UKRI Interdisciplinary Circular Economy Centre for Textiles: Circular Bioeconomy for Textile Materials

UKRI 纺织品跨学科循环经济中心：纺织材料循环生物经济

• 批准号: EP/V011766/1
• 负责人: Sharon Baurley
• 金额: $ 565.35万
• 依托单位: Royal College of Art
• 依托单位国家: 英国
• 项目类别: Research Grant
• 财政年份: 2021
• 资助国家: 英国
• 起止时间: 2021 至 无数据
• 项目状态: 未结题
• 来源: https://gtr.ukri.org/projects?ref=EP%2FV011766%2F1
• 关键词: UKRI; Interdisciplinary; Circular; Economy; Centre

The current global fashion supply chain is characterised by its lack of transparency, forced labour, poor working conditions, unequal power relationships and overproduction caused by fast fashion. Lacking ethics, the global fashion supply chain is also highly polluting. The total footprint of clothing in use in the UK, including global and territorial emissions, was 26.2 million tonnes CO2 in 2016, up from 24 million tonnes in 2012 (equivalent to over a third of household transport emissions).The Textiles Circularity Centre (TCC) proposes materials security for the UK by circularising resource flows of textiles. This will stimulate innovation and economic growth in the UK textile manufacturing, SME apparel and creative technology sectors, whilst reducing reliance on imported and environmentally and ethically impactful materials, and diversifying supply chains. The TCC will provide underpinning research understanding to enable the transition to a more circular economy that supports the brand 'designed and made in the UK'. To enact this vision, we will catalyse growth in the fashion and textiles sector by supporting the SME fashion-apparel community with innovations in materials and product manufacturing, access to circular materials through supply chain design, and consumer experiences.Central to our approach is to enable consumers to be agents of change by engaging them in new cultures of consumption. We will effect a symbiosis between novel materials manufacturing and agentive consumer experiences through a supply chain design comprised of innovative business models and digital tools.Using lab-proven biotechnology, we will transform bio-based waste-derived feedstock (post-consumer textiles, crop residues, municipal solid waste) into renewable polymers, fibres and flexible textile materials, as part of a CE transition strategy to replace imported cotton, wood pulp and synthetic polyester fibres and petrochemical finishes. We will innovate advanced manufacturing techniques that link biorefining of organic waste, 3D weaving, robotics and additive manufacturing to circular design and produce flexible continuous textiles and three-dimensional textile forms for apparel products. These techniques will enable manufacturing hubs to be located on the high street or in local communities, and will support SME apparel brands and retailers to offer on-site/on-demand manufacture of products for local customisation. These hubs would generate regional cultural and social benefits through business and related skills development.We will design a transparent supply chain for these textiles through industrial symbiosis between waste management, farming, bio-refinery, textile production, SME apparel brands, and consumer stakeholders. Apparel brands will access this supply chain through our digital 'Biomaterials Platform', through which they can access the materials and data on their provenance, properties, circularity, and life cycle extension strategies.Working with SME apparel brands, we will develop an in-store Configurator and novel affective and creative technologies to engage consumers in digitally immersive experiences and services that amplify couplings between the resource flow, human well being and satisfaction, thus creating a new culture of consumption. This dematerialisation approach will necessitate innovation in business models that add value to the apparel, in order to counter overproduction and detachment. Consumers will become key nodes in the circular value chain, enabling responsible and personalised engagement. As a human-centred design led centre, TCC is uniquely placed to generate these innovations that will catalyse significant business and skills growth in UK textile manufacturing, SME fashion-apparel, and creative technology sectors, and drastically reduce waste and carbon emissions, and environmental and ethical impacts for the textiles sector.

当前全球时尚供应链的特点是缺乏透明度、强迫劳动、恶劣的工作条件、不平等的权力关系以及快时尚造成的生产过剩。缺乏道德，全球时尚供应链也是高污染的。2016年，包括全球和地区排放量在内，英国使用的服装的总足迹为2620万吨二氧化碳，高于2012年的2400万吨（相当于家庭交通排放量的三分之一以上）。纺织品循环中心（TCC）建议通过循环纺织品资源流来实现英国的材料安全。这将刺激英国纺织制造业、中小企业服装和创意技术领域的创新和经济增长，同时减少对进口和对环境和道德有影响的材料的依赖，并使供应链多样化。TCC将提供基础研究理解，以实现向更循环经济的过渡，支持“英国设计和制造”的品牌。为了实现这一愿景，我们将通过材料和产品制造创新、通过供应链设计获得循环材料以及消费者体验来支持中小企业时尚服装社区，从而促进时尚和纺织行业的增长。我们方法的核心是通过让消费者参与新的消费文化，使他们成为变革的推动者。我们将通过由创新的商业模式和数字化工具组成的供应链设计，实现新材料制造和代理消费者体验之间的共生关系。我们将利用实验室验证的生物技术，将生物基废物衍生原料转化为（消费后纺织品、农作物残留物、城市固体废物）转化为可再生聚合物、纤维和柔性纺织材料，作为替代进口棉花的CE过渡战略的一部分，木浆和合成聚酯纤维以及石油化学整理剂。我们将创新先进的制造技术，将有机废物的生物精炼、3D编织、机器人和增材制造与循环设计相结合，并为服装产品生产灵活的连续纺织品和三维纺织品形式。这些技术将使制造中心能够设在商业街或当地社区，并将支持中小企业服装品牌和零售商提供现场/按需制造产品，以供当地定制。我们将通过废物管理、农业、生物精炼、纺织品生产、中小企业服装品牌和消费者利益相关者之间的工业共生关系，为这些纺织品设计一个透明的供应链。服装品牌将通过我们的数字化“生物材料平台”进入这条供应链，通过该平台，他们可以访问有关其来源，属性，循环和生命周期延长策略的材料和数据。我们将与中小企业服装品牌合作，开发店内演示器和新颖的情感和创意技术，让消费者参与数字化沉浸式体验和服务，增强资源流，人的幸福和满足，从而创造一种新的消费文化。这种非物质化的方法将需要创新的商业模式，增加价值的服装，以应对生产过剩和分离。消费者将成为循环价值链中的关键节点，实现负责任和个性化的参与。作为一个以人为本的设计中心，TCC在产生这些创新方面具有独特的优势，这些创新将促进英国纺织制造业，中小企业时尚服装和创意技术领域的业务和技能增长，并大幅减少废物和碳排放，以及对纺织行业的环境和道德影响。

项目成果

Electrospinning of cellulose/ PVC smart wearable textiles.

纤维素/PVC智能可穿戴纺织品的静电纺丝。

• 发表时间: 2023
• 作者: Omar A

Photoactive Polyethylene terephthalate glycol (PETG)

光活性聚对苯二甲酸乙二醇酯 (PETG)

• 发表时间: 2022
• 作者: Hassan M

FabricTouch: A Multimodal Fabric Assessment Touch Gesture Dataset to Slow Down Fast Fashion

• DOI: 10.1109/acii59096.2023.10388086
• 发表时间: 2023-09
• 期刊: 2023 11th International Conference on Affective Computing and Intelligent Interaction (ACII)
• 作者: Temitayo A. Olugbade;Lili Lin;A. Sansoni;Nihara Warawita;Yuanze Gan;Xijia Wei;B. Petreca;Giuseppe Boccignone;Douglas Atkinson;Youngjun Cho;S. Baurley;N. Bianchi-Berthouze

4D printing of Alginate for Textile applications

用于纺织应用的海藻酸盐 4D 打印

• 发表时间: 2022
• 作者: Omar A

Body x Materials

机身x材质

• DOI: 10.1145/3544549.3573807
• 发表时间: 2023
• 作者: Petreca B