Micropore aerator - JPMA-002 Specificaton & Trade Terms
| Model | JPMA-002 |
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| Place Of Origin | China |
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| Price Term | EX-Work |
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| Payment Term | T/T |
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Membrane Type Micro-Pore aerator:
1. The gas diffusion rubber plates of the aerator are made of the high quality synthetic rubber; the diameters of the diffused gas bubbles by the rubbermembrane are small, the area of the gas-liquid interface is big; so the aerator has the higher masstransfer speed and oxygen-charging efficiency. Comparing with other existing aerators, it can greatly reduce the power-consuming and the waste-water treatment cost.
2. There are a lot of the self –closing pores in the rubber membrance; the pores can automatically open and close along with the oxygen-charging and operation –stop; so there is no pore –blockage or contamination. And , the air which enters into the aerator do not need the dust removal puritication; when the aeration tank stops the operation, the sewagemixture will not flush back; these will reduce a lot of the operation cost and the maintenance workload.
3. As the membrane type micro-pore aerator can be successively arranged on the bottom of the aeration tank, the oxygen can be dissolved uniformly in the tank; the aerator can be used in all tank sand heights; and the aerator can also be used to renovate the existing aeration tanks , the efficiency of there novated aeration tanks can be improved.
4. As the gas diffusion plates of the membrane type micro-pore aerator are made of the high quality rubber, it has great physical and mechanical performances; the pallets, fittings and te air pipes adopts the engineering plastics ; so there is no rust problem ,it greatly reduces the operation and maintenance workloads.
Main performance parameters.
1. Aerator size: 1 model D=260mm (or 250); II model D=215mm(or 189).
2. Mean pore diameter of aerator membrane: 80-100 micron
3. Air flow rate: 1.5-3m3/pcs.
4. Service area: I model0.5-0.7 m2/pcs. II model 0.35-0.5m2/pcs.
5. Oxygen transfer coefficientkla: 0.204-0.337 mm.
6. Oxygen Utillization Ratio : 18.4-27.7%.
7. Oxygen transfer Ability: 0.112-0.185kgO2/m3.h
8. Oxygen transfer power efficiency: 4.46-5.19 kgO2/KW.h.
9. Aerator Resistance: 180-280mm.H2O.
