Membrane Bioreactor NM-RMBR-1010 Specification:
| Type |
NM-RMBR-1010 |
| Membrane |
Nominal pore size (μm) |
0.06 Micron (Average) |
| Material |
PVDF, PET non-woven fabric and ABS resin |
| Membrane area per element (m 2 ) |
10 m 2 |
| Membrane Element dimension |
Height: 1100mm |
| Wide: 571mm |
| Thickness: 45mm |
| Filtration Method |
Suction /Outside-in |
| Hollow fibers I /O diameter |
1.0 /2.2 mm |
| Design flow rate |
100—300 Liters/ Hour
(Sewage design 150 L/H)
|
| Air diffuser |
Fine bubble, tube type,
EPDM rubber
|
| Recommended usage |
Smaller capacity plants (<200 m 3 /d)
Containerized package plants
In-building wastewater reuse Marine application
Municipal & industrial wastewater
|
Futher technical data or information please do contact with us!
Application
*
Membrane bioreactor (MBR) is the combination of a membrane process like microfiltration or ultrafiltration with a suspended growth bioreactor, and is now widely used for municipal and industrial wastewater treatment.
PVDF Membrane Bioreactor NM-RMBR-1010 is widely used for industrial and sewage waste water treatment, it’s special better for packaged wastewater treatment plant in container.
Benifits
* System operates at a low pressure
* Removes bacteria and viruses
* Keeps essential minerals in water
* Installs quickly and easily
* Does not generate waste water
* An ultrafiltration system is eco-friendly. Ultrafiltration has a 90-95% recovery rate and can be used to treat wastewater for reuse. Using a home ultrafiltration water system benefits the environment by reducing the amount of plastic water bottles discarded in landfills.
Packaging
Membrane Bioreactor NM-RMBR-1010 Paper carton pack, 5 pcs / carton
One carton gross weight: 30kgs
Dimension of Carton: 110* 60*30cm
Our Service
We are the manufacturer of Membrane Bioreactor NM-RMBR-1010, we can offer according to your client project requirement.
According to client requirement design the completely wastewater project treatment solution.
MBR Technology for Wastewater Reclamation and Treatment
In the MBR procedure, the system combines the activated sludge treatment with the membrane of the liquid-solid separation procedure. The membrane component uses low-pressure microfiltration & ultra-filtration membranes & eliminates the requirement for clarification & tertiary filtration. We offer the top quality MBR membrane that can be physically installed in the bioreactor tank or a separate tank. For most of the procedures submerging membranes in a bioreactor tank proves to offer the most efficient & cost-effective solution.
Our MBR membrane is used in the MBR process have very small pore sizes that are ranging from 0.04 – 0.4 microns. Almost complete separation of the suspended solids from mixed liquor can be achieved. It is the fact, along with the basic design results in dramatic reductions in the contaminants. The MBR process combines triggered sludge treatment with the membrane for liquid-solid separation. When MBR can attain almost complete separation of the suspended solids & dramatic reduction in the contaminants, it is prone to membrane fouling. Luckily, the recent advent of PTFE membranes & improved system designs has minimized need for membrane maintenance to prevent fouling.
Still, MBR is not without its drawbacks, the largest of which is membrane fouling-no surprise given the operating conditions to which the membranes are exposed. Fouling gradually reduces process efficiency causing cross-membrane pressures to increase or permeate flows to decrease depending whether the process is operated under constant pressure or constant flux conditions respectively. While automated cleaning regimens minimize the impact of membrane fouling, the cleaning and replacement must still be analyzed and factored into the overall analysis of MBR viability for any project.
As a leader in the development of industrial & municipal wastewater treatment systems, Hinada has the technical expertise to design & build wastewater & sewage treatment facilities for every industry. Beyond the wastewater, our team focuses on refining & expanding the water & wastewater treatment methods we presently employ thus, we can meet the most difficult challenges head-on with our top-notch innovation.
