Water Plant Technology
Established in2021
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Graphene Membrane Innovation Targets Pfas Removal From WaterNematiQ, a wholly owned subsidiary of Clean TeQ Water, in collaboration with Monash University, has developed a next-generation Graphene Membrane that effectively removes both long and short chain per- and polyfluoroalkyl substances (PFAS), including PFOA and PFOS—marking a significant advancement in water purification technology.
PFAS are a group of man-made chemicals used in products like firefighting foams, non-stick cookware, waterproof textiles, and food packaging. Known for their persistence and resistance to breakdown, PFAS have become a growing concern due to potential health risks and widespread detection in soil, waterways, and drinking water.
Building on over a decade of research and development in Graphene Membrane technology, this latest breakthrough introduces a new approach to PFAS removal using advanced chemistry. Unlike NematiQ’s existing Graphene Membrane, which has a molecular weight cut-off (MWCO) of 800 Daltons and is suited for applications such as seawater reverse osmosis (RO) prefiltration, the removal of natural organic matter (NOM) from drinking water, wastewater recycling and industrial separations, the new PFAS-rejecting membrane uses innovative chemistry and creates an energetic barrier to prevent PFAS movement and achieve high PFAS rejection rates.
The innovation presents a valuable opportunity for industries including municipal water treatment, manufacturing, defence, and environmental remediation. As regulatory bodies worldwide impose stricter PFAS limits in drinking water, NematiQ’s new membrane technology is expected to provide a scalable and sustainable solution for compliance and public health protection.
Researchers at Monash University developed the technology by engineering a novel water filtration membrane that uses beta-cyclodextrin-modified graphene oxide to trap PFAS molecules. Its nanoscale channels are designed to selectively capture even short-chain PFAS compounds while allowing clean water to pass through—solving a key limitation of conventional filtration systems.
“PFAS are difficult to manage because they dissolve easily in water and can spread far from their original source, making contamination challenging to contain and remediate,” says study first author and Monash PhD candidate, Eubert Mahofa. "Our approach solves this by filtering out and concentrating these harmful chemicals while still allowing water to flow through efficiently."
From left: Dr Sally El Meragawi, Professor Mainak Majumder, and Eubert Mahofa. Source: Monash University
Dr Sally El Meragawi, co-researcher on the project, says, “By combining advanced materials with smart chemistry, we’ve created a highly efficient way to tackle this global contamination issue.”
Monash University, Clean TeQ Water, and its graphene-focused subsidiary NematiQ have worked together over many years to advance and commercialise innovative membrane technology. They are committed to rigorous testing and demonstration trials to optimise and commercialise the technology.
“We’re excited to continue our partnership with NematiQ to advance the commercialisation of this promising Graphene Membrane technology,” says Professor Mainak Majumder, Director of the Australian Research Council’s Research Hub for Advanced Manufacturing with 2D Materials (AM2D) which supported this work."
The next steps involve pilot studies and collaboration with industry partners to validate the membrane’s effectiveness across different water treatment scenarios.
Meanwhile, NematiQ remains focused on scaling up the production of its existing Graphene Membrane, actively seeking collaboration with leading membrane manufacturers to expand capacity and enhance manufacturing efficiency. These efforts aim to accelerate commercial adoption of the technology in various water treatment applications while advancing the next generation of Graphene Membranes.
www.cleanteqwater.com
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Apr 16, 2025
Water Plant Technology
Veolia Launches Mobile Water Service Center In Brazil To Boost Regional Water ResilienceVeolia Water Technologies has announces the opening of a new Mobile Water Service Center in Cajamar, São Paulo, Brazil. This state-of-the-art facility is dedicated to maintaining and managing Veolia's extensive fleet of mobile water treatment units — the largest in the country — marking a significant step forward in providing sustainable water solutions to strategic industries across Latin America.
The new Mobile Water Service Center strengthens Veolia's ability to deploy rapid, flexible and sustainable water solutions, boosting resilience for industrial and municipal clients. These mobile units serve a wide range of applications, from demineralized water production to water clarification, wastewater treatment and water reuse. This expanded service offering ensures uninterrupted water availability, safeguards business continuity and advances water circularity, providing clients with a robust shield against water-related challenges.
Complementing this expansion, Veolia's plant in Sorocaba (SP) now specializes in the production of cutting-edge water treatment equipment featuring advanced membrane technology. Drawing on Veolia’s 30 years of pioneering membrane expertise, the plant serves as a cornerstone for high quality water treatment and wastewater regeneration in both industrial and municipal applications. This strategic reorganization enables Veolia to better serve municipalities and key industries by offering innovative solutions that promote efficient water resource management.
Mauro Cruz, who heads Water Technologies activities for Veolia in Latin America, stated: "Our new Mobile Water Service Center in Cajamar significantly enhances our ability to serve our customers with greater efficiency and quality. By expanding our mobile fleet capabilities, we're actively addressing water scarcity and quality issues that challenge industries and municipalities across Latin America. This strategic expansion, aligned with Veolia's global GreenUp program, positions us as a key partner in building a more resilient, sustainable water future, accelerating ecological transformation in the region and beyond."
www.veoliawatertechnologies.com
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Apr 16, 2025
Water Plant Technology
Smith & Loveless Advances Compact Mbr Solutions For Municipal And Industrial Wastewater NeedsSmith & Loveless highlights the OXIGEST® MBR™ Wastewater Treatment System, a state-of-the-art solution combining proven biological treatment with membrane filtration technology. Designed for municipal and industrial wastewater applications, the OXIGEST® MBR™ system offers superior effluent quality, reduced footprint, and fully automated operation.
The OXIGEST® MBR™ system integrates S&L’s field-erected OXIGEST® treatment system with advanced membrane bioreactor (MBR) technology, achieving high-performance biological nutrient removal (BNR) and water reuse capability. With a treatment capacity ranging from 0.1 to 3 million gallons per day (MGD), this system provides a scalable and adaptable solution for municipalities, private developments, and industrial facilities seeking efficient wastewater treatment and stringent effluent compliance.
A key advantage of the OXIGEST® MBR™ system is its optimized footprint, which eliminates the need for expansive tank farms by utilizing a compact design with concentric tankage. This space-efficient approach reduces capital costs while maintaining the highest levels of treatment performance. The system can be applied to both new installations and upgrades of existing S&L Model R OXIGEST® plants through the integration of the TITAN MEM-BOX™, transforming conventional extended aeration processes into full MBR systems.
Equipped with smart automation, the OXIGEST® MBR™ system features advanced instrumentation and monitoring capabilities, including QUICKSMART™ touchscreen controls and remote operation functionality. Precision control of dissolved oxygen, blower pressure, and air flow enhances energy efficiency while ensuring optimal treatment conditions. Stainless steel tankage and piping provide long-term durability, and the system’s modular factory-built MBR tankage expedites installation and commissioning.
Smith & Loveless supports OXIGEST® MBR™ projects with comprehensive design and engineering expertise, guiding customers from initial planning through implementation. With decades of experience in biological treatment plant design, the company delivers cost-effective and high-performance wastewater solutions for a wide range of applications, including municipal utilities, industrial facilities, military installations, and private developments.
www.smithandloveless.com
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Apr 16, 2025
Water Plant Technology
Tetra Tech Secures Major Contract To Enhance Uk Water InfrastructureTetra Tech has announced that Severn Trent Water has selected Tetra Tech for a ÂŁ36Â million multiple-award contract to provide comprehensive water infrastructure services in the United Kingdom.
Under the 3-year contract, Tetra Tech engineers will conduct geotechnical investigations to assess soil and groundwater conditions to support the development of Severn Trent Water’s capital improvements projects. Tetra Tech technical specialists will capture data in the field using cloud-based software to optimize data collection, validate data at the source, and synchronize collection efforts across field teams.
“Tetra Tech uses its innovative Leading with Science® approach across all phases of the water cycle to design solutions that protect our global water supplies,” said Dan Batrack, Tetra Tech Chairman and CEO. “We look forward to supporting Severn Trent Water to develop resilient water supplies for its millions of customers now and into the future.”
www.tetratech.com
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Apr 15, 2025
Water Plant Technology
Solar Scheme Set To Help Power Gorbals Water PumpsA ÂŁ636,000Â solar project which will help pump water to thousands of customers in South Ayrshire is now complete. The scheme, which will help save 78Â tonnes of carbon dioxide equivalent each year, has seen 793Â roof and ground mounted solar panels installed at the Gorbals water pumping station, as well as on top of the neighbouring large drinking water tank.
HorizonsThe panels are expected to generate 0.39GWh of energy annually – the same as boiling 1.7 million kettles – which will meet almost 17% of the site’s power needs.
Scottish Water Horizons Project Manager Pauline Donnelly said: "We're very pleased that work is now complete on this project at Gorbals water pumping station and nearby drinking water tank, meaning the process of moving our clean fresh, water from Milngavie Water Treatment Works to customers' taps is now less carbon intensive.
"In order to meet our 2040Â net zero targets, renewables projects such as these are key to making the processes we rely on for our water and waste water services greener. In the past three years, Scottish Water has installed 14.4GWh of solar energy across its sites, in addition to 9.6GWh over the previous 12Â years."
Local Scottish Water Operations Team Leader Gavin McBride said: "Pumping water along our network involves high pressures and is an energy intensive process, so it makes a real difference that some of the power we are using to do that is now coming from renewable sources.
“The scheme will also see some renewable energy being sold back to the national grid that can be accessed in the local area."
Biodiversity measures such the removal of invasive non-native species, alongside native hedgerow and wildflower planting, will also be implemented at the site, helping to protect and enhance local habitats.
www.scottishwater.com
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Apr 15, 2025
Water Plant Technology
Ksb Unveils Energy-Efficient Pump Series For High-Pressure Water ApplicationsAt the end of February 2025, the KSB Group will launch the first size of its newly developed MultiTec Plus type series, size 150, on the market. These pumps have been specially developed for transporting drinking water, with optimum hydraulic efficiency being the focus.
Combined with extremely economical synchronous reluctance motors and variable speed systems of the PumpDrive type series, the pump sets have a very low energy consumption and a very small carbon footprint. The variable speed systems automatically match pump output to actual demand, making sure that no energy is wasted. Optionally, the KSB Guard monitoring system can monitor the pumps’ condition by measuring the temperature and vibration data and sending it to the KSB Cloud in real time. If any deviations or irregularities compared to normal operation occur, the system will also send messages to efficiently plan maintenance measures and minimise downtimes.
MultiTec Plus pumps are designed for a casing pressure of 25Â bar. They can reach a maximum head of almost 250Â metres and a flow rate of up to 470Â mÂł/h. They are exclusively driven by four-pole three-phase motors. Compared with higher-speed pump sets with smaller nominal diameters, the new pumps, running at 1450Â (50Â Hz) or 1750Â (60Â Hz) rotations per minute, will reach the same maximum flow rate, yet run much more quietly. Their low rotational speeds help reduce wear, which has a positive impact on both the service life and the efficiency of the pump set. Energy efficiency, a long service life and low noise emissions are especially important in the water sector.
The maximum temperature of the fluid handled should not exceed 60 °C. The transition areas of the diffusers are protected against wear by casing wear rings. As the arrangement of suction and discharge nozzles can be matched to customer requirements, the pumps are particularly versatile and flexible to install. The pump sets are available in different designs, such as versions for horizontal and vertical installation with different bearing arrangements. Robust in design and equipped with flow-optimised hydraulic systems as well as easily replaceable wear parts, MultiTec Plus offers a high degree of operating reliability at low energy and maintenance costs. Self-adjusting plain bearings made of silicon carbide and innovative axial thrust balancing ensure high operating reliability.
www.ksb.com
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Apr 15, 2025
Water Plant Technology
Suez & Partners Commence Construction Of Philippines’ Largest Seawater Desalination PlantAsk For More Information…water
Apr 09, 2025
Water Plant Technology
Galindo Wastewater Treatment Plant Adopts Veolia'S Actiflo Turbo For Resilient Stormwater TreatmentAsk For More Information…water
Apr 07, 2025
Water Plant Technology
Veolia Supports Petstar’S Water Neutrality Milestone In Mexico, Marking 30 Years Of Eco-LeadershipAsk For More Information…water
Mar 26, 2025
Water Plant Technology
Gradiant And Archroma Partner To Advance Water Circularity In ThailandAsk For More Information…water
Mar 20, 2025