Dirty Process Water Can Lead to Increased Total Operating Costs

Water from cooling towers attracts and absorbs airborne contaminants on a continuous basis. Typically, 85% of suspended solids in cooling water and hot water loops are smaller than 5 microns. Scientific studies have shown that these small particles (5 microns and less) are the adherent contaminants fouling the water loop and process cooling system.

Manufacturing facilities are routinely reviewing their system's water quality and treatment levels to prevent early and rapid corrosion, scale and biological growth; leading to unplanned facility maintenance or shutdown and possible product failure. With time, these fine particles will have an impact on your manufacturing costs, operating costs and production losses, while diminishing the quality of your final product. Protect your facility, your investments and your bottom line.

Learning Objectives:

• Understand the negative impact high levels of suspended solids have on your process, facility and/or final product.
• With today’s demand for highly efficient cooling, water filtration is playing a key role in ensuring the overall system is operating as designed. We will uncover 5 key trends that are driving the need for high efficiency filtration systems.
• Choosing the right filtration technology; clarify different technologies and their role in filtering fine particulate.
• Overcoming drought with water reuse & high efficiency filtration.
• Review case studies and quick wins that will enable you to reduce your total operating & maintenance costs. Ultimately, maximizing your ROI and improving your organizations bottom line!

Speaker: 

Michael Ditton

As the Vortisand® Product Manager, Mike is responsible for the Vortisand high efficiency microsand filtration technology in both the commercial HVAC and industrial markets. Having worked for numerous water technology companies, Mike has led energy and resource recovery projects throughout the U.S. Mike holds a MS in Innovation management from Brown University and a BS in Chemical Engineering from the University of Massachusetts Amherst.