Electric motors consume approximately one quarter of the electricity in the U.S. and are the main motive force in our commercial buildings, industrial facilities, and appliances. Everyone knows reducing energy consumption has become a priority for the U.S. Many new methods of reducing electricity are being considered, including new electric motor efficiency technologies.

Figure 1. The efficiency curve for typical AC motors.
Many electric motors are equipped with a soft start. A soft start’s purpose is to bring an electric motor up to full speed gradually, thereby reducing starting inrush current and relieving mechanical stress on the motor and related equipment. Besides startup, mainstream soft starts do nothing to control the electricity consumed by the motor. A soft start only works from the moment the motor is turned on until it reaches full RPM.

Figure 2. Up Escalator Annual Savings
With the first quarter of 2007, Power Efficiency (Las Vegas, NV) formally launched Energy Saving Soft Start Plus (ESS+), which incorporates all the standard features of a solid-state soft start with Power Efficiency’s patented energy saving technology. The technology matches the voltage to the motor load in order to supply the precise amount of energy required to maintain the motor at normal operating speed (full RPM). Utilities and customers have tested the technology on numerous applications (granulators, MG set elevators, escalators, and stamping presses) and frequently qualify for utility efficiency rebates.

The ESS+ could replace existing starters and soft starts on new equipment or could be retrofitted into existing motor control centers. The ESS+ could also integrate with virtually any automation system, through a PLC or other control network architecture, and report the amount of energy savings. Further software developments would enable the ESS+ to report a motor’s load characteristics and predict motor and equipment maintenance issues.

Saving Power

The first option that comes to mind is that low-tech solution: the power switch. There is no denying that the best way to save energy is to shut off the machine. However, such is not always possible. High efficiency motors are another option. Although more efficient than standard motors, high efficiency motors become inefficient when lightly loaded, just like standard motors. Installing a variable frequency drive (VFD) is another option; by equipping the machine with a VFD, it will slow down or stop when there is no load, or when it is lightly loaded, and will speed up again when load increases. Slowing or stopping the electric motor saves energy. Nevertheless, there are times when slowing the motor is not possible, or when a VFD is too expensive to be economical based solely on energy savings.

The Power Efficiency ESS+ keeps the motor running at full RPM, in contrast to a VFD, and reduces the power used by the motor when it is lightly loaded. The ESS+ is also expected to have a retail price comparable to other solid-state soft starts, which are far less expensive than most VFDs. Furthermore, the energy saving technology in the ESS+ makes high efficiency motors more efficient in the same way it operates on standard efficiency motors — augmenting their efficiency at low loads.

How It Works

In general, AC induction motors operate most efficiently at around 75% of full rated load. At roughly 40% of full load, a motor’s efficiency begins to decrease. At even lower loads the efficiency drops off precipitously. Numerous motors operate at light loads. According to a Department of Energy study, 44% of motors in industrial facilities operate at 40% or less of full load and are operating inefficiently.

« Start Prev 1 2 Next End»

The U.S. Government does not endorse any commercial product, process, or activity identified on this web site.