During the recent State of the Union Address, President Obama issued a new goal for America: "Let's cut in half the energy wasted by our homes and businesses over the next 20 years."
Looking at the options for saving electrical energy in US factories, industry experts say it's important not only to look at a number of different technologies but also to adopt a new mindset. Premium efficiency electric motors, adjustable speed drives, and both permanent magnet and synchronous reluctance motors are all areas where energy-efficient motor technology is moving ahead. But the real focus should be to emphasize not only best-practices but also a "system versus component view" in targeting how to reduce energy consumption.
"When we look at the whole problem, we really want to look at the system," John Malinowski, product marketing manager for ABB Baldor, told Design News. "We should be beyond component replacement at this point because it doesn't do any good to put a 96 percent efficient motor on a 50 percent efficient pump, compressor, fan, or whatever."
Malinowski said the key is to look all aspects of industrial systems, and even factors as simple as mechanical power transmission. An older double reduction worm gearbox, for example, might be 50 percent to 60 percent efficient. If the gearbox with a 10 HP motor is providing a certain amount of torque to run a conveyor, switching to a helical or helical bevel gearbox that is 95 percent efficient means the 10 HP motor can be replaced with a 5 HP model and eliminate large inefficiencies due to mechanical losses.
Looking at the system is critical, even though we can look at all of the pump, fan, and variable torque applications that follow the Affinity Law where horsepower changes by the cube of the speed. That low-hanging fruit has been a primary target for a long time, but Malinowski said we still have companies that don't understand those opportunities.
But even on a constant torque load conveyor if we use system efficiency at the guide, using an adjustable speed drive and the flow of product to work in harmony with other production processes can produce results. Engineers may not be able to track these results on the utility meter, but benchmarking kilowatt-hours per widget produced shows the savings. Servos use more energy than a regular motor because of the inrush current to move quickly, but products are moving between workstations more quickly, and more work is produced per hour.
"We need to develop a different mindset," Malinowski told us. "That is the trend we see, so that when we look at systems we see anything inside the electrical meter. We have the power distribution transformer, the smart soft starter or drive, motors, and mechanical transmission. Using best-practices, we can raise efficiency and reduce power."
Part of the problem given our current economy is the reluctance of companies to make "first cost" investments that take time to pay off versus life costs. Motor suppliers point to lifecycle costs of a motor of which only 2 percent is the initial