About Us
EcoFlux, a joint initiative between NED University of Engineering and Technology (NEDUET) and FAST Information Tech Pvt. Ltd. (FIT), is revolutionizing industrial sustainability by commercializing cutting-edge membrane technologies for water purification, desalination, zero liquid discharge (ZLD), and energy harvesting.
Our flagship project, developed under the HEC Technology Transfer Support Fund (TTSF) Project No. 130, titled “Designing a Versatile Prototype Based on Ion Exchange Membranes for Efficient and Cost-Effective Recycling of Industrial Waste,” is led by Dr. Shazia Perveen and Mr. Syed Ghazanfar Hussain from NEDUET’s Department of Chemistry.
At EcoFlux, we bridge academic research and industrial engineering to develop scalable, cost-effective membrane solutions that minimize waste, optimize resource recovery, and advance global sustainability goals.
Our Vision:
To create a circular economy where every drop of wastewater is transformed into a renewable resource, ensuring global water security and energy sustainability.
Our Mission:
We are committed to developing membrane-based technologies that drive water purification, wastewater recycling, energy recovery, and zero waste solutions. Our mission is to deliver environmentally sustainable and cost-effective solutions for industries and communities worldwide.
Innovation
Our Core Technologies & Services
- Water Purification & Desalination – Advanced Ion Exchange Membranes (IEMs) for highly efficient water purification and desalination in industries and municipal systems.
- Zero Liquid Discharge (ZLD) – optimized flow conditions, low fouling, high performanceTailored solutions to achieve complete wastewater recovery, providing industries with a zero waste solution.
- Energy Harvesting & Storage – Electrodialysis and Pressure Retarded Osmosis (PRO) technologies for generating renewable energy from saline gradients. We also offer energy storage solutions with Fuel Cells and Redox Flow Batteries.
- Resource Recovery – Acid, base, and metal recovery from industrial effluents, supporting a circular economy by recycling valuable resources.
Innovation
Innovation
Innovation drives everything we do. Our scientists and chemists push the boundaries of membrane technology through
- Nanocomposite engineering – enhanced selectivity, higher durability, broad pH stability
- Smart module design – optimized flow conditions, low fouling, high performance
- Sustainable production – energy-efficient, eco-friendly processes for scalable membrane manufacturing
- Application versatility – from drinking water and desalination to fuel cells, microbial batteries, and clean energy devices
Academic & Research Network
Our work is grounded in science. Backed by peer-reviewed publications and our state-of-the-art R&D Membrane Laboratory (MMSE), we bridge academic research with industrial applications.
- Electrochemistry Lab – developing membranes for batteries, solar films, and polymer conductive materials • Prototype testing systems – real-world validation of ZLD, wastewater reuse, and clean energy generation • Research partnerships – with universities and global institutions driving sustainable membrane science
- Prototype testing systems – real-world validation of ZLD, wastewater reuse, and clean energy generation
- Research partnerships – with universities and global institutions driving sustainable membrane science
Academic & Research Network
Our work is grounded in science. Backed by peer-reviewed publications and our state-of-the-art R&D Membrane Laboratory (MMSE), we bridge academic research with industrial applications.
Why Choose EcoFlux
- Scalable Solutions: Membrane technologies for small to large-scale applications.
- Research-Driven: Developed at NEDUET’s Electrochemistry Lab with validated testing.
- Cost-Effective & Sustainable: Reduces costs while meeting sustainability goals.
- Proven Impact: Backed by HEC TTSF Project No. 130, pioneering sustainable technology in water, energy, and resource recovery.
