Building tomorrow's
water infrastructure today.

At the core of our work is a strong focus on practical innovation in water treatment technologies for some of the most challenging water quality and sustainability issues facing municipalities and industry today. Our R&D efforts combine applied engineering, process optimization, pilot-scale validation, and emerging treatment technologies to develop solutions that are technically robust, economically viable, and scalable for real-world deployment.

EMERGING CONTAMINANTS // 01

PFAS Removal & Treatment

Per- and polyfluoroalkyl substances (PFAS), often referred to as "forever chemicals," represent one of the most significant emerging contaminants affecting drinking water supplies worldwide. Our research activities focus on advancing cost-effective and sustainable PFAS treatment approaches for municipal and industrial water systems.

Current areas of investigation:

Optimization of granular activated carbon (GAC), ion exchange, and hybrid adsorption systems

Evaluation of colloidal and engineered sorbent technologies

PFAS concentration, destruction, and residual management strategies

Membrane-based PFAS separation processes

Treatment performance under varying water chemistries and competing contaminants

Pilot testing and process integration for utility-scale implementation

Investigation of adsorption kinetics, breakthrough behavior, and mass transfer limitations

Our objective is to help utilities and industrial clients navigate evolving regulatory requirements while minimizing lifecycle treatment costs and operational complexity.

WATER SCARCITY // 02

Desalination & Advanced Water Reuse

Freshwater scarcity continues to drive demand for efficient desalination and water reuse technologies. Our R&D efforts in this area focus on improving process efficiency, reducing energy consumption, and enhancing long-term operational reliability for both seawater and brackish water applications.

Current areas of investigation:

Reverse osmosis (RO) system optimization

Pretreatment technologies for high-fouling feedwaters

Membrane fouling and scaling mitigation

Energy recovery and process efficiency improvements

High-recovery desalination system design

Brine management and concentrate minimization strategies

Integration of advanced oxidation, biological treatment, and membrane processes

Emerging membrane materials and hybrid treatment trains

We are particularly interested in technologies that reduce overall water production cost while improving resilience and sustainability of water infrastructure.

ENERGY SECTOR // 03

Produced Water Treatment & Resource Recovery

The treatment and beneficial reuse of produced water from oil & gas operations presents both a significant challenge and a major opportunity. Our work focuses on developing practical treatment systems capable of handling complex produced water chemistries while enabling reuse, discharge compliance, or resource recovery.

Current areas of investigation:

Removal of dissolved organics, hydrocarbons, suspended solids, and salts

PFAS and trace contaminant management in produced waters

Pretreatment for membrane and thermal systems

Advanced oxidation and electrochemical treatment methods

High-TDS water management strategies

Treatment system modularization and field deployability

Recovery of valuable resources and reduction of waste streams

Integration of treatment technologies for beneficial reuse applications

Our approach emphasizes operational practicality, scalability, and cost optimization for field conditions commonly encountered in energy and industrial sectors.

PHILOSOPHY // 04

Innovation Through Applied Engineering

Our R&D philosophy emphasizes bridging the gap between laboratory concepts and deployable engineering solutions. By combining scientific understanding with practical operational experience, we aim to develop technologies that can be implemented reliably under real-world conditions.

we actively pursue

Pilot and demonstration testing

Process modeling and optimization

Technology evaluation and due diligence

Collaborative development partnerships

Custom treatment system design

Data-driven performance analysis

Through continuous innovation and applied research, we seek to contribute to more sustainable, resilient, and economically effective water treatment solutions for both public and industrial sectors.

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