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Built to Endure: Smarter Pumping Solutions for Wastewater’s Toughest Problems
A real-world look at how smarter pump design slashes downtime, stops clogs, and saves serious money in harsh environments
If your facility handles wastewater, you already know the daily challenges: clogging from fibrous rags, breakdowns from abrasive sludge, and sky-high maintenance costs from worn-out pumps. But what if there were a smarter, more reliable way to keep your system running?
In this expert-led webinar, we go beyond the sales pitch and dive deep into how next-generation pumping technology is transforming wastewater operations in municipal and industrial facilities alike. From reducing emergency repairs to boosting long-term reliability, you’ll learn how modern pump design tackles the very problems that cost you the most—clogs, cavitation, wear, and unplanned downtime.
Whether you’re a plant manager, engineer, or maintenance leader, this session delivers practical strategies backed by real performance data and case studies.
What You'll Learn
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Real-World Failures, Real-World Fixes: Why conventional pumps keep failing in tough wastewater conditions—and what a better alternative looks like in action. |
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Uptime Is Profit: How low-maintenance pump designs eliminate replacements, repairs, and costly downtime. |
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Don’t Just Handle Solids—Dominate Them: The science behind reliable pumping of sludge, slurry, and stringy solids—without the usual headaches. |
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Cut Costs Where They Hurt Most: From spare parts to overtime labor, uncover how lifecycle savings stack up—especially when downtime costs $100K+ per hour. |
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What the Data Says: Case studies from real municipal and industrial wastewater facilities who are using smarter pump solutions to improve performance, reliability, and ROI. |
Where Other Pumps Fail, Discflo Pumps Excel
In severe applications where abrasion, viscosity, entrained air, excessive wear, and corrosion problems wreak havoc on pump systems, Discflo has developed a superior alternative. Our patented pump technology dramatically reduces pump wear, is virtually clog free, and prevents product damage.
Non-Pulsating, Laminar Flow
Through viscous drag, fluid is pulled through the pump without impingement. The boundary layer attracts and drags successive layers of fluid molecules into layered flows of parallel streams. This is the simple principle of viscous drag, and, in the Discflo disc pump, it is a powerful dynamic force that “pulls” the fluid through the pump in a smooth, laminar, non-turbulent flow.
The non-impingement and laminar flow pumping of the disc pump is similar to flow through an ordinary pipe. The layers of fluid at the walls are stationary (relative to the rotating discs), creating a protective boundary layer. Viscous drag pulls layers into flows of smooth laminar streams.
About Discflo
For over 40 years, we have been pump innovators. We are dedicated to constantly improving and leading the way in pumping viscous materials. Our goal is for our customers to see a decrease in maintenance costs and downtime while pumping difficult materials. Our dedication to quality and precision when manufacturing our pumps is shown in the longevity of our pumps in the field. Less than 5% of our annual revenue comes from replacement part sales.