- Director of Facilities and Fleet Management »
- Senior Director of Facilities »
- Construction engineer, U.S. Dept. of State »
- DIRECTOR OF COLLEGE FACILITIES »
- Facilities Director »
AC Motors One Way to Cut Elevators’ Energy Use
April 30, 2015 - Contact FacilitiesNet Editorial Staff »
Elevators' energy use can be reduced through a variety of means, including the use of more efficient AC motors, but this objective does not always get top priority. Most facility managers look first to the lighting, heating, and cooling systems when searching for opportunities to cut energy use in their buildings. That's an understandable approach, as these systems together account for more than half of the energy used by commercial buildings, according to the U.S. Department of Energy.
Elevators, in contrast, typically account for a much smaller fraction of commercial buildings' energy use. But it still adds up. DOE reports that commercial buildings consumed 17.9 quadrillion British thermal units (Btus) of primary energy in 2009. Saving just a small percentage of this number could conserve a tremendous amount of energy.
A variety of energy saving measures can cut elevators' energy consumption significantly — in some cases, by up to half, elevator consultants estimate. "The elevator industry has been working on energy efficiency long before there was a term 'green,' " says Martha Hulgan, owner of MMH & Associates.
One of the most significant advances in elevator technology has been the steady move over the past few decades from direct current to more efficient alternating current elevator motors. Before the 1990s, elevator systems relied on DC power because it was easier to control elevator acceleration, deceleration, and stopping with this form of power, says Jay Popp, executive vice president, international, with Lerch Bates. As a result, AC power typically was restricted to freight elevators, where comfort and speed weren’t as critical as they were with passenger elevators.
By the late 1990s, however, more elevators had moved to AC machines. Motor controller technology had advanced to the point where it could effectively regulate AC power to provide smooth acceleration, deceleration, and stopping, Popp says. It no longer was necessary to rectify AC power to DC power and then use a DC hoist machine. Virtually all elevators sold today use AC, gearless, permanent magnet, synchronous motor machines. "They're extremely efficient," Popp says. Some manufacturers offer AC, gearless induction machines, he adds.
Even though magnetic motors generally are more expensive, they tend to be smaller, more efficient and last longer, says Sheila Swett, executive director of the International Association of Elevator Consultants and owner of Swett & Associates. This brief came from Karen Kroll.