Sustaining Natural Dye Plants with Post-Consumer Textile Waste

IF 0.6 4区工程技术 Q4 MATERIALS SCIENCE, TEXTILES

AATCC Journal of Research Pub Date : 2024-02-18 DOI:10.1177/24723444241230120

Helen X. Trejo, Nidia K Trejo, Tasha L. Lewis

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引用次数: 0

Abstract

Aligned with the circular economy framework, this study aims to address pertinent research gaps regarding material and chemical properties of clothing and suitability for closed-loop applications. Primary research questions include: (1) what are the material and chemical properties of post-consumer textile waste from a sustainable fashion take-back program; (2) which natural post-consumer textile waste is most suitable to support the growth of natural dye plants in a hydroponics system; and (3) can the use of post-consumer textile waste in a hydroponics system be scaled to support a circular fashion supply chain? This study focuses on wool, cotton, linen, silk, rayon, and Tencel® lyocell as substrates to nurture the growth of purple basil, a natural dye plant. Vertical hydroponics is a farming method that uses nutrient water to grow plants in place of soil throughout the year. The system can be indoors, making resourceful use of limited space available and the water is recirculated. Standard hydroponic substrates, like peat moss and rockwool, have good porosity for oxygen transport and suitable moisture holding capacity for nutrient delivery. In this study, we compared the performance of the standard hydroponic substrates with various textiles. The impact on water quality, color release, moisture wicking, stability against degradation, and survival rate of the plants was used to evaluate suitability in the application. Wool, silk, and Tencel lyocell demonstrated good durability in the hydroponic system, like peat moss and rockwool, during the first growth cycle. During the second growth cycle, protein fibers—wool and silk—supported plant survival at a greater capacity than Tencel lyocell. Future research can confirm that wool and silk can support the growth of natural dye plants with a larger sample size. This research aligns with several circular economy objectives and provides a model for future research to support circular fashion supply chains.

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利用消费后纺织废料维持天然染料厂的发展

根据循环经济框架，本研究旨在解决服装材料和化学特性以及闭环应用适用性方面的相关研究缺口。主要研究问题包括(1) 来自可持续时装回收计划的消费后纺织品废弃物的材料和化学特性是什么；(2) 哪些天然消费后纺织品废弃物最适合在水培系统中支持天然染料植物的生长；以及 (3) 在水培系统中使用消费后纺织品废弃物能否扩大规模，以支持循环时装供应链？本研究以羊毛、棉花、亚麻、丝绸、人造丝和 Tencel® lyocell 为基质，培育天然染色植物紫苏的生长。垂直水培法是一种全年使用营养水代替土壤种植植物的耕作方法。该系统可以在室内进行，充分利用有限的空间，而且水是循环流动的。标准的水培基质（如泥炭藓和岩棉）具有良好的孔隙度，有利于氧气的输送，并具有适当的保湿能力，有利于养分的输送。在这项研究中，我们比较了标准水培基质和各种纺织品的性能。通过对水质、颜色释放、吸湿性、降解稳定性和植物存活率的影响来评估其在应用中的适用性。在第一个生长周期，羊毛、丝绸和天丝纤维在水培系统中表现出良好的耐久性，就像泥炭藓和岩棉一样。在第二个生长周期中，蛋白质纤维-羊毛和蚕丝-支持植物存活的能力高于天丝纤维。未来的研究可以用更大的样本量来证实羊毛和蚕丝可以支持天然染料植物的生长。这项研究符合多个循环经济目标，为未来支持循环时尚供应链的研究提供了一个模型。

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来源期刊

AATCC Journal of Research MATERIALS SCIENCE, TEXTILES-

CiteScore

1.30

自引率

0.00%

发文量

期刊介绍： AATCC Journal of Research. This textile research journal has a broad scope: from advanced materials, fibers, and textile and polymer chemistry, to color science, apparel design, and sustainability. Now indexed by Science Citation Index Extended (SCIE) and discoverable in the Clarivate Analytics Web of Science Core Collection! The Journal’s impact factor is available in Journal Citation Reports.