Carbon capture yarn, which is the first step towards zero carbon emissions, uses advanced technology to capture carbon dioxide emissions from steel mills, petrochemical plants, etc., converts and recycles it into ethanol through fermentation, and then processes the raw materials with spinning equipment fiber, and then use carbon capture yarn to develop fabric products. Captured carbon dioxide can be stored or reused to achieve net-zero emissions targets.
For example, carbon-reducing materials made from recycled plastic bottles, fishing nets, or through new sustainable technologies, recycled yarns made from old tires, tire fabrics, residual materials, waste yarns, scraps, inventory fabrics, etc., Even garments are recycled into fibers.
Replacing traditional plastics with renewable biomass-based materials will help address global warming, provide a lower carbon footprint, and be more efficient than traditional fossil fuel-based synthetic polyester, recyclable single-component and biodegradable, also a carbon neutral solution.
The dyeing and finishing process is the most polluted link. If the dyeing step is omitted from the fiber production process, carbon dioxide, wastewater discharge, water use, chemical consumption and energy savings can be greatly reduced. Such as: solution dyeing, supercritical fluid dyeing, can omit most of the dyeing and finishing processes. CD low temperature dyeable fibers also use lower energy than general polyester fibers.