With today’s advancements in technology, users benefit from smaller components.
VFDs
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A User's Guide to Variable Frequency Drive Technology
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What does it take to make single- and multi-tank systems more efficient?
Operators can improve accuracy and minimize costs.
How VFDs can play a big part in pump system optimization.
Failing grids can result in interruptions across many platforms.
VFDs are used to control the speed of both induction and synchronous motors.
Webinar
Learn how VFDs mitigate issues through forward/reverse time-sequencing and more.
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e-Book
Learn more from industry knowledge leaders on variable frequency drives.
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Leverage VFDs in centrifugal pump systems to maximize energy savings, increase reliability and improve process control.
Pump selection involves a series of tradeoffs.
The process should start with the basics of visual inspection, then progress to checking other aspects.
See the best fits among stiff or flexible shafts for motor operation.
Adding or removing auxiliary pumps based on the VFD controller algorithm creates an efficient pumping system.
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Thinking in terms of system efficiency instead of device efficiency offers opportunities.
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Smart variable speed drives offer an efficient and cost-effective method of prevention.
Why users need to understand system head curves and their benefits in proper pump selection.
Learn safe assumptions when calculating the total head of a pump and how to deal with an oversized or undersized pump.
Poor power factor can lead to inefficiencies at wastewater treatment plants.
These motor systems can run at a synchronous speed, providing improved hydraulic performance.
As nonflushable wipes become more of a nuisance, anti-clogging technology steps in.