Ms Eva Van Der by BFT Event

COLLABORATE TO SCALE DARING INNOVATION

AS FASHION CONSUMPTION GROWS BY 65% UNTIL 2030...

... ENVIRONMENTAL AND SOCIAL PRESSURE WILL INCREASE Water consumption

+65%

+49%

(in bn cubic meters)

102

Energy emission (in mn tonnes of CO2)

+63%

62 â&#x20AC;&#x2039;

Chemical usage (Pulse Score in %)

Waste creation (in mn tonnes)

2015

2030 Global fashion consumption in MT1

1. Fashion consumption of apparel and footwear Source: BCG Analysis

Labour practices (paid <120% of min. wage)

+49%

+61%

+50% 2

WE MAPPED THE CHALLENGES TO THE FASHION VALUE CHAIN Raw Materials

Water Consumption

Dyeing & Finishing

Cut-Make-Trim

Retail & Use

End-of-Use

3,000 litres of water per kg of cotton

Energy Emission

>100 Chemical Usage

litres of water per kg fabric polluted by hazardous chemicals

>70% of textiles end up on landfills and are not recycled

Waste Creation

Labor Creation

Common challenges include: Low levels of wages, gender inequality, child labour, and exposure to hazardous chemicals

DRIVING SYSTEMIC CHANGE THROUGH INNOVATION AND COLLABORATION

WITH THE MISSION TO MAKE ALL FASHION GOOD 4

LANDSCAPE FOR CHANGE

THE FIVE GOODS: GOODS

GOOD MATERIALS From existing solutions to break-through innovation:

GOOD ECONOMY

GOOD ENERGY Directly implementable solutions

Disruptive solutions

GOOD WATER GOOD LIVES 5

HOW ARE WE ENABLING INNOVATION ?

Innovation Platform

Convenor for Change

Accelerator Programme

Fashion for Good Experience

Scaling Programme

Circular Apparel Community

Good Fashion Fund

Good Fashion Guide

WHO ARE OUR CORPORATE PARTNERS

WHO ARE OUR OTHER PARTNERS

WHAT DOES THE INNOVATION LANDSCAPE LOOK LIKE ?

Disruptiveness

Raw Materials

Dyeing & Finishing

Cut-Make-Trim

Retail & Use

End-of-Use

Bio-based polyester (PLA, PHB, PTT)

Microbial-based fixing

Additive manufacturing (e.g. 3D printing)

Circular business models (e.g. leasing)

Chemical recycling

Bio-mimicry protein (spider silk, hag fish)

Microbial-based dye

Fully automated joining techniques

Customization Solutions

Re-sale platforms

Regenerated cellulose / protein

Supercritical fluid (CO2)

Garment Construction Reconfiguration

Improved washing technologies

Automated sorting

Chitin / chitosan

Pre-treatment of fabric

Zero waste manufacturing (e.g. deadstock)

Inventory Optimization Solutions

Mechanical recycling

Leaf fibers

Pre-treatment of dye

Made to measure (e.g. bodyscans)

Visualization Solutions (e.g. virtual fitting)

Bast fibers

Plant-based pigments

Garments that grow

Regenerative agriculture

Overarching Transparency Solutions

Traceability Solutions

Value Chain Reconfiguration

Worker Empowerment

Transport Solutions

Zero Carbon Production

Note: Spinning, knitting & weaving are not listed as separates steps in the value chain. Although they are typically considered as separate steps, innovations in these areas are included in the other steps. Raw materials does not include leather innovations, which are considered separately. 9

WHAT DOES THE INNOVATION LANDSCAPE LOOK LIKE ?

Disruptiveness

Raw Materials

Dyeing & Finishing

Cut-Make-Trim

Retail & Use

End-of-Use

Bio-based polyester (PLA, PHB, PTT)

Microbial-based fixing

Additive manufacturing (e.g. 3D printing)

Circular business models (e.g. leasing)

Chemical recycling

Bio-mimicry protein (spider silk, hag fish)

Microbial-based dye

Fully automated joining techniques

Customization Solutions

Re-sale platforms

Regenerated cellulose / protein

Supercritical fluid (CO2)

Garment Construction Reconfiguration

Improved washing technologies

Automated sorting

Chitin / chitosan

Pre-treatment of fabric

Zero waste manufacturing (e.g. deadstock)

Inventory Optimization Solutions

Mechanical recycling

Leaf fibers

Pre-treatment of dye

Made to measure (e.g. bodyscans)

Visualization Solutions (e.g. virtual fitting)

Bast fibers

Plant-based pigments

Garments that grow

Regenerative agriculture

Overarching Transparency Solutions

Traceability Solutions

Value Chain Reconfiguration

Worker Empowerment

Transport Solutions

Zero Carbon Production

WHAT DOES THE INNOVATION LANDSCAPE LOOK LIKE ?

Disruptiveness

Raw Materials

Dyeing & Finishing

Cut-Make-Trim

Retail & Use

End-of-Use

Bio-based polyester (PLA, PHB, PTT)

Microbial-based fixing

Additive manufacturing (e.g. 3D printing)

Circular business models (e.g. leasing)

Chemical recycling

Bio-mimicry protein (spider silk, hag fish)

Microbial-based dye

Fully automated joining techniques

Customization Solutions

Re-sale platforms

Regenerated cellulose / protein

Supercritical fluid (CO2)

Garment Construction Reconfiguration

Improved washing technologies

Automated sorting

Chitin / chitosan

Pre-treatment of fabric

Zero waste manufacturing (e.g. deadstock)

Inventory Optimization Solutions

Mechanical recycling

Leaf fibers

Pre-treatment of dye

Made to measure (e.g. bodyscans)

Visualization Solutions (e.g. virtual fitting)

Bast fibers

Plant-based pigments

Garments that grow

Regenerative agriculture

Overarching Transparency Solutions

Traceability Solutions

Value Chain Reconfiguration

Worker Empowerment

Transport Solutions

Zero Carbon Production

WHAT DOES THE INNOVATION LANDSCAPE LOOK LIKE ?

Disruptiveness

Raw Materials

Dyeing & Finishing

Cut-Make-Trim

Retail & Use

End-of-Use

Bio-based polyester (PLA, PHB, PTT)

Microbial-based fixing

Additive manufacturing (e.g. 3D printing)

Circular business models (e.g. leasing)

Chemical recycling

Bio-mimicry protein (spider silk, hag fish)

Microbial-based dye

Fully automated joining techniques

Customization Solutions

Re-sale platforms

Regenerated cellulose / protein

Supercritical fluid (CO2)

Garment Construction Reconfiguration

Improved washing technologies

Automated sorting

Chitin / chitosan

Pre-treatment of fabric

Zero waste manufacturing (e.g. deadstock)

Inventory Optimization Solutions

Mechanical recycling

Leaf fibers

Pre-treatment of dye

Made to measure (e.g. bodyscans)

Visualization Solutions (e.g. virtual fitting)

Bast fibers

Plant-based pigments

Garments that grow

Regenerative agriculture

Overarching Transparency Solutions

Traceability Solutions

Value Chain Reconfiguration

Worker Empowerment

Transport Solutions

Zero Carbon Production

WHAT DOES THE INNOVATION LANDSCAPE LOOK LIKE ?

Disruptiveness

Raw Materials

Dyeing & Finishing

Cut-Make-Trim

Retail & Use

End-of-Use

Bio-based polyester (PLA, PHB, PTT)

Microbial-based fixing

Additive manufacturing (e.g. 3D printing)

Circular business models (e.g. leasing)

Chemical recycling

Bio-mimicry protein (spider silk, hag fish)

Microbial-based dye

Fully automated joining techniques

Customization Solutions

Re-sale platforms

Regenerated cellulose / protein

Supercritical fluid (CO2)

Garment Construction Reconfiguration

Improved washing technologies

Automated sorting

Chitin / chitosan

Pre-treatment of fabric

Zero waste manufacturing (e.g. deadstock)

Inventory Optimization Solutions

Mechanical recycling

Leaf fibers

Pre-treatment of dye

Made to measure (e.g. bodyscans)

Visualization Solutions (e.g. virtual fitting)

Bast fibers

Plant-based pigments

Garments that grow

Regenerative agriculture

Overarching Transparency Solutions

Traceability Solutions

Value Chain Reconfiguration

Worker Empowerment

Transport Solutions

Zero Carbon Production

WHAT DOES THE INNOVATION LANDSCAPE LOOK LIKE ?

Disruptiveness

Raw Materials

Dyeing & Finishing

Cut-Make-Trim

Retail & Use

End-of-Use

Bio-based polyester (PLA, PHB, PTT)

Microbial-based fixing

Additive manufacturing (e.g. 3D printing)

Circular business models (e.g. leasing)

Chemical recycling

Bio-mimicry protein (spider silk, hag fish)

Microbial-based dye

Fully automated joining techniques

Customization Solutions

Re-sale platforms

Regenerated cellulose / protein

Supercritical fluid (CO2)

Garment Construction Reconfiguration

Improved washing technologies

Automated sorting

Chitin / chitosan

Pre-treatment of fabric

Zero waste manufacturing (e.g. deadstock)

Inventory Optimization Solutions

Mechanical recycling

Leaf fibers

Pre-treatment of dye

Made to measure (e.g. bodyscans)

Visualization Solutions (e.g. virtual fitting)

Bast fibers

Plant-based pigments

Garments that grow

Regenerative agriculture

Overarching Transparency Solutions

Traceability Solutions

Value Chain Reconfiguration

Worker Empowerment

Transport Solutions

Zero Carbon Production

WHAT DOES OUR START-UP ECOSYSTEM LOOK LIKE ? Processing

Materials

Cut Make & Trim

Dyeing & Finishing

Use

Retail

End of Use

AGRALOOP FROM FOOD TO TEXTILES

Raw Materials

Dyeing & Finishing

CutMakeTrim

Retail & Use

End-ofUse

Overarching/ New Business Model

• Collection of waste from food-crop production and transformation into fibres • Processed using conventional cotton machinery, offering alternative to conventional fibres • Acceleration: Connected Agraloop to several brands in our ecosystem

COLORZEN: DISRUPTING COTTON DYEING

Raw Materials

Dyeing & Finishing

CutMakeTrim

Retail & Use

End-ofUse

Overarching/ New Business Model

• Pre-treatment of cotton fibre that makes the dyeing process dramatically more efficient and environmentally friendly • ColorZen’s scalable, innovative technology is set to revolutionise the global cotton dyeing industry • Roadmap to Scale: Savings tool development

TAMICARE 3D PRINTED GARMENTS

Raw Materials

Dyeing & Finishing

CutMakeTrim

Retail & Use

End-ofUse

Overarching/ New Business Model

â&#x20AC;˘ First industrial circular production technology, from fiber to garment in 3 seconds â&#x20AC;˘ Roadmap to Scale: Identify potential business models, attract funding & promote technology

SOFTWEAR AUTOMATED SEWING

Raw Materials

Dyeing & Finishing

CutMakeTrim

Retail & Use

End-ofUse

Overarching/ New Business Model

• Fully automated sewing of garments enabling local production • Roadmap to Scale: Conceptualize Factory of the Future, promote technology & support with operational design factory

REPACK REVERSE LOGISTICS PACKAGING

Raw Materials

Dyeing & Finishing

CutMakeTrim

Retail & Use

End-ofUse

Overarching/ New Business Model

• RePack implements a business model for e-commerce, where the packaging is sent back to the distributor for reutilisation • Potential to reduce the carbon footprint of packaging for e-commerce by 80% • Acceleration: Connected Repack to several brands in our ecosystem

WORN AGAIN CHEMICAL RECYLING

Raw Materials

Dyeing & Finishing

CutMakeTrim

Retail & Use

End-ofUse

Overarching/ New Business Model

• Worn Again developed a technology separating and recapturing polyester and cellulose from end-of-use clothing and textile waste • Upcycled blended fibres allow manufacturers to reprocess disposed garment • Roadmap to Scale: business model support & designing scaling strategy

WHERE YOUR SUPPORT IS NEEDED FOR INNOVATION

 Validate Technology  Validate Business Model

Validation

 Execute Small Scale Pilots  Define Success criteria

Piloting

 Integrate in Supply Chain  Identify Demand Requirements

Implementation

 Create Use Cases  Jointly promote Success Stories

Promotion 22

WHY JOIN THE MOVEMENT ?

5 Reasons to join Fashion for Good

Grow your business

Reduce your financial risk

Exclusive access

Prepare for the future

Shape the innovation agenda

HOW TO REACH OUT TO US ?

Pim Kneepkens

Eva van der Brugge

Innovation Manager

Pim.kneepkens@fashionforgood.com

Eva,vander.Brugge@fashionforgood.com Follow us!