The dissolving of textile waste offers the opportunity to return large volumes
of waste to textile production. Novel and efficient methods will be able to
recover cellulose molecules, providing one way of resolving the limitations
soon to be placed on the use of landfill sites. Such methods will also serve
to promote the efficient use of materials. VTT Technical Research Centre of
Finland is currently developing methods for handling large quantities of
textile waste material.
Finland, as with other countries in the EU, must make decisions on the future
treatment of textile waste. The EU Directive set in 1999 contains quantitative
restrictions for phasing in with regard to biodegradable waste deposited at
landfill sites. The practice of taking textile waste to landfill sites will be
brought to an end by regulations entering into force in Finland on 1 January
Large-scale solutions to the problem are already being developed in Finland:
fabric as good as or better than the original can be obtained by using
solvents to break down worn out and even heavily soiled textiles.
“Although reuse of textiles and mechanised recycling methods ease the burden
on the environment, the textile mass also includes material in poor condition
or heavily soiled, limiting the opportunities for recycling. The new methods
multiply the utilisation possibilities,” says Research Professor Ali Harlin of
VTT Technical Research Centre of Finland.
“Textile recycling saves virgin raw materials for products with higher
production value. The prerequisite for functional recycling is a system that
recovers textiles efficiently with regard to environmental considerations. It
is important to incorporate recycling early, at least at the planning stage.
The best result will be achieved when the textile and clothing industry,
consumers and other stakeholders work together to build a voluntary and
practical recycling system. We have gathered the key actors around the same
table with the intent of developing the solution to Finland's textile
recycling,” says Anna-Kaisa Auvinen, Managing Director of Finatex – the
Federation of Finnish Textile and Clothing Industries.
VTT is developing methods for restoring worn-out fibre to good-as-new
condition. Research scientists are currently working on methods for separating
the cellulose molecules contained in textile waste, such as cotton, using
efficient and environmentally friendly solvents.
Even the molecules of old and worn fibre qualify for reuse. The fibrous
components of worn fabric can be separated and returned to textile production
as raw material. The end result can be a product of equivalent quality to the
original, or even better.
VTT, Aalto University and Tampere University of Technology are together
developing novel recycled textile fibres in the Design World of Cellulose
project, a major technological opening of Tekes - the Finnish Funding Agency
for Technology and Innovation.
Several methods exist for dissolving cellulose, and these have seen notable
development over the past decade. One example of such a method is Aalto
University's Ioncell-F, which uses ionised solvents developed together with
the University of Helsinki. VTT's role in the project covers cleaning the
textile mass and preparing the cellulose in a suitable form for solvent
application, while Aalto University develops the spinning processes.
VTT is developing methods for the recycling, decolouring, bleaching and
dissolving of textiles. Textiles are fed into the process both intact and as
loose scraps. Colour is then removed and the solubility of the cellulose
increased. After the application of solvents and removal in solution, the
recovered cellulose is then spun into fibre. The remaining fibrous material is
normally polyester, which can be melted down and used in the preparation of
fibres and composites.
“The manufacture of hygiene products and technical textiles will be possible
in the very near future because the solvent, after decolouring, is also
applicable in the recycling of pulp, for example from waste packaging. The
manufacture of clothing textiles will take a little longer, but in any case
this will not represent a major change for the textile industry,” says
Research Professor Ali Harlin from VTT.
VTT is developing treatment methods for waste textiles in cooperation with
Aalto University, SP Technical Research Institute of Sweden, Tampere
University of Technology and others.
Textile production has often made use of rags, especially in times of
shortage. These are recycled, torn and carded for reuse. Earlier methods,
however, have been unable to cope with fragile and often heavily soiled
fabric, leading to significant wastage in material.
Growing amount of waste with most ending up in landfills
Finland consumes around 70,000 tonnes of clothing and household textiles each
year. Estimates suggest about 30% of consumption is reused, with about 14%
sent for recycling. (Dahlbo et al. in journal Ympäristö ja Terveys 7:2013,
The amount of textile and clothing waste in the Helsinki metropolitan area
grew by 14% between 2007 and 2012 (8.9 > 10.2 kg/inhabitant/year). (Helsinki
Region Environmental Services Authority HSY waste sorting study, 2012).