Where green initiatives are also considered, LED lighting and reflective tubular skylights can also play a role, Vandeschulp adds. He believes that suppliers have only scratched the surface in providing plant and production equipment that will offer green efficiencies.
“I think we will see a lot of really interesting technology coming out in the next few years,” he notes. “Just look at low-energy lighting, for instance. It has gone from being a neat idea to being a real money saver.”
And yet, green initiatives still sometime run afoul of flexibility, as frequent changeovers inevitably increase waste, says Burns & McDonnell’s Sokolowsky.
“People have been doing things for years to make their manufacturing lines more efficient,” he says. “From a flexibility standpoint, it really comes down to reducing your waste -- how do you make those frequent changeovers while minimizing the waste? It comes down to having a really strong continuous improvement process.” That requires diligence, but it should not be unattainable, Sokolowsky adds.
“If I set the efficiency of the previous run as a starting point, and I had been running at 98 percent when shut down, I should be able in theory to start up again at 98 percent,” he says. “But it all comes down to the efficiency of your changeover.”
Sokolosky has another take on flexibility, from the angle of sourcing raw materials – say, meat or potatoes.
“If you have a customer who wants French fries cut to 4 inches and another customer that wants them at 3 3/8, then you might have to source different-sized potatoes for each to avoid waste,” he says. It becomes even more important for companies producing organic potatoes, or sourcing grass-fed beef.
Stellar’s Gomolka says there are ways to make flexibility and efficiency work hand in hand, through proper coordination. He gives the example of a pizza manufacturer that maintains steady production of its basic product component — the crust — while utilizing quick changeovers to produce a mixture of topics and package configurations on the same shift.
“This adds a dimension of flexibility without giving up the efficiencies of the basic operation,” he says. This example came from a Stellar customer that increased productivity and reduced its workforce significantly after installing an additional spiral freezer and packaging equipment.
Facilities are also being designed so that services can easily be moved from above the ceiling and relocated to allow changes in configurations of production lines.
Still more ways to flex
Of course, varying the speed of the process is a key component of flexibility. Motors may be the biggest component of that change, as they control pieces of equipment that are common to many food manufacturing processes.
“Every system in the process – conveyors, pumps, mixers, blowers, packaging machines – that has a motor has the potential to change the process without pulling out and replacing equipment,” says Tim Albers, director of OEM marketing and product management for Nidec Motor Corp. (www.nidec-motor.com), St. Louis.
As products change, needs change. “Instead of half-gallon containers of milk, a dairy may need to fill gallon containers on the same line. The fillers are going to take twice as long to fill the bigger container, so the whole line has to be slowed,” he says. So it’s worthwhile to figure-in motor flexibility up front when systems are designed.
“Do you really think the motors on whatever piece of equipment will run at the same speed forever?” he asks. “Evaluate the long-term purpose and life expectancy of the systems and see if a variable speed motors will serve you well for future changes in production.”
Motors change line speed a number of ways. They’re usually connected to process systems by direct drive with a belt or by gearing. More and more processors are adopting variable speed concepts, particularly variable frequency drives. While variable speeds can be achieved with older mechanical systems, variable frequency drives provide truly electronic changes in speed by changing the frequency of the motor.
In your supply cabinet, flexibility can be synonymous with simplicity. Food-grade lubricants now have the flexibility to be used in many applications that they were unsuited for just a few years ago.
Switching to food-grade lubes for all your machines makes replacement simpler -- even unskilled employees cannot mistakenly use a conventional lube where a food-grade one is required. If a machine far away from processing blows a gasket and throws out a mist of oil, that could contaminate food if it's not food-grade oil; no problem if it is. And cutting down your stock numbers is always a good thing.
In the past, there were many applications where food-grade lubricants choices were limited. But they have proliferated and now offer more options, including synthetic products, says Ben Briseno, product manager of the Clarion brand for Citgo Petroleum (www.clarionlubricants.com), Houston. So there probably is one available for all but the most exotic pieces of machinery.
Flexibility requires changes. But in a regulated environment, change must be controlled and carefully documented. IQity Solutions (http://www.iqitysolutions.com), Wexford, Pa., provides web-based software solutions that can reduce manual inputs, eliminate paper records and allow for better predictability.
“All the redundant data can now go away,” says David Gustovich, president of IQity. This can leave room for a greater focus on efficiencies, even with flexible lines. He cites the example of a beef producer that had “168 inspectors manually routinely capturing 8 million-plus data points,” before adopting the company’s IQ-Fusion cloud-based system.
IQity says it has the ability to learn solutions and convert them into online tutorials that will help operators solve the same issue more quickly the next time it occurs. This reduced dependence on what Gustovich refers to as “tribal knowledge.” That is sometimes lost after a 20-year veteran employee moves on.
IQ-Fusion offers users a menu of modules and pods to deliver intuitive and interactive views. Grouped in functional modules, each pod delivers a production operations analysis that is correlated with real-time business outcomes and financial measures. The result is real-time operational information that manufacturers can use to take action on the spot to improve outcomes in production, cost, quality and service.