101 Address Avenue,Newport Beach

CIRCULÉIRE Awardees 2020-2021

CIRCULÉIRE Innovation Fund Awardees (2020 – 2021)

CIRCULÉIRE’s overarching objective
between 2020-2022 is to source, test,
finance, and scale, circular
manufacturing systems, supply chains
and circular business models

CIRCULÉIRE is the first cross-sectoral industry-led innovation network dedicated to accelerating the net-zero carbon circular economy in Ireland. CIRCULÉIRE is a €4.5m public- private partnership co-created by Irish Manufacturing Research (Secretariat), and three Strategic Partners; the Department for Environment, Climate and Communications (DECC), Environmental Protection Agency (EPA), EIT Climate-KIC and a growing cross-sectoral network of Industry Members.

CIRCULÉIRE’s overarching objective between 2020-2022 is to source, test, finance, and scale, circular manufacturing systems, supply chains and circular business models to deliver significant reductions in both CO2 emissions and waste across our Industry Membership over the programmes’ lifespan.

Below is an overview of the circular economy innovation demonstration projects awarded funding from CIRCULÉIRE’s ring-fenced innovation fund to date:

1: LLLB Centre of Excellence (2020)

Project Title:                                              LLLB Centre of Excellence
Project Short Title or Acronym:     LLLB-CE
Number of Partners
including the Lead Partner:              3
Project Duration:                                   12 months
(in whole months)
Project Lead /Coordinator:             WEEE Ireland
Partner #1:                                                KMK Metals Recycling
Partner #2:                                                Wisetek
Solutions Awarded:                             2020

WEEE Ireland Logo
KMK Logo

LLLB-CE Innovation Demonstration Summary


Long-Life Lithium Batteries (LLLB) are a future resource for a more circular economy in Ireland.

LLLBs, sourced from Electric Vehicles (EVs), other mobility applications, IT and energy storage systems, that have reached the end of their first life (typically 7-10 years in an EV), can be tested, stabilised & repurposed for alternative applications such as additional power storage systems. There are currently some early programmes establishing pilot projects in Norway, Italy, the Netherlands and Switzerland but there are no facilities in Ireland undertaking this at present.

The goal of LLLB-CE is to research and develop a safe and circular LLLB management system in Ireland; enabling secure removal, collection, sorting and discharging of these waste batteries which can be repurposed as second life energy storage batteries or other applications, to be used again in Ireland.

Developing this process, training more people in Ireland to handle LLLB environmental management as well as connecting and developing expertise will support the establishment of a collaborative knowledge cluster; A Battery Centre of Excellence. It will help create employment opportunities across the sector and encourage training pathways for circular economy upskilling of operatives currently working in the material sorting and recycling sector in Ireland.L

Lithium Future Focus


For further information on the LLLB CE Innovation Demonstration Project see the open-access case study available here

2: White Goods Repair Skillset for a Circular Economy (2020)

Project Title:                                              Skillset for a Circular Economy
Project Short Title or Acronym:     Skillset
Number of Partners
including the Lead Partner:               3
Project Duration:                                   12 months
(in whole months)
Project Lead /Coordinator:              WEEE Ireland
Partner #1:                                                 Fastrack into IT (FIT)
Partner #2:                                                 White Goods Association (WGA)
Solutions Awarded:                               2020

WEEE Ireland Logo
FIT Logo
WGA Logo

Skillset Innovation Demo Summary

Repair can be considered one of first and most preferred methods in the WEEE circular economy pathway; to prolong the use phase as it preserves the original state, embedded energy and material of a product. Repair can extend the lifecycle of the product for an initial user or support more second life reuse with one or more end users. If eco-design and vailability of spare parts are crucial, to ensure the lifespan of an appliance can be extended, then the availability of repair skills and trained repair technicians is a critical central component which is currently lacking in Ireland.

The Skillset innovation demonstration project (Circular Economy Skills Initiative) is a collaboration between WEEE Ireland, in partnership with FIT, an industry-led training initiative and registered social enterprise not for profit organisation (www.fit.ie), and the White Goods Association (WGA), an IBEC coordinated industry trade association which represents most of the major manufacturers and distributors of white goods products in Ireland.

This project is unique in that it has industry wide support and input. The White Goods Association members inputted into the Skills Needs Analysis which was undertaken as part of this, and which determines the skills required and training modules to be undertaken by the trainees. This training is also one of the first to include a Circular Economy/Sustainability module as an integral part of the course.

The Circular Economy Skills Initiative project aims to tackle the skills and training bottleneck that exists and help establish more repair and reuse specialists in the white goods sector through circular economy skillset training and the development of formal QQI Accredited appliance repair qualifications in Ireland.

As of July 2021, applicants for The Circular Economy Skills nitiative are seeking applicants to the training programme which can be viewed here – https://fit.ie/circular-economy skills-initiative/

For further information on the White Goods Repair Skillet Innovation Demonstration Project see the open-access case study available here

CESI Logo

3: Advanced Robotics to capture Critical Raw Materials in WEEE recycling for a Circular Economy (2021)

Project Title:                                               Advanced Robotics to capture Critical
                                                                            Raw 
Materials in WEEE recycling for
                                                                            a Circular Economy
 
Project Short Title or Acronym:      RoboCRM
Number of Partners
including the Lead Partner:                3
Project Duration:                                    12 months
(in whole months)
Project Lead /Coordinator:                FPD Technologies
Partner #1:                                                  Robotics & Drives
Partner #2:                                                  University of Limerick
Solutions Awarded:                               2021

FPD Recycling Logo
Robotics and Drives Logo
University of Limerick Logo

RoboCRM Innovation Demo Summary

The global economy is at a transition point, moving from the traditional “make, use and discard” linear manufacturing model which has not changed since the Industrial Revolution to a more sustainable and reusable solution that is the Circular
Economy. With an ever-increasing population and limited resources, we need to cease discarding our products and materials when they reach End-of-Life (EOL) and instead “close the loop” by re-using them as raw materials to remanufacture and improve our resource efficiency.

Within the Electrical and Electronic Equipment (EEE) sector, circularity is already evident in the recycling of Waste Electrical and Electronic Equipment (WEEE) devices and products which are End-of-Life. Although WEEE recycling has been in operation for over a decade now, the process is far from effective in recovering all of the necessary resources and materials needed for manufacturing the next generation of devices.

Batteries are one of the richest sources of Critical Raw Materials (CRMs) for WEEE recycling plants. However, more and more appliances nowadays already contain some form of integrated battery or power pack which the user cannot easily remove or replace. This means these devices are effectively WEEE once their batteries are used up, and when are sent for recycling. However, the conditions for such an operation are not safe for human operators -we need a flexible, automated system to
address this challenge.

RoboCRM uses non-destructive detection methods (such as computer vision systems) in conjunction with pattern recognition and an artificial intelligence engine to identify and sort batteries and electronics containing batteries from the main
WEEE stream. Once identified and categorised, these battery powered WEEE items can be processed to support greater recovery of raw materials and CRMs. This will help close the loop on this aspect of the WEEE stream.

Recycling of CRMs


Recycling of CRMs will enable circular economies in manufacturing

4: Circular Economy & The Power of Many (2021)

Project Title:                                              Circular Economy & The Power of Many
Project Short Title or Acronym:     #CEPowerofMany
Number of Partners
including the Lead Partner:               4
Project Duration:                                   18 months
(in whole months)
Project Lead /Coordinator:               Freefoam Plastics Ltd
Partner #1:                                                 Mulligan Guttering Ltd
Partner #2:                                                 Glenveagh Properties PLC
Partner #3:                                                 Shabra Plastics & Recycling
Solutions Awarded:                              2021

Freefoam Logo
Mulligan Guttering Ltd Logo
Glenveagh Logo
Sharba Logo

#CEPowerofMany Innovation Demo Summary

In 2017, packaging waste in Europe reached a record 173kg per inhabitant. If we drill down this figure, construction packaging waste plays a significant part in this.

The purpose of #CEPowerofMany is to develop a take back scheme for all the materials that are delivered for an installation of roofline building products. These materials are delivered to a construction site for a new or existing house, but do not form part of the end installation. This includes minor leftover parts of the actual product installed. It also includes protective packaging that these products are wrapped in to ensure they are clean and fit for purpose when they arrive on site.

As part of the project Freefoam will review its packaging and look to redesign the methods and materials used to aid in the recovery and reuse process. They will also explore the potential for other contractors on the construction sites to put their packaging materials into the same take back supply chain if the materials are compatible. Also, Freefoam will partner with Shabra Plastics to develop a closed loop system from Freefoams production plant in Cork to Shabras plant in Monaghan, for all PE-LD and cardboard that flows into Freefoam.

DECC Climate action fund for large scale climate action
Green Enterprise is the EPA fund for circular economy in Ireland
EIT Climate-KIC Logo