Textile Recycling Technologies, Colouring and Finishing Methods
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3.3.2.2 Chemical Recycling
The chemical recycling process of cotton is based on the dissolution of cellulose. Two main routes which have been explored include: the depolymerization of glucose monomers for use in other applications, or a polymer dissolution route where the separation and regeneration of cellulosic fibres occurs by use of solvents. 88 The latter process may recover a chemically modified or pure cellulosic fibre products, which can also be incorporated as feedstock for regenerated/recycled man-made cellulosic fibres (MMCs). 87,89 Chemical processes for recycling and regenerating MMCs would also reduce the burden of toxic chemicals, namely carbon disulfide used in conventional viscose production, and enable the production of fibres with equivalent virgin quality. 90 The Lyocell (NMMO) and Ionic Liquid processes are two main chemical recycling methods which have been explored and developed. Figure 17 summarizes the different chemical- based processes for cotton fibre recycling. Figure 17: Overview of cotton chemical recovery processes. Reproduced and modified from [8]. Textile Recycling Technologies, Colouring and Finishing Methods | Le 26 The Lyocell method (Figure 18) can be applied to 100% cotton fabrics for regeneration of cellulosic fibres (MMCs) using N- methylmorpholine N-oxide (NNMO) to dissolve cotton fibres (dissolving pulp). The regenerated fibres are produced by processing the dissolved pulp (cotton waste) and blending with other plant-derived pulp products (wood, flax, hemp, etc.). Figure 18: Overview of Lyocell process. 91,92 Reproduced and modified from [88]. Textile Recycling Technologies, Colouring and Finishing Methods | Le 27 The ionic liquid process (Figure 19) can be applied to blended cotton fabrics. Researchers from Aalto University and the University of Helsinki who developed the Ioncell-F process, applied the ionic liquid solvent, [DBNH]OAc (1,5,diazabicyclo[4.3.0]non‐5‐enium acetate) to chemically recycle cotton waste and produce MMCs, with the fibres exceeding tensile strength of native cotton and commercial MMC fibres. 93 Researchers from Deakin University demonstrated the use of ionic liquid, 1 allyl-3-methylimidazolium chloride (AMIMCI), to separate cotton from polyester blend (50:50 polycotton blend). While still in developmental phase, it has potential to produce 100% recycled cotton product, but may also be blended with other pulp product to produce regenerated cellulosic materials. 94 Figure 19: Overview of ionic liquid process. Reproduced and modified from [88]. Textile Recycling Technologies, Colouring and Finishing Methods | Le 28 Yüklə 3,7 Mb. Dostları ilə paylaş:
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