SonixED CONTAINER
Our SonixED Container integrates Electrodialysis Reversal (EDR) and ultrasound technology to enhance water treatment processes. This patented system is designed to improve water recovery up to 98%, reduce energy consumption to 0.2-0.6 kWh/m³, and minimize chemical usage. It prevents membrane fouling and is scalable, plug-and-play, and easy to operate. Ideal for applications in groundwater treatment, industrial water reuse, and nitrate removal, the SonixED Container provides a sustainable, cost-effective solution with significant environmental benefits.Our innovative approach addresses critical global water challenges and offers substantial financial and environmental advantages, making it a leading solution in sustainable water management for industrial applications.
- Electrodialysis Reversal (EDR): Enhances ion transfer efficiency, allowing for high water recovery rates.
- Ultrasound Technology: Prevents membrane fouling and enhances ion transfer through micro-mixing.
- Water Recovery: Up to 98%, significantly reducing water waste.
- Energy Consumption: Between 0.2-0.6 kWh/m³, making it highly energy-efficient.
- Chemical Usage: Minimal to zero, reducing environmental impact.
- Modular Design: Scalable and adaptable to various sizes of cooling towers and industrial applications.
- Ease of Use: Plug-and-play system with a small footprint, easy to operate and maintain.
- Cooling Tower Recycling: Maximizes efficiency and reduces operational costs in industrial cooling systems.
- Industrial Water Reuse: Enables sustainable reuse of water in various industrial processes.
- Nitrate Removal: Addresses nitrate pollution effectively, ensuring safe and clean water.
- Lower Total Cost of Ownership (TCO): Offers significant cost savings with a quick return on investment (ROI).
- Sustainability: Reduces chemical dependency and environmental contamination, promoting sustainable water management practices.
- Demonstrated high efficiency and reliability in commercial pilots and real-world applications in Belgium and Germany.