Description
MemJet Xpress MBR Water Treatment Plant in Excellent Condition, with New Membrane, Rated for 50,000 GPD Capacity. Equip yourself with the gold standard.
Manufacture & Design
- Rated for 50,000 gallon per day average daily flow
- with peaks up to 100,000 gallon per day
- Primary treatment using fine screening
- 2 mm perforated plate drum screen
- Biological nutrient removal includes anoxic (denitrification) zone and aerobic (nitrification) zone with dissolved oxygen control
- Membrane operating system (MOS) for filtration
- Full Siemens process description is available
History & Notes
- New Membrane stored in temperature controlled building
- Originally commissioned in 2009
- Operated for approximately 6 years
- Moved in 2017 to BC
Manufacturer Brochure Information for MemJet Xpress MBR Water Treatment Plant
USFilter’s MemJet® Xpress Membrane Bioreactor (MBR) packaged plant is a robust wastewater treatment process with inherent features designed to reduce maintenance and provide reliable and efficient wastewater treatment for small scale applications.
The MemJet Xpress utilizes the immersed membrane bioreactor operating system from the USFilter MemJet® MBR process, a unique wastewater treatment process designed for municipal and industrial applications.
Designed for applications from 25,000 gallons per day (gpd) to 100,000 gpd, the MemJet Xpress is ideally suited for land development sites, golf courses, resorts, small municipalities or industrial applications.
The prefabricated steel tanks will include pre-installed internals and skid-mounted pumps and blowers to reduce time and onsite labor for installation.
In the MBR process, wastewater is screened before entering the tank where the biological treatment process takes place. Aeration within the aerobic reactor zone provides oxygen for the biological respiration and maintains solids in suspension. To retain the active biomass in the process, the MBR relies on submerged membranes rather than clarifiers which eliminates sludge settleability issues. This allows the biological process to operate at long sludge ages (typically 20-100 days) and increased mixed liquor suspended solids (MLSS) concentrations (typically 8,000–14,000 mg/L).