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Disposable Nonwoven products : Environmental considerations including flushability concerns

Generally, nonwovens for medical and hygiene products are mainly produced to be disposable. However, in the last few years, environmental responsibility, sustainability and reduced raw material consumption have become key concepts in cutting-edge nonwovens production. And one issue might be the major challenge of tomorrow: flushability. The synthetic and artificial fibers industry will have to follow an overall new approach to address the key issues and concerns pertaining to sustainability, environmental consciousness and climate change.Whatever technology is applied to form a web, new requirements are in focus including reduced water, energy and raw material consumption. Recycling of fibers and textile waste will play a more important role, too (Figure 1). With the apparent climate change, whether generated by mankind or not, water consumption will be one of the big issues in the future, if not the most important one. Water might become one of the most desired and expensive raw materials.

Traditional disposables, like hygiene and medical products, are in real trouble because of tighter environmental laws. There soon will be no more landfills to handle used disposables. The industry is challenged: Every production stage, from fiber to finishing, must reinvest heavily in new production technologies. The big disposable products labels are looking more and more for biodegradable products. “Responsibility has to become the key issue of economic, social and environmental activities,” feels everyone.

Basically, there is no true secret in nonwovens production today. Whether products may be dry- or wetlaid, spunbonded, spunlaced or needlepunched, future sustainable achievements can only be concluded if environmental issues are taken into consideration. Technologies that use no water for the web-bonding process have some advantages – but only at first sight. By applying the right forming and bonding techniques, water consumption is drastically reduced. Also, modern wetlaid or spunlaced production lines are recycling almost all of the water consumed in a closed loop. Furthermore, thanks to ongoing machine improvements, weights are possible down to 10 grams per square meter, which means reduced fiber consumption. However, needlepunching technology, with its latest machinery developments, still has a slight advantage over other bonding technologies, thanks to its versatility.

Biodegradable Fibers : The fiber-producing industry is heavily active in research for new fiber types that are derived from renewable sources. New and advanced fiber types like polylactic acid (PLA), derived from corn or other vegetable starches, and viscose, derived from wood, take the environmental aspects very much into consideration and enable promising new products for changing customer attitudes. Yarn producers are in the forefront to bring new bio-based products to market. If these products are competitive, the nonwovens industry will follow suit.

Fig. 1 : Recycled fiber, shown here being processed on a Larche machine

Biopolymers are interesting because of increasing oil prices and limited availability of fossil raw materials. The materials are even compostable under specific conditions. However, PLA production uses less fossil fuel but more land and water than petrochemical-based polymers. Agriculture is needed in the first place for food, but PLA production is said to require less than 0.04 percent of global corn supplies. Lenzing AG, Austria, produces the three main generic man-made cellulosic fiber types: viscose, modal and lyocell. Its Tencel® lyocell fibers are made from wood grown in managed forests. Cellulose from wood pulp is dissolved in an organic solvent, and the resultant viscous solution is extruded into an aqueous spin bath. During the process, the cellulose is not changed chemically. The spinning process is a closed-loop solvent spinning system in which the solvent is recovered for reuse. As a result, there is virtually no release into the environment from the process. The result is a pure cellulose fiber with good moisture handling, thermal properties, microbiological effects and biocompatibility. It is biodegradable for safe disposability.

Medical And Hygiene Applications : According to Lenzing, Tencel is better placed than competing fibers for medical applications due to its combination of properties. The hydrophilic fiber has a smooth surface with a rounded cross-section, giving fabrics that are smooth, have low friction and feel good. It is highly absorbent and provides excellent moisture management. Tencel C is also being assessed for applications including apparel, hygiene and active sportswear. It is produced by treating Tencel with chitosan during manufacturing. Chitosan is deacetylated chitin – the main structural polymer in the shells of many shellfish and other invertebrates. Chitosan has been shown to influence wound healing and in the right presentation performs well as a hemostat. It is also in use for antibacterial products. Clinical tests have shown the new fiber gives a positive effect on wound healing, morphology and cell proliferation at the wound margin. One of the main observations with regard to chronic wounds is that they show a significantly reduced rate of cell proliferation. Lenzing claims Tencel C has better performances compared to other dressing materials tested.

Flushability : “Carbon footprint” and “life cycle analysis” are key terms for new cutting-edge products. What can happen if a product is not designed from cradle to cradle, and if these points are not taken into consideration, is drastically demonstrated with modern wipes. Wipes are among the most successful nonwoven products. With the improvement of spunlaced machinery, wipes started their road to success virtually around the world. In stores everywhere, there are endless shelves full of wet wipes, refreshing towels and other similar products. Problems occurred right after their success and present the industry with a big challenge – flushability. Refreshing towels or wet wipes often are flushed down the toilet. After flushing, they do not entirely disintegrate and can clog the whole wastewater system down to the wastewater plant. The result is obvious. Thanks to the requisite product performance, the wipes don’t dissolve; the system collapses, and it takes a lot of money and efforts to clean it up. The latest development of a modern wipe is a vacuum-sealed product in tablet shape the size of a US quarter. When water is added, the product starts growing. The final product is a 25-square-centimeter spunlaced wipe, which certainly will be flushed down the toilet, and the problems start again. Elements Naturals™ 100% Natural and Renewable baby wipes are made with Ingeo™ bio-based polylactic acid fibers, which are produced using 68-percent fewer fossil fuel resources than petroleum-based fibers and also contain no chemical additives or surface treatments. Modern wipes must have not only functional requirements, but also great flushability to disintegrate as quickly as possible.

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