MBR.
Multi-channel membrane element parameter table/Muti- channel membrane Parameter Table
| Type | PELER-150-II II | |||
| Effective area(m²) | 1.5 | |||
| Size(L×W×H) | 1750×490×7.5 | |||
| Water production (L/tablet/day) | 750~1300 | |||
| Material composition | Membrane material | PVDF+PET | ||
| Membrane hole diameter(μm) | 0.11~0.12 | |||
| Outside frame | ABS | |||
| Aeration capacity(L/min.pcs | 12 | |||
| Weight | 5.5 | |||
| Urbidity of effluent(NTU) | ≤1 | |||
| SS (mg/L) of effluent | ≈0 | |||