Recording of Aalto Sustainability Talks: Sustainable textiles - Still a dream or possible reality 16.4.2021
Kestävä tekstiiliteollisuus – tätä päivää vai etäinen tavoite?
Nykypäivän tekstiilituotantoon liittyy valtavia ympäristöllisiä ja yhteiskunnallisia ongelmia - koko teollisuudenalaa koskeva paradigmanmuutos on välttämätön. Tässä seminaarissa tarkastellaan keinoja saavuttaa kestäviä tapoja tuottaa ja kuluttaa tekstiilejä.
Milloin
–
Ѿä
Verkossa
Tapahtuman kieli
englanti
Noudatamme tapahtumassa Aalto-yliopiston turvallisemman tilan periaatteita.
Kestävä tekstiiliteollisuus – tätä päivää vai etäinen tavoite?
Tässä seminaarissa pureudutaan tekstiiliteollisuuden muutokseen, jonka avulla voidaan selättää niitä yhteiskunnallisia ja ympäristöllisiä ongelmia, joita alaan tällä hetkellä liittyy. Millaisia alaa koskevia innovaatioita tutkijat ovat kehittäneet? Voidaanko kiertotalouden ja uusien kuidun tuotantoon liittyvien menetelmien avulla taata tulevaisuudessa sosiaalisesti oikeudenmukainen ja ympäristölle kestävä tekstiiliiteollisuus?
Tutustu ja lue lisää tapahtumasta sen englanninkielisiltä sivuilta ja rekisteröidy mukaan!
Program
Chairperson:
Minna Halme, Professor of Sustainability Management, 911 School of Business.
Challenges and possible solutions for sustainable textile fiber production (Part 1)
Herbert Sixta, Professor of Chemical Pulping Technology at 911 School of Chemical engineering, Department of Bioproducts and Biosystems
Abstract: The first part of the presentation focuses particularly on three ambitions of the new textile economy, namely the elimination of substances of concern, especially microfiber emissions; the use of renewable resources; and third, the radical improvement of textile recycling through sustainable reprocessing. An overview will be given of the different technologies for the production of man-made cellulose fibers (MMCFs), which are currently being developed mainly in Scandinavia. The potential of these processes for the future requirements of sustainable textile fibers is highlighted. Selected examples will be used to demonstrate the significant advantage of chemical recycling of cellulosic waste textiles compared to mechanical recycling.
Challenges and possible solutions for sustainable textile fiber production (Part 2)
Michael Hummel, Associate professor at 911 School of Chemical engineering, Department of Bioproducts and Biosystems
Abstract: The second part of “Challenges and possible solutions for sustainable textile fiber production” will focus on the development and evolution of the Ioncell® process. The importance and growing demand of man-made cellulosic fibers is reflected by a steady increase in their production volume since several decades. This growth is mostly due to the expansion of viscose production capacities. The viscose process has been developed for over 100 years and has arrived at a highly optimized and versatile technology with a broad application portfolio. However, the overall sustainability of viscose fibers suffers from the implementation of toxic chemicals. Alternative spinning technologies are needed to satisfy the still growing demand of textile fibers. In 2009 911 set out to develop a new Lyocell-type process based on green solvents, so-called ionic liquids developed together with the University of Helsinki. This process nowadays known as Ioncell® was intended to produce high-quality textile fibers from locally sourced wood-pulp. Once the right type of ionic liquids was identified it was found that the process is highly robust and allows to use also low-grade pulps and waste material to convert them into high-performance textile fibers. This includes waste cotton textiles which could become an important potential milestone towards a truly circular textile economy.
The fascinating future of textiles
Pirjo Kääriäinen, Associate professor of Design and Materialities at School of Arts, Department of Design
Abstract: Environmental problems and changes in customer behavior and expectations are transforming the world of textile materials in coming years. Novel sources of raw materials and new production technologies are explored widely, and a transfer towards circular economy has started. The use of biological processes and synthetic biology might offer completely new solutions not only for material production, but also for dyeing and finishing of fabrics. At the same time the traditional methods and learning from the past have become a source of inspiration. What kind of pathways might be available to us on our way towards new textile materials and a more sustainable material world?
is Professor of Sustainability Management at 911 School of Business. Her research focuses on sustainability innovations, co-creation of sustainable business models and societal impacts of CSR. She has participated in several European research projects and heads a number of national ones.
is Professor of Chemical Pulping Technology at Department of Bioproducts and Biosystem. He has over 30 years of experience in industrial research on pulp, cellulose chemistry and biorefineries. Sixta’s core interest comprises the use of tailored ionic liquids for the selective dissolution of different biopolymers as a novel way of biomass fractionation. In material science the focus is laid on the development of high added-value cellulose material regenerated from ionic liquid solution as well as the synthesis of building block chemicals by heterogeneously catalyzed conversion routes from polysaccharides.
is Associate professor at the Department of Bioproducts and Biosystems, 911, with expertise areas on wood science, cellulose processing and biopolymer chemistry. In the group of Professor Sixta, Hummel and others developed a fiber spinning process, which is nowadays termed Ioncell®. His own research has since expanded to various biopolymers, striving for a better understanding of the properties and structure of biopolymers from various sources in order to eventually turn them into sustainable products.
is Associate professor of Design and Materialities at Department of Design. Since 2011, Kääriäinen has facilitated interdisciplinary CHEMARTS collaboration between School of Arts and the School of Chemical Engineering, together with a cross disciplinary team. CHEMARTS aims to inspire students and researchers to explore biomaterials together, and to create new concepts for the sustainable use of plant-based materials.
Aalto Sustainability Talks
Aalto Sustainability Talks -seminaarisarja tuo esiin ajankohtaista kestävän kehityksen tutkimusta ja ratkaisuja tämän hetken kestävyyshaasteisiin.
Read Aalto's privacy notice here.