At the heart of Prosper’s innovative approach our development of a patented Gas Infusion module that leverages Microporous Hollow Fiber (MHF) technology. Unlike conventional aeration or nano bubble generators, Prosper’s MHF modules create a stable and efficient interface for gas transfer, offering unparalleled surface area and pore density per gas transfer device or module. This technological advancement has redefined the efficiency, scalability and versatility of gas transfer processes across multiple water treatment processes.

Prosper’s microporous hollow fiber (MHF) technology outperforms other gas transfer methods, delivering bubble-free, energy-efficient, and high-efficiency gas infusion while simultaneously removing unwanted gases. With its compact design, low operating pressures, and chemical-free process, it’s the most advanced and sustainable solution available.

• Bubble-Free Gas Transfer – Maximizes gas utilization without waste
• Superior Efficiency – Achieves >95% transfer efficiency and up to 440 ppm dissolved oxygen
• Simultaneous Gas Removal – Removes nitrogen and CO₂ while infusing oxygen
• High Surface Area to Water Volume Ratio – Maximized gas-liquid contact for optimal performance
• Low Energy Consumption – Operates efficiently at just 20–40 psi
• Stable & Predictable – Consistent performance regardless of flow conditions
• Compact & Scalable – Modular design for flexible integration
• Chemical-Free & Eco-Friendly – No additives, just pure gas transfer

Our core mission at Prosper is to create environmentally friendly solutions to some of the planet’s most challenging climate change issues. The reduction in energy and greenhouse gases and the preservation of water resources for which the globe relies on for the health of our planet form the foundation of our water restoration and preservation strategy.

Unlike outdated gas transfer systems that rely on inefficient bubble-based mechanisms, Prosper’s advanced gas infusion technology delivers superior efficiency, lower energy costs, and long-term reliability.

How We Compare to Outdated Gas Transfer Systems:

• Nano-Bubble Generators – Require high-pressure pumps, leading to higher energy consumption and operational costs.
• Spargers & Compact Towers – Depend on high flow rates and pressure to maintain gas transfer, increasing energy demands.
• Spray Pressure Columns/Vessels – Create irregular and inefficient gas-liquid contact, resulting in higher energy consumption and inconsistent performance.

Self-Purging Module Design = Low Maintenance & 10+ Years of Reliability

• Built to Last – Our high-performance materials withstand harsh chemicals, extreme temperatures, and high pressures for over a decade.
• Fouling & Clogging Prevention – The hydrophobic fiber design naturally resists buildup, eliminating the common maintenance issues of traditional systems.
• Easy Maintenance – If minimal biofilm forms, a simple gas purge of the fiber restores optimal performance—no downtime, no hassle.