Brand Name: | KAIMI |
---|---|
name: | UF braced tubular membrane |
Material: | PVDF |
application: | wastewater recovery |
Type: | Tubular |
Model Number: | KMTB-S-SD-0412 |
Place of Origin: | China (Mainland) |
Quick Details
Specifications
UF Braced tubular membrane for acid and alkali recovery
Product Description |
Braced tubular membrane module |
Type |
Tubular membrane |
Membrane material |
PES |
Housing |
Stainless Steel |
Max operation pressure |
8 bar under 49℃ |
Max pressure on permeate side |
0. 2bar |
Max operation temperature |
60℃ |
PH scope |
0-14 |
Max allowed total chlorine |
200ppm under pH10-10. 5, 49 ℃ |
Model |
KMTB-S-SD-0412 (4",12',2.5) |
KMTB-S-SD-0512 (5",12',5.2) | |
Application |
Acid and alkali recycle |
Fills the Market Gap: Conventional technology is complicated with high operating cost, which wastes resources and increases environmental costs. Kaimi's self-developed tubular membrane has strong resistance to acid and alkali, which is the most effective technology with the highest degree of automatic control at present.
Patented Tubular Technology: Braced tubular membranes with 12.5mm channels can tolerate 15% H2SO4 and 20% NaOH, whose recovery rate can reach up tp 90%, can effectively extract the recyclable constituents, to achieve cost efficiency.
Dual-Membrane Technology: Kaimi focuses on full process design, synthetically considering cost, efficiency and effect, accumulating experience and pushing out the most effective and efficient solution.
Advantages of braced tubular membrane system in recoverying of waste acid and alkali:
1. Tubular membrane module with the PH range of 0 to 14
2. Membrane has strong antifouling property, high regeneration performance and long seervice life.
3. High degree of automation systems, low cost of labor
4. Good flux recovery, easy to clean
5. Reasonable process configuration, high flux
6. Membrane is unbreakable and not easy to break and easy to replace, singel membrane can be indepensently replaced.
7. Greatly reduce the cost of production
8. Clean production, acid-base reuse, reduce emissions