Pumping applications can be categorized as constant torque (CT) or variable torque (VT). This refers to the relationship of the torque required by the pump to a reduction in speed. Positive displacement pumps can be slowed to decrease the flow rate but the pressure may be constant. For example, if a gear pump is used to pump hydraulic oil to a pressurized cylinder, the pump can be slowed down to limit the flow rate but the cylinder is still at the same pressure.
Conversely, when you slow down a centrifugal pump, the performance (pressure and flow) capability is reduced. This is a variable torque application since the pump will require torque proportional to the reduction in speed (see previous post, How To Use Affinity Laws To Calculate Best Efficiency Point).
A motor will carry a CT and VT rating (1000:1, 20:1, 10:1, etc) which designates the ratio you can turndown from the nominal speed without overheating the motor. Variable torque motors have a torque output that is the square of the speed. As an example, a 10hp motor that has a nominal speed of 1800 will have 2.5hp rating at 900rpm. A CT rating is directly proportional to the reduction in speed. For instance, a 10hp motor with the nominal speed of 1800 will have a 5hp rating at 900rpm.
Specifications are loosely used to describe the requirement of an inverter rated motor. “Inverter duty” is a commonly used term which typically relates to a 1000:1 turndown. “Inverter capable” or “Inverter ready” commonly means a 10:1 or 20:1 turndown ration is required. Where these terms can convey a need for a motor capable of variable speed, the specific application should be reviewed to determine what speed reduction and the horsepower is required. Then a determination can be made as to what CT or VT rating is needed.
VFDs can help save a lot of energy, but knowing how to properly apply them is critical. If you’re considering adding a VFD, be sure to consult an experienced engineer. They can help you be sure you save as much energy as possible, while delivering the power needed for your process.
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