The key to more sustainable primary and secondary packaging involves two major approaches: recycle and reduce. The first requires that packaging materials are kept in constant circulation, being continuously reused. The second entails finding many different ways of using less and less packaging material in order to save on resources and avoid waste.
“The greatest challenge for us is the processability of the packaging materials,” said Karl-Heinz Klumpe, packaging product manager for KHS in Kleve, Germany. “Shrink film made of recycled plastic demonstrates very different shrinking properties versus film made of new material. As an engineering company, we can’t provide all the answers ourselves but instead have to coordinate closely with the film manufacturers.”
To this end, KHS is staging a number of workshops this year. These aim to find out how the percentage of recyclate in film — as stipulated by the new German Packaging Law, for example — can be increased.
“You make a few changes to the chemicals or recipe of your film and we adjust the air flow or temperature accordingly,” said Klumpe. “Providing that there’s a standard of quality which is accepted by the big bottlers’ marketing departments, of course. With film made of 100% recyclate, the shrink results aren’t yet satisfactory. Together we still have to work out how to close the gap here between recycling requirements on the one hand and the demand for packs of ever-increasing quality on the other.”
Another avenue that film manufacturers are exploring is to reduce the thickness of their film.
“The material’s getting thinner and thinner,” said Klumpe. “To provide the same stability the materials have to be more and more complex. This has its limitations when used for beverage packaging: below a thickness of 35 microns it’s possible that the price per kilogram for film then again rises. When it comes down to it, neither bottlers nor their customers want to pay for this.”
What applies to plastics also applies to cardboard — chiefly when it comes to reducing the amount of material used. Paper factories are experimenting with thinner cover layers and lower ridges in the manufacture of corrugated cardboard.
“The stability and durability are okay,” said Klumpe. “However, we have to answer the question of how suitable these materials are for use with machinery. What happens when the cardboard absorbs moisture? If the cardboard is thicker on the outside than the inside, it bends rather like a bimetal and can only be processed on machines with certain restrictions or not at all. What can we do to counteract this?”
In terms of recycling, less attention is paid to cardboard than to plastic. Yet here, too, the reuse of this material is an issue, for example in how far print can affect the recyclability of the paper.
KHS is experimenting with new packaging materials. For instance, a manufacturer from Sweden recently approached the company with a newly developed, award-winning cardboard looking for partners for a market launch.
“Our top requirement is that we can be sure that we can process the cardboard without any problems,” Klumpe said.
The packaging experts in Kleve are also in constant dialog with the manufacturers of adhesives and adhesive application systems.
“Here, we explore how we can avoid having to heat the glue so intensely or how we can reduce our consumption of adhesive,” said Klumpe. “We’re now applying smaller and smaller dots of adhesive as opposed to the diamond shapes we used to use.”
All told, sustainable product innovation is a constant process with both proven and new partners. The focus is always on the question of which approach can be adopted to save on materials, time and energy on the machines.
One example of how energy can be saved is the shrink tunnel with porous gas burners. To heat the air, KHS decided not to use electricity as the energy transfer medium but to work directly with gas to prevent energy being lost during transport from the producer to the consumer. This saves up to 50% in energy costs and CO2 emissions are cut by as much as 60%.
In the last few years, the company has also set standards in many other areas with its resource-saving packaging machines. Both fully-enclosed FilmPacks and nested and shifted packs have done away with the need for stabilizing cardboard pads or trays. “
We don’t need any more cardboard at all here,” said Klumpe. “The taut film gives us a good shrink pattern and a sturdy pack.”
In a countermove, the DisplayPacker has also been developed where large packs are placed directly onto cardboard trays without the need for an extra wrapping of stabilizing film.
In 2018, the Nature MultiPack was launched to market as a six pack of cans by the Carlsberg Group under the name of Snap Pack. A few dots of adhesive developed specifically for this pack hold the cans together, and a stabilizing carrying handle make any further packaging material redundant. Once the new pack format has been fully rolled out, by completely eliminating the use of shrink film for cans, Carlsberg is set to make a plastics saving of up to 76% — more than 1,200 metric tons a year. Danone Waters first made successful use of the Nature MultiPack to launch its prestige PET bottle for Evian in 2016.
“In the development of sustainable packaging we see ourselves acting as an interface between all those involved and the beverage industry,” Klumpe said. “We’re helping to develop new standards which marry ecological demands and legal provisions with bottlers’ economic interests.”
Filed Under: Green engineering