HR-Recycler

Hybrid Human-Robot RECYcling plant for electriCal and eLEctRonic equipment
Project ID
Funding Organization:
Funding Programme:
H2020-DT-FOF-02-2018: Effective Industrial Human-Robot Collaboration
Funding Instrument:
Research & Innovation Action
Start Date:
01/12/2018
Duration:
42 months
Total Budget:
6,986,573 EUR
ITI Budget:
1,334,375 EUR
Scientific Responsible:

The technological advances that have been achieved over the past decades have led to a tremendous increase of both the types and the total amount of electrical and electronic equipment that is manufactured. Despite the importance of Waste Electrical and Electronic Equipment (WEEE) management, the issue of the WEEE recycling has not received that increased industrial attention. HR-Recycler will target the development of a ‘hybrid human-robot recycling plant for electrical and electronic equipment’ operating in an indoor environment. The fundamental aim of the system (and its great innovation potential) will be to replace multiple currently manual, expensive, hazardous and time-consuming tasks of WEEE materials pre-processing with correspondingly automatic robotic-based procedures (categorization of electric/electronic devices, disassembling them, sorting of device components), before the materials are eventually provided as input to a fine shredding machine and conventional material separation steps are applied (using air/water flows, oscillating movements, magnets, etc.). More specifically, the overall goal of HR-Recycler is to create a hybrid collaboration environment, where humans and robots will harmoniously share and undertake at the same time different processing and manipulation tasks, targeting the industrial application case of WEEE recycling. The primary output of the envisaged system will be to extract sorted electric/ electronic device components [e.g. Printed Circuit Boards (PCBs), Cu coils, capacitors, etc.] and concentrated fractions (e.g. copper, aluminium, plastics, etc.) of increased economic and environmental value; hence, contributing to the fundamental goal of the ‘European circular economy’ project and boosting economic activity in secondary markets. Additionally, mixed fractions (i.e. fractions with low concentration in valuable materials) will be collected, in order to be sent to other facilities for further dedicated recycling process.

Consortium

ETHNIKO KENTRO EREVNAS KAI TECHNOLOGIKIS ANAPTYXIS (CERTH) – Greece
FUNDACIO INSTITUT DE BIOENGINYERIA DE CATALUNYA (IBEC) – Spain
TECHNISCHE UNIVERSITAET MUENCHEN (TUM) – Germany
COMAU SPA (COMAU) – Italy
FUNDACION TECNALIA RESEARCH & INNOVATION (TEC) – Spain
ROBOTNIK AUTOMATION SLL (ROB) – Spain
FUNDACION GAIKER (GAIKER) – Spain
SADAKO TECHNOLOGIES SL (SDK) – Spain
DIGINEXT (DXT) – France
VRIJE UNIVERSITEIT BRUSSEL (VUB) – Belgium
INDUMETAL RECYCLING, S.A. (IND) – Spain
INTERECYCLING – SOCIEDADE DE RECICLAGEM SA (INT) – Portugal
BIANATT ANAKYKLOSI AIIE ANONIMI BIOMICHANIKI EMPORIKI ETAIRIA (BNTT) – Greece

Contact

Dr. Petros Daras
(Scientific Responsible)
Building B - Office 0.19 Α 2.10

Information Technologies Institute
Centre of Research & Technology - Hellas
1st km Thermis - Panoramatos, 57001, Thermi - Thessaloniki
Tel.: +30 2310 464160 (ext. 156) +30 2311 257755
Fax: +30 2310 464164
Email: daras@iti.gr

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