November 13, 2024,Mumbai, Maharashtra, India : The Mumbai Metropolitan Region (MMR) has been breaking the country’s records in handling massive sewage treatment plants (STP) capacities on the back of Veolia Water Technologies & Solutions’ membrane bioreactor (MBR) technology.
So far, the Mumbai region is witnessing the deployment of some of the largest STPs using the advanced MBR technology for making high quality treated water accessible for all the indirect potable reuse.
To begin with, India’s first greenfield and arguably the largest STP of a whopping 500 Million Liters per Day (MLD) in Worli is getting built on the back of Veolia’s ZeeWeed pioneering MBR technology for the Municipal Corporation of Greater Mumbai (MCGM). Similarly, the country’s second-largest STP of 360 MLD units is also coming up in Bandra, equipped with Veolia’s Zeeweed MBR technology.
Another civic body Navi Mumbai Municipal Corporation (NMMC) has two state-of-the-art tertiary treatment plants of capacity 20 MLD each under Atal Mission for Rejuvenation and Urban Transformation (Amrut) scheme being built with the help of Veolia’s Zeeweed Pressurised Ultrafiltration Membrane Technology.
As a pioneer of membrane technology, Veolia’s Zeeweed leverages four decades of research, development, and operational experience to offer one of the most advanced ultrafiltration technologies in the market.
The pressurized ultrafiltration membrane ZeeWeed 1500 is ideally suited for use in numerous applications including drinking water treatment, tertiary filtration and RO pre-treatment for brackish water and seawater.
To add more value and benefits to the customers. The company has introduced a new ZW1500 XT Model during IFAT 2024 to the Industry for South Asia Market. This is an upgraded version of the ZW1500X Model. ZW1500XT brings in with higher membrane surface area of 120 square meters with new generation PVDF hollow fiber membranes, higher fouling resistance and hydrophilicity feature. This is a value to choose with the lowest footprint and highest quality of treated water by enhancing the filtration intensity.