Biophilica Pilot

This pilot aimed to test, refine, and scale Treekind®, an alternative to animal and synthetic leathers made from green waste. The project focused on assessing the material’s performance, scalability, and manufacturing capabilities, aiming to produce 500 sqm of Treekind® for product applications.

Problem Statement

The apparel industry faces immense pressure to meet the 1.5°C target set by the Paris Agreement, with fashion accounting for 2-8% of global greenhouse gas emissions. Scope 3 emissions, especially from processing (Tier 2), represent a critical challenge. Shifting to dry processing technologies has the potential to reduce water and energy use, contributing to lower emissions and a smaller environmental footprint.

Stakeholders involved

The D(R)YE Factory of the Future project brought together key industry leaders and innovators committed to revolutionizing textile processing. The project’s brand stakeholders included:

Ecovative Collaborative Pilot

The aim of the pilot was to develop and test the next generation of mycelium-based alternatives to leather and foam materials. This project, spanning from December 2021 to March 2024, involved collaboration with major fashion brands to create sustainable materials suitable for consumer goods.

Problem Statement

The apparel industry faces immense pressure to meet the 1.5°C target set by the Paris Agreement, with fashion accounting for 2-8% of global greenhouse gas emissions. Scope 3 emissions, especially from processing (Tier 2), represent a critical challenge. Shifting to dry processing technologies has the potential to reduce water and energy use, contributing to lower emissions and a smaller environmental footprint.

Stakeholders involved

The D(R)YE Factory of the Future project brought together key industry leaders and innovators committed to revolutionizing textile processing. The project’s brand stakeholders included:

The Circular Polybag Pilot

The aim of the pilot was to tackle the environmental issues caused by virgin polybags in the fashion industry. This industry-first pilot aimed to create a closed-loop recycling solution for polybags, using post-consumer polybag waste and achieving a high level of recycled content suitable for industry needs.

Problem Statement

The apparel industry faces immense pressure to meet the 1.5°C target set by the Paris Agreement, with fashion accounting for 2-8% of global greenhouse gas emissions. Scope 3 emissions, especially from processing (Tier 2), represent a critical challenge. Shifting to dry processing technologies has the potential to reduce water and energy use, contributing to lower emissions and a smaller environmental footprint.

Stakeholders involved

The D(R)YE Factory of the Future project brought together key industry leaders and innovators committed to revolutionizing textile processing. The project’s brand stakeholders included:

Home-Compostable Polybag Project

The aim of the project was to explore and validate bio-based, home-compostable polybags. To assess their suitability as a sustainable alternative to conventional fossil-fuel-based plastic packaging, addressing the fashion industry’s plastic waste problem.

Problem Statement

The apparel industry faces immense pressure to meet the 1.5°C target set by the Paris Agreement, with fashion accounting for 2-8% of global greenhouse gas emissions. Scope 3 emissions, especially from processing (Tier 2), represent a critical challenge. Shifting to dry processing technologies has the potential to reduce water and energy use, contributing to lower emissions and a smaller environmental footprint.

Stakeholders involved

The D(R)YE Factory of the Future project brought together key industry leaders and innovators committed to revolutionizing textile processing. The project’s brand stakeholders included:

The London Polybag Collection Scheme Pilot

The London Polybag Collection Scheme Pilot aimed to address the low recycling rates of polybags used in the fashion industry by trialling a scalable recycling infrastructure for collecting and processing polybag waste into new materials.

Problem Statement

The apparel industry faces immense pressure to meet the 1.5°C target set by the Paris Agreement, with fashion accounting for 2-8% of global greenhouse gas emissions. Scope 3 emissions, especially from processing (Tier 2), represent a critical challenge. Shifting to dry processing technologies has the potential to reduce water and energy use, contributing to lower emissions and a smaller environmental footprint.

Stakeholders involved

The D(R)YE Factory of the Future project brought together key industry leaders and innovators committed to revolutionizing textile processing. The project’s brand stakeholders included:

Reusable Packaging Pilot

This project focused on reusable packaging in the fashion e-commerce industry. It examined the environmental impact of transitioning from single-use to reusable packaging solutions, aiming to reduce plastic waste and carbon emissions. The study highlighted the variables that influence the viability of reusable packaging and offers insights on implementation and scaling strategies.

Problem Statement

The apparel industry faces immense pressure to meet the 1.5°C target set by the Paris Agreement, with fashion accounting for 2-8% of global greenhouse gas emissions. Scope 3 emissions, especially from processing (Tier 2), represent a critical challenge. Shifting to dry processing technologies has the potential to reduce water and energy use, contributing to lower emissions and a smaller environmental footprint.

Stakeholders involved

The D(R)YE Factory of the Future project brought together key industry leaders and innovators committed to revolutionizing textile processing. The project’s brand stakeholders included:

Materra Pilot

The aim of the pilot was to test and refine Materra’s technology to grow extra long staple cotton at a pilot farm, as historically this variety of cotton has not been grown in large volumes in this region due to specific climatic requirements for cultivation.

Problem Statement

The apparel industry faces immense pressure to meet the 1.5°C target set by the Paris Agreement, with fashion accounting for 2-8% of global greenhouse gas emissions. Scope 3 emissions, especially from processing (Tier 2), represent a critical challenge. Shifting to dry processing technologies has the potential to reduce water and energy use, contributing to lower emissions and a smaller environmental footprint.

Stakeholders involved

The D(R)YE Factory of the Future project brought together key industry leaders and innovators committed to revolutionizing textile processing. The project’s brand stakeholders included:

Agriwaste Natural Fibres

The aim of the project was to explore the use of agricultural residues to produce natural fibres, reducing reliance on conventional fibres like cotton. Building on the findings of the Laudes Foundation commissioned report ‘Spinning Future Threads’.

Problem Statement

The apparel industry faces immense pressure to meet the 1.5°C target set by the Paris Agreement, with fashion accounting for 2-8% of global greenhouse gas emissions. Scope 3 emissions, especially from processing (Tier 2), represent a critical challenge. Shifting to dry processing technologies has the potential to reduce water and energy use, contributing to lower emissions and a smaller environmental footprint.

Stakeholders involved

The D(R)YE Factory of the Future project brought together key industry leaders and innovators committed to revolutionizing textile processing. The project’s brand stakeholders included:

Renewable Carbon Project

The aim of the project was to test and validate the technical feasibility of the different PHA polymer and composite resins to make mono and multifilament fibres. Fashion for Good worked with the Nonwovens Innovation & Research Institute (NIRI) to run the melt spinning trials to allow for a comparative evaluation. The initial scope of the project also included end of use testing including degradation testing. However the project partners decided to prioritise additional spinning trials over degradation testing.

Problem Statement

The apparel industry faces immense pressure to meet the 1.5°C target set by the Paris Agreement, with fashion accounting for 2-8% of global greenhouse gas emissions. Scope 3 emissions, especially from processing (Tier 2), represent a critical challenge. Shifting to dry processing technologies has the potential to reduce water and energy use, contributing to lower emissions and a smaller environmental footprint.

Stakeholders involved

The D(R)YE Factory of the Future project brought together key industry leaders and innovators committed to revolutionizing textile processing. The project’s brand stakeholders included:

Full Circle Textiles Project – Cellulosics (FCTP-C)

The ambition of the FCTP-C Project was to validate economically viable and scalable promising technologies in cellulosic chemical recycling from a select group of innovators to tackle these issues. Leading global organisations Laudes Foundation, Birla Cellulose, Kering, PVH Corp. and Target joined Fashion for Good to explore the disruptive solutions, with the goal of creating new fibres and garments from used clothing and ultimately drive industry-wide adoption. 

Problem Statement

The apparel industry faces immense pressure to meet the 1.5°C target set by the Paris Agreement, with fashion accounting for 2-8% of global greenhouse gas emissions. Scope 3 emissions, especially from processing (Tier 2), represent a critical challenge. Shifting to dry processing technologies has the potential to reduce water and energy use, contributing to lower emissions and a smaller environmental footprint.

Stakeholders involved

The D(R)YE Factory of the Future project brought together key industry leaders and innovators committed to revolutionizing textile processing. The project’s brand stakeholders included: