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DELIVERABLE 6.3
Handouts from 3 dissemination events available
Grant Agreement number: 308549 Project acronym: HYDROWEEE DEMO
Project title: Innovative Hydrometallurgical Process to recover Metals from WEEE including lamps and batteries - Demonstration
FUNDING Scheme: Collaborative Project
Delivery date: September 2016
Deliverable number: 6.3
Workpackage number: 6
Lead participant: ISL
Nature: R
Dissemination level: PU
Author(s): Dr. Bernd Kopacek
Project co-ordinator: Dr. Bernd Kopacek, ISL – Kopacek KG
Tel: +43-1-298 20 20
Fax: E-mail: [email protected]
Project website: http://www.sat-research.at/hydroWEEE/ www.resoutech.com
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1 TABLE OF CONTENT
1 TABLE OF CONTENT .............................................................................................................. 2
Summary .............................................................................................................................................. 3
1 FIRST DISSEMINATION – CARE INNOVATION 2014, Vienna, Austria ......................... 4
1.1 Agenda .................................................................................................................................. 4
1.2 Participants ........................................................................................................................... 5
2 SECOND DISSEMINATION – HydroWEEE Demo dissemination event, Milano, Italy .. 14
2.1 Agenda ................................................................................................................................ 14
2.2 Participants ......................................................................................................................... 14
3 THIRD DISSEMINATION – HydroWEEE Demo dissemination event, Alexandria,
Romania ............................................................................................................................................. 17
3.1 Agenda ................................................................................................................................ 17
3.2 Participants ......................................................................................................................... 18
4 FOURTH DISSEMINATION – Electronics Goes Green 2016, Berlin, Germany .............. 19
4.1 Agenda ................................................................................................................................ 19
4.2 Participants ......................................................................................................................... 21
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Summary The following document contains the four dissemination events of the HydroWEEE Demo project. It includes agendas and the participants of the dissemination events. All power point presentations shown during the three dissemination events are either available on the webpage or can be requested at ISL because of the size of files. CARE INNOVATION 2014 in Vienna (Austria) was used to report the intermediary findings to the industrial community. This 4 day event followed a series of nine conferences based in several countries over the last 18 years. It is the world leading and most prominent con-gress series on electr(on)ics and the environment. Two dedicated HydroWEEE Demo dissemination events have been organized in order to demonstrate both industrial-like plants. The first event to show our stationary plant took place at Relight close to Milano (Italy), the second to show our mobile plant at Greentronics in Alexandria (Romania). And finally Electronics Goes Green 2016 conference has been used to disseminate the final results after pilot trials. In this conference we again had an own HydroWEEE Demo session.
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1 FIRST DISSEMINATION – CARE INNOVATION 2014, Vi-
enna, Austria Dissemination: CARE INOVATION 2014
Date: November 17-20, 2014
Location: Schoenbrunn Palace, Vienna, Austria (http://ci2014.care-electronics.net/ )
Participants: 427
1.1 Agenda The 10th Going Green – CARE INNOVATION 2014 conference took place from November 17-20, 2014 in the Schoenbrunn Palace Conference Center in Vienna, Austria.
With a wide range of experts from industry (again more than 60%), academia, NGOs and policy the Going Green – CARE INNOVATION 2014 conference gave valuable insights how the electronics industry, science and policy approach the global challenges of sustain-ability and climate change. Legislative actions, higher efficiency, less resource consump-tion, new approaches towards sustainable development and reuse were other key topics.
The HydroWEEE Demo sessions took place on Wednesday, November 19, between 08.30 and 13.00 o’clock.
2.3. HydroWEEE: Innovative Hydrometallurgical Processes to recover critical metals from WEEE
Chair: F. Veglio, Univ. L´Aquila, IT
Introduction to HydroWEEE Demo B. Kopacek, ISL, AT
Recovery of precious and critical metals from Spent Lamps and Cathode Ray Tubes V. Innocenzi, M. Centofanti, F. Vegliò, Univ. of L´Aquila, IT; I. DeMichelis, EcoRecycling, IT
Recovery of precious and critical metals from Liquid Crystal Displays F. Beolchini, L. Rocchetti, A. Amato, V. Fonti,,Univ. of Marche, IT; S. Ubaldini, CNRS, IT; I. De Michelis, F. Veglió, Univ. of L’Aquila, IT; B. Kopacek, ISL, AT
Hydrometallurgical processing of waste printed circuit boards for Cu, Au and Ag recovery I. Birloaga, F. Veglió, Univ. of L´Aquila, IT; I. De Michelis, EcoRecycling, IT; B. Kopacek, ISL, AT
Recovery of precious and critical metals from End-of-Life Batteries, such as Lithium ones. F. Pagnanelli, E. Moscardini, P. Altimari, T. Abo Atia, L. Toro, Sapienza Univ. of Rome, IT
Recovery of precious and critical metals from catalysts F. Veglio, V. Innocenzi, F. Ferrante, University of L´Aquila, IT; I. De Michelis, EcoRecycling, IT
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2.7. HydroWEEE: Innovative Hydrometallurgical Processes to recover critical metals from WEEE
Chair: F. Veglio, Univ. L´Aquila, IT
Design and construction of the stationary and hydrometallurgical plants for the recovery of metals from WEEE P. Altimari, I. De Michelis, L. Toro, EcoRecycling, IT; F. Beolchini, Univ. of Marche, IT; B. Ferrari, S. Giorgetti, Relight, IT;
V. Innocenzi, Univ. of L´Aquila, IT; B. Kopacek, ISL, AT; E. Moscardini, F. Pagnanelli, Sapienza Univ. of Rome, IT; N. Panjevac, Mihailo Pupin, RS
Plant Automation for Hydrometallurgical Process of Material Recovery from WEEE N. Panjevac, M. Stojanovic, Mihailo Pupin, RS; B. Kopacek, ISL, AT
Automated disassembly of components from Printed Circuit Boards P. Kopacek, B. Kopacek, ISL, AT
Urban Mining of Rare Earths in WEEE: A Successful Experience with the stationary plant B. Ferrari, S. Giorgetti, S. Sgarioto, F. Bacchetta, Relight, IT; D. Romilio, Univ. of L´Aquila, IT
Introduction to Greentronics and practical experiences with the pilot plant D. Modoran, Greentronics, RO
Next Steps in HydroWEEE Demo and the ResouTech offer
B. Kopacek, ISL, AT
1.2 Participants
Family Name First Name Company Country
Abdulquadry Ademola Yaba College of Technology Nigeria
Abimbola Stephen Kwara State Ministry of Education Nigeria
Abrams Fern IPC USA
Acharya Jitendra Sajha Foundation-Nepal Nepal
Adam Andreas OSRAM Germany
Adewumi Ife Niger Delta University Nigeria
Aerts Maurice Philips Lighting Netherlands
Agyekum Esther earth charter ghana Ghana
Agyekum Ansah ebe ghana limited Ghana
Ahto Riitta Nokia Finland
Aionesei Cristian Greentronics Romania
Ajibola Folorunsho Nigeria
Aleksic Slavisa Vienna Univ. of Technology Austria
Al-Gobbi Makki Royal Commission at Yanbu Saudi Arabia
Alhilali Smail UNIDO Austria
Altimari Pietro Eco Recycling Italy
Alves Edison Attos Brazil
Alzhanova Nurzhan KazNU Kazakhstan
Andrae Anders Huawei Sweden
Angelopoulos Georgios BIANATT Greece
Ansems Toon TNO Netherlands
Antrekowitsch Helmut Montan Univ. Leoben Austria
Arfwidsson Tove Siemens Switzerland
Arranz Pol Trama Tecnoambiental Spain
Auer Johannes Siemens Germany
Auer Rudolf Apple Germany
Awad Abanob Austria
Bacchetta Federica Relight Italy
Bachmann Erik SAP Germany
Bader Bill iNEMI USA
Bakker Conny TU Delft Netherlands
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Balestra Riccardo SC Sviluppo Chimica Italy
Balkenende Ruud Philips Netherlands
Barman Subrata IFC India
Bastin David University of Liege Belgium
Bauer Gerhard Austria
Bayisa Beyene Wageningen University Netherlands
Bengt Petersen Poul Ragn-Sells Recyclables Sweden
Beolchini Francesca Univ. Politecnica delle Marche Italy
Birloaga Ionela Univ. of L'Aquila Italy
Bisselink Roel TNO Netherlands
Blanes Guàrdia Mireia FAE Spain
Bocher Christina DEKRA Consulting Germany
Boden Tomiko Japan
Bodenhoefer Karl Sony Germany Germany
Böni Heinz Empa Switzerland
Bookhagen Britta IASS Potsdam Germany
Borrman Jeff Datec Technologies United Kingdom
Bracke Stefan Univ. of Wuppertal Germany
Brady Todd Intel USA
Braithwaite Naomi Nottingham Trent Univ. United Kingdom
Branderhorst Alexander Coolrec Netherlands
Brandstötter Michael CogVis Austria
Brock Andrew RIO Tronics USA
Brotto Gianluca Electrolux Sweden
Buchhöcker Harald WWV Group Austria
Busk Christina Confederation of Danish Industry Denmark
Carencotte Frederic Solvay Rhodia France
Centofanti Marcello Univ. of L'Aquila Italy
Cesme Mustafa University Turkey
Chan Pheng Hwa Sony Electronics Asia Pacific Singapore
Chen Jahau Lewis National Cheng Kung Univ. Taiwan
Chin Hiroshi Univ. of Tokyo Japan
Cimpan Ciprian Univ. of Southern Denmark Denmark
Clavell Janire TU Berlin Germany
Colangelo Eduardo Univ. Stuttgart IFF Germany
Colledani Marcello Politecnico di Milano Italy
Comanescu Brindus Optoel Romania
Cooper Andrew ITRI United Kingdom
Corridori Riccardo COCIR Belgium
Couckuyt Benedicte HERMION Netherlands
Dahmus Jeffrey Apple USA
Dann Lucas PE International Germany
Dean Lisa ENVIRON International United Kingdom
Dettke Jochen DEKRA Consulting Germany
Detzel Thomas Infoneon Germany
Dimitrova Gergana Fraunhofer IZM Germany
Döfnas Per Ericsson Sweden
Domingo Lucie Univ. of Bath United Kingdom
Donovan Leo WEEE Ireland Ireland
Doveil Frida FRAGILE Italy
Dresch Patrícia Inst. Nac. de Tecnologia Brazil
Driessen Marinus HERMION Netherlands
Dumortier Thierry Enhesa Belgium
Dvorak-Miyata Yuko Enhesa Belgium
Dziedzic Sylwia Politechnika Rzeszowska Poland
Eberl Hans-Christian European Commission Belgium
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Ebert Thomas Apple Germany
Eboko Atekesanze Marie Paul Univ. du Moyen Lualaba de Kalima Congo
Eckerth Gregor agiplan Germany
Edlund Ivo Elektronikåtervinning i Sverige Sweden
Egia Albizuri Amaia IRSA Spain
Eisenriegler Sepp R.U.S.Z Austria
Emeka Dunkwu lasu Romania
Escriña Lopez Juan Carlos Tecnicas Reunidas Spain
Faast Thomas UFH Austria
Fakhredin Farzaneh Delft Univ. of Technology Netherlands
Feickert Stefan SAP Germany
Fennemann Verena European Commission Belgium
Ferrari Bibiana Relight Italy
Fischer Thomas Sony Deutschland Germany
Fitzpatrick Colin University of Limerick Ireland
Folakunle George Stamford International University Thailand
Fraticelli Alicia Apple USA
Freire Cristina Apple Netherlands
Frisbee Robert Green Electronics Council USA
Fröhlich Georg Electrocycling Germany
Fujimoto Jun AIST Japan
Furukawa Hiroyuki Panasonic Japan
Gacon Matthieu Safran Group - Sagem France
Gadal Baburam Integrated Rural Development Center Egypt
Galindo Carbajo Angel Tecnicas Reunidas Spain
Gans - Combe Caroline Reihoo France
Gantner Oliver Univ. of Augsburg Germany
Ghimire Karuna Kar K&K International Trading Company pvt.ltd Nepal
Giorgetti Silvia Relight Italy
Girling Jordan ENVIRON UK United Kingdom
Go Hyejeong Samsung Electronics Korea South
Gomolla Peter CCR Logistics Systems Germany
Grieger Sven EARN Elektrogeräte Service Germany
Grobe Klaus ADVA Optical Networking Germany
Guarde Dorleta Indumetal Recycling Spain
Gupta Deepanshu Okaya Power India
Gutwinski Thomas Gutwinski Management Austria
Guzzo Rob Apple USA
Hadl Sabine ERP Austria Austria
Hamaekers Sep Ondeo Netherlands
Handwerker Carol Purdue University USA
Hara Minako NTT Japan
Harris Christopher Ecodesign Centre PDR United Kingdom
Harris Eric ISRI USA
Hashem Essam Spearink Egypt
Hayashi Hidetaka EcoDeNet Japan
Hedin Thomas Lenovo Sweden
Helms Rasmussen Marie VELUX Denmark
Henien Florian Austria
Herbeck Elisabeth UNIDO Austria
Herrmann Constantin PE International Germany
Hieronymi Klaus Hewlett-Packard Germany
Hofmann Lothar Austria
Hök Frida ChemSec Sweden
Holdway Rob giraffe innovation ltd United Kingdom
Holdway Rob Giraffe Innovation United Kingdom
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Holmes Corinne Microsoft USA
Holzhauer Ralf Westfälische Hochschule Germany
Horatius Ojong Berd Cameroon
Horvath Christof SAT Austria
Høst-Madsen Niels Karim NIRAS Denmark
Howland Grace Environment Canada Canada
Hu Allen H. National Taipei Univ. of Technology Taiwan
Huang Lance H. National Taipei Univ. of Technology Taiwan
Huang Tien-Ying Taiwan
Ikeda Michio Toshiba of Europe Germany
Imamura Takashi Fujitsu Technology Solutions Germany
Imelda Pavel Poland
Innala Kari Jalopinta Finland
Innocenzi Valentina Univ. of L'Aquila Italy
Inoue Emiko Kyoto Univ. Japan
Inoue Masato Meiji Univ. Japan
Inoue Mariko Japan
Iqbal Mohamed Urban Council Kattankudy Sri Lanka
Istvan Zsolt Bay Zoltan Hungary
Ivory Brian Intel Ireland
Jager Walter ECD Compliance Canada
Jain Amit IRG Systems South Asia India
Jakowczyk Marta Univ. of Manchester United Kingdom
Janssen Martine Ondeo Netherlands
Jany Andreas EventCon Austria
Jastaniah Abdulrahman Saudi Electricity Company Saudi Arabia
Johns Joseph Babadi OPAD Sweden
Joma Mahmoud Alwan Digital Israel
Jung Youngdo Korea South
Kalinkina Marina Austria
Kampel Martin Vienna Univ. of Technology Austria
Kandler James RoHS Ready USA
Kanitschar Georg TU Vienna Austria
Kano Makoto Tokyo Univ. of Science Japan
Kano Emiko Japan
Karhumaki Sanna Microsoft Finland
Kast Gerhard UP Umweltanalytische Produkte Germany
Kerha Liazid Research & Development Center Angola
Kik René Sims Recycling Solutions Netherlands
Kim Kyung-Hwan KITECH Korea South
Kimm Nicola Philips Lighting Netherlands
Kingsly Ebot Mbiwan Ministry of Environment Cameroon
Kishita Yusuke Osaka Univ. Japan
Kitagawa Kazunori Japan Productivity Center Japan
Kitamura Masatsugu EcoDesign Promotion Network Japan
Kitamura Nobuyuki Univ. of Tokyo Japan
Kleber Florian Vienna Univ. of Technology Austria
Kobayashi Atsuki Japan Productivity Center Japan
Kochmann Helga Austria
Kohl Florian Albemarle Belgium
König Christina SAT Austria
Konings Leon Philips Lighting Netherlands
Kopacek Peter ISL Austria
Kopacek Bernd SAT Austria
Krajewski Joan Microsoft USA
Kreissler Barbara UNIDO Austria
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Kroeber Felix SAP Germany
Krug Michael 1cc Germany
Kubo Hiroshi Chiba Inst. of Technology Japan
Kühr Rüdiger United Nations Univ. Germany
Kuroda Kohei Osaka Univ. Japan
Kuszla Catherine Univ. d'Angers France
Lacko Matus Lenovo Slovakia
Lama Kaji Lal Wave Society Nepal Nepal
Lambert Fanny University of Liege Belgium
Lane Graham ERM Germany
Lapkowski Mieczyslaw Polish Academy of Science Poland
Lee Hyejin Samsung Electronics Korea South
Lee Kunmo Ajou University Korea South
Leijting Jorrit PRé Consultants Netherlands
Lemagnen Maud Safran Group - Sagem France
Leroy Pascal WEEE Forum Belgium
Letenneur Romain WEEElogic Germany
Li Sam National Univ. of Singapore Singapore
Lim Seong-Rin Kangwon National Univ. Korea South
Lin Wells AU Optronics Taiwan
Lincoln Ollie Inspectorate International United Kingdom
Linnell Jason NCER USA
López Vicente Tecnicas Reunidas Spain
Luepschen Claudia United Nations Univ. Germany
Luschin Ingrid Austria
Lyons Dominique Ecodesign Centre United Kingdom
Maât Nicolas CNRS France
Macek Karel Honeywell Czech Republic
Mahdy Amina Austria
Maher Paul MicroPro Computers Ireland
Maher Paul MicroPro Computers Ireland
Mamela Adis Austria
Manuel Ramos Francisco FAE Spain
Marijuan Requeta Esteban Indumetal Spain
Marinelli Thomas Philips International Netherlands
Mars Carole Sustainability Consortium USA
Martin Brian Seagate USA
Martinez Manuel Univ. Nac. Autonoma de Mexico Mexico
Masui Keijiro AIST Japan
Matsuno Yasunari Univ. of Tokyo Japan
Maurer Viola HP Austria
Mayer Donald UL Environment USA
Melin Hans Eric Refind Technologies Sweden
Mengarelli Marco ENEA Italy
Merstallinger Michael TB Hauer Umweltwirtschaft Austria
Meskers Christina Umicore Belgium
Metzger Sonia Orange France
Mishima Nozomu Akita Univ. Japan
Mishima Kuniko Japan
Modoran Dan Greentronics Romania
Mondiot Audrey gaea21 France
Montaser Sehweil Mor-Gal Plastic Israel
Moreno Mariale Nottingham Trent Univ. United Kingdom
Moretti Stefan SAT Austria
Moriarty Tom Dell Ireland
Moya Marcelo INER Ecuador
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Mudgal Shailendra Bio Intelligence Service France
Mulcahy John Univ. of Limerick Ireland
Nafe Christopher Sustainability Consortium USA
Nagao Tomomi NTT Japan
Nakamura Takashi Tohoku Univ. Japan
Nakata Atsumi Ministry of Economy, Trade and Industry Japan
Nakayama Shigehiko Panasonic Corporation Japan
Negoita Valentin Ecotic Romania Romania
Nescsoiu Teodor Optoel Romania
Nicholson Sean Microsoft United Kingdom
Nieto Gallego Emilio Tecnicas Reunidas Spain
Nikolić Zorana SET Recycling Serbia
Nimalasuriya Tanya Océ-Technologies Netherlands
Nissen Nils F. Fraunhofer IZM Germany
Nuss Christian Univ. of Augsburg Germany
O´Shea Guilermo Indumetal Spain
Oberpeilsteiner Florian SAT Austria
O'Donoghue Lisa Univ. of Limerick Ireland
Öhrlund Isak Elektronikåtervinning i Sverige Sweden
Okrasinski Thomas Alcatel-Lucent USA
Olayiwola Shittu Morgan Real Komix Int. Concept Nigeria
Oluwasean Ogundeji Idowu Ogunjinmi and Son Nigeria
O'Malley Grace iNEMI USA
Omelchuck Jeff Green Electronics Council USA
Ord Jason Hewlett-Packard Netherlands
Ospina Jose MicroPro Computers Ireland
Otake Eiko Japan
Oyelakin Abdullahi LASUTH Nigeria
Padalewski Olivia SAT Austria
Pagnanelli Francesca Sapienza Univ. Italy
Pamminger Rainer ECODESIGN company Austria
Panjevac Nebojša Institut Mihajlo Pupin Serbia
Papageorgiou Thomas BIANATT Greece
Parajuly Keshav Univ. of Southern Denmark Denmark
Paronen Noora Microsoft Finland
Pattis Anna Grundfos Management Denmark
Pauwels Dirk Univ. of Leuven Belgium
Payne Steve iNEMI United Kingdom
Pearson James ENVIRON International United Kingdom
Perry Jonathan Dell United Kingdom
Pfahl Bob iNEMI USA
Picone Nicoletta ITIA-CNR Italy
Pigosso Daniela Technical Univ. of Denmark Denmark
Pimentel Marcos FACTI Brazil
Piotrowski Magnus Lenovo Deutschland Germany
Plumeyer Martin Siemens Healthcare Germany
Poon Daisy Cisco Systems USA
Poot Marc Cisco Systems Belgium
Pramersdorfer Chrsitopher CogVis Austria
Prista Luisa European Commission Belgium
Putz Lisa-Maria FH OÖ Austria
Radl Marlies AMS Austria
Rahko Matti Microsoft Finland
Rahm Farid Intel USA Ramachandran Saroji-ni Ravikumar FCI GBS India India
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Resel Karl denkstatt Austria
Reseterits Alina Austria
Rifer Wayne Green Electronics Council USA
Rinne Sami Finnish Computer Recycling Finland
Rudolf Stephan Austria
Ruoff Meike WEEElogic Germany
Russinger Johann SIEMENS Healthcare Germany
Saari Ulla Microsoft Finland
Saavalainen Paula Microsoft Finland
Sablatnig Robert Vienna Uniiversity of Technology Austria
Sanchez Denis Sibuet environnment France
Sánchez Lozano Juan Carlos IRSA Spain
Santavaara Ilona Nokia Finland
Santos Maria Carolina Inst. Nac. de Tecnologia Brazil
Saraev Alexandra PE INTERNATIONAL Germany
Sartre Sabine Enhesa Belgium
Savi Daniel Büro für Umweltchemie Switzerland
Schaub Marius RECYCLING magazin Germany
Scheidt Lutz-Guenther PE International Germany
Schiffleitner Andreas KERP Austria
Schischke Karsten Fraunhofer IZM Germany
Schröder Freimut Siemens Healthcare Germany
Schulz Yvan Univ. of Neuchâtel Switzerland
Scuderi David Samsung United Kingdom
Seeger Martin El-kretsen Sweden
Seok Sungwoo KEITI Korea South
Severit Petra DSM Netherlands
Shibata Etsuroe Tohoku Univ. Japan
Shiratori Toshikazu Tohoku Univ. Japan
Sicolo Matteo Relight Italy
Sindek Nickel Cardno TEC Germany
Sinha Rajib KTH Royal Inst. of Techn. Sweden
Siraj Munir Muhammad UOG Switzerland
Sitek Janusz Tele and Radio Research Inst. Poland
Skeates Bill Samsung Electronics United Kingdom
Slijkhuis Chris Müller-Guttenbrunn Austria
Slotyuk Lyubov PE INTERNATIONAL Germany
Smit Eelco Philips Netherlands
Spear John epi Consulting United Kingdom
Spytkowski Eddy Philips Netherlands
Stanciu Elena Optoel Romania
Stanescu Nicolae Greentronics Romania
Steeghs Wil Ondeo Industrial Solutions Netherlands
Steinböck Sabine Austria
Stergiou Thanos BIANATT Greece
Stimpson Howard ENVIRON International United Kingdom
Stojanovic Mihajlo Inst. Mihajlo Pupin Serbia
Strýček Marián Slovakia
Stutz Markus Dell Germany
Sun Zhi TU Delft Netherlands
Sundin Mårten El-Kretsen Sweden
Sweatman Andrew PE International Australia
Szita Tothne Klara Hungarian Academy of Sciences Hungary
Tadros Beshoy Austria
Takezawa Hiroaki Panasonic Japan
Talens Peiró Laura DG JRC-IES Italy
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Tamus Zoltán Ádám Budapest Univ. Hungary
Tan Hooi Hong Sony Deutschland Germany
Tanaka Kenji Univ. of Tokyo Japan
Tange Lein ICL-IP EUROPE Netherlands
Tanskanen Pia Nokia Finland
Teh Soo Tyng Nets Printwork Malaysia
Teh Leong Sim Nets Printwork Sdn Bhd Malaysia
Terry Johanna 1cc Germany
Thapa Kishor Kathmandu University Nepal
Thomas Sylvie Lexmark France
Tigges Daniel UL Environment USA
Toro Luigi EcoRecycling Italy
Turnbull Aidan BOMcheck United Kingdom
Uebelhoer Karin Siemens Germany
Ulmer Joachim Lombardi & Grünbauer Germany
Umeda Yasushi University of Tokyo Japan
Umehara Kana Univ. of Tokyo Japan
Unterluggauer Mariann ORF Austria
van den Nieuwenhof Monique TNO Netherlands
van der Wel Hans Philips Healthcare Netherlands
van Erkel Joost TNO Netherlands
van Gijlswijk René TNO Netherlands
van Kleef Marc TNO Netherlands
van Meensel Wesley imec Belgium
van Schaik Antoinette MARAS Netherlands
Vandendaelen Alexis Umicore Belgium
Vanegas Paul KU Leuven Belgium
Vânia Mori Vânia Mori Inst. Nac. de Tecnologia Brazil
Vartolomei Andra SAT Austria
Vašina Jozef Elektro Recycling Slovakia
Vaughan-Williams Victoria Environment Agency United Kingdom
Vautier Marc Orange France
Vazirani Rakesh TUV Rheinland Hong Kong
Veglio Francesco Univ. of L'Aquila Italy
Verschuere Klaus Cisco Belgium
Vidorreta Itziar GAIA Spain
Villarroel Tatiana Altran Netherlands
Visser Jan Jacomij Netherlands
Vojinovic Tanja Austria
Vojinovic Daniela Austria
von Angerer Andreas oekom research Germany
Vranes Sanja Institut Mihajlo Pupin Serbia
Vugs Javorka Clariant International Switzerland
Wachholz Carsten EEB Belgium
Wang Molin BIBA Germany
Watling Robert ENVIRON International United Kingdom
Wendschlag Hans Hewlett-Packard Sweden
Werth Annette Sony Computer Japan
West Tedie Siemens USA
Wiens Kyle iFixit Germany
Wieser Petra WKO Austria
Wiik Carina Fed. of Finnish Techn. Ind. Finland
Wilden Rudolf ERM Germany
Willems Maddy Belgium
Williams Ian Univ. of Southampton United Kingdom
Wist Gerhard Austria
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Woźniak Leszek Politechnika Rzeszowska Poland
Yamada Shuho Meiji Univ. Japan
Yin Jessica YS UMC Taiwan
Zanin Sabrina ERP Italia Italy
Zonneveld Norbert EERA Netherlands
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2 SECOND DISSEMINATION – HydroWEEE Demo dissemi-
nation event, Milano, Italy
Dissemination: Urban Mining of Rare Earths from WEEE – HydroWEEE Demo project: a successful experience of the EU-FP7
Date: October 15, 2014
Location: Relight, Rho (MI), Italy
Participants: 76
2.1 Agenda
2.2 Participants n° NAME COMPANY
1 Fabrizio D’Amico Ecolamp
2 Federico Schivo Ecolamp
3 Giulio Alonzi Ecolamp
4 Marco Sala Ecodom
5 Laura Borghi Ecodom
6 Veronica Calini Ecolight
7 Mauro Galbiati Raecycle
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8 Alessandro Alberici Ecorit
9 Danilo Bonato Remedia
10 Sergio Patacchini Remedia
11 Valentina De Pellegrin Provincia di Milano
12 Dario Sciunnach Regione Lombardia
13 Massimo Sgambelloni Comune di Rho
14 Gabriele Canè AssoRAEE
15 Fabrizio Longoni Centro di Coordinamento RAEE
16 Riccardo Balestra Federchimica
17 Francesco Baiguera ITIA CNR
18 Elisabetta Chierici ITIA CNR
19 Andrea Degiorgi ITIA CNR
20 Golboo Pour Abdollahian ITIA CNR
21 Laura Silipo ITIA CNR
22 Dario della Sala ENEA
23 Claudia Brunori ENEA
24 Giuseppe De Vincenzis ENEA
25 Stefano Pucciarmati ENEA
26 Danilo Fontana ENEA
27 Francesco Veglio’ Ecorecycling - UNIVAQ
28 Federica Forte Politecnico di Milano
29 Viola Corbellini Politecnico di Milano
30 Alida Falbo Politecnico di Milano
31 Federica Forte Politecnico di Milano
32 Demetrio Pitea Università Bicocca
33 Cinzia Acaia
34 Luisa Barbieri Università di Modena
35 Alessandro Borghi Università di Modena
36 Roberta Guzzinati Università di Ferrara
37 Bernd Kopacek Sat-research
38 Andrea Ratti Centro Servizi Raee
39 Francesco D'Oria Centro Servizi Raee
40 Carlo Brenco Ri-Eco
41 Andrea Bubiani Indeco
42 Giorgio Pelucchi Indeco
43 Fabrizio Caon Forrec
44 Iacopo Manco Riccoboni
45 Marco David David
46 Mario Tiengo Simar
47 Giovanni Ciceri RSE
48 Alessandro Danesi Seval
49 Alfredo Ardenghi Seval
50 Nicolae Stanescu Greentronics
51 Moise Tschanen Gavia
52 Giovanni Aliboni Energica S.r.l.
53 Fabio Giannini Ecoltecnica
54 Giancarlo Battegazzore Ecoltecnica
55 Fortunata Sgobbi PICI metalli
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56 Lorenzo Pici PICI metalli
57 Sara Velutti PICI metalli
58 Andrea Napoli Dynacast
59 Alessandro Silvestri NME
60 Massimiliano Valle Petroceramics
61 Gianna Martinengo Donne e Tecnologie
62 Cristina Guatteri Samsung
63 Simone Marobito Samsung
64 Robert Truscott EACR
65 Joachim Ulmer TBC
66 Patrizia Carimando
67 Elio Vitolo Magico
68 Giorgio Borin Magico
69 Maria Beatrice Celino Eco
70 Zorni Kratchmarova Mondadori
71 Alessandro Gobbi ICP
72 Alberto Enrico Nava Credito Bergamasco
73 Daniela Piera Malinverni Unicredit Banca
74 Daniela Canciani
75 Stefano Rossi Edmond De Rothschild
76 Lella Costa
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3 THIRD DISSEMINATION – HydroWEEE Demo dissemina-
tion event, Alexandria, Romania
Dissemination: FABRICII MOBILE DE RECUPERARE PRIN PROCESE HIDRO-METALURGICE A METALELOR PREȚIOASE ȘI CRITICE DIN DE-SEURILE DE ECHIPAMENTE ELECTRICE SI ELECTRONICE (DEEE)
Date: September 30, 2015
Location: Greentronics, Alexandria, Romania
Participants: 24
3.1 Agenda
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3.2 Participants Cristian Aionesei Greentronics
Gabriela Avram National Television, TVR
Dana Bana Environment Guard
Francesca Beolchini UNIVPM
Ida de Michelis Ecorecycling
Victor Dragusin Mayor of Alexandria
Adelina Dumitrascu Ecotic, Colective Association
Bibiana Ferrari Relight
Bernd Kopacek ISL
Nicoleta Lazar Ecotic, Colective Association
Nicolae Manole Rematholding
Dan Modoran Greentronics
Marin Niculcea Chamber of Commerce
Francesca Pagnanelli Sapienza University of Rome
Nebojsa Panjevac IMP
Radu Popescu E-Recycling Services
Mihai Porojan Rorec, Colective Association
Ion Radulescu Environment Agency
Serena Sgarioto Relight
Nicoale Stanescu Greentronics
Laura Tiganila Environ, Colective Association
Luciana Vasile Rorec, Colective Association
Francesco Veglio Ecorecycling
Valentina Voicu Environment Agency
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4 FOURTH DISSEMINATION – Electronics Goes Green 2016,
Berlin, Germany Dissemination: Electronics Goes Green 2016
Date: September 7-9, 2016
Location: Seminaris Campus Hotel, Berlin, Germany
Participants: 370
4.1 Agenda B7: Recycling of Critical Metals - Hydrometallurgical Processes Time: Thursday, 08/Sep/2016: 4:00pm - 6:00pm Session Chair: Bernd Kopacek
Location: Room B
4:00pm - 4:30pm
Recovery of Critical Metals from Lamps and CRTs
Valentina Innocenzi1, Ida De Michelis1, Bibiana Ferrari2, Serena Sgarioto2, Daniele Gotta2, Bernd Kopacek3, Francesco Vegliò1 1Department of Industrial Engineering, of Information and Economy, University of L'Aquila, L'Aquila, Italy; 2RELIGHT S.R.L, Rho (Mi-lan), Italy; 3ISL-Kopacek KG, A-1140 Vienna, Austria
The disposal of waste electrical and electronic equipments (WEEE) is an important worldwide problem. An improper treatment of them leads to terrestrial and atmospheric pollution as a results of heavy metal dispersion and incineration, respectively. Moreover the elec-trical and electronic devices contain a series of interesting metals, from base to precious elements (gold, palladium) as well as critical metals (like rare earths).
By recycling of these wastes it is possible to have: 1) economic benefits, linked to sale of recovered substances; 2) environmental benefits, because there is not diffusion of the dangerous metals and the exploitation of primary sources for extraction of metals is reduced. For these reasons, recycling of electronic devices is very interesting and recycling policies are gaining more attention.
In this current scenario, the research activities of European HydroWEEE projects, in the ambit of 7 FP Work Program, were realized. The work was focused on the recovery of base, precious and critical metals from WEEE.
In the present manuscript the HYDROWEEE processes focused on the treatment of fluorescent materials of lamps and cathode ray tubes (CRTs) are described. These wastes are rich in REs, in particular fluorescent lamps contain yttrium (15%), europium (0.6%), terbium (0.4%), gadolinium (0.3%), lanthanum (0.6%) and cerium (0.7%). CRT powders contain 14% of Y and 0.88% of Eu.
The initial material requires a pretreatment at high temperature; after that, the REEs are dissolved with acid, recovered as oxalates and finally calcined to obtain oxides. As regards CRTs the pretreatment is not necessary. The oxide coming from lamps process is a mixture of yttrium, gadolinium, terbium, europium, lanthanum and cerium with purity more than 98%, rich in Y and Eu following by the other rare earths. The total recoveries are 70% Y, 100% Eu, 60% Tb, 40% Ce, La and Gd. For CRTs, the oxide is a mixture of yttrium and europium with a purity of 96% and a REs recovery greater than 70%.
The activities have demonstrated the technical feasibility of the processes. Regarding the economic aspect, it is clear that the balance is influenced by REEs market subjected to large fluctuations. For our process, the product should have a price greater than 20 €/kg. New implementations are continuing on lab and industrial scale to reduce the cost of processes and increase the profit.
4:30pm - 5:00pm
Recovery of Critical Metals from LCDs and Li-Ion Batteries
Alessia Amato1, Laura Rocchetti1, Viviana Fonti1, Thomas Abo Atia2, Pietro Altimari2, Emanuela Moscardini2, Luigi Toro2, Francesca Pagnanelli2, Francesca Beolchini1 1Università politecnica delle Marche, Ancona, Italy; 2Sapienza Università di Roma, Rome Italy
In 2014, the European Union identified 20 raw materials critical for economic importance and high supply risk. Indium and cobalt, largely used in the electronic industry, are included in this list. The aim of this work is to present the main results achieved within the EU-FP7 Project HydroWEEE-Demo dealing with the recovery of indium and cobalt from electronic wastes.
LCD scraps and end of life Li-ion batteries are evaluated as secondary resources of indium and cobalt, respectively. With this pur-pose, an indium recovery process was developed carrying out an acidic leaching, followed by a zinc cementation. The first step al-lowed a complete indium extraction using 2M sulfuric acid at 80°C for 10 min. In order to increase the process sustainability, we used a cross-current configuration that let to an increase of metal concentration and a decrease of reagents consumption. The subsequent cementation step allowed an indium recovery higher than 90%, using 5 g/L of zinc powder at pH 3 and 55°C for 10 min. Moreover, a cobalt and lithium recovery process was developed for the exploitation of lithium ion battery. Experimental results denoted that elec-trodic materials obtained by mechanical treatment of significant amounts of wastes presented a great heterogeneity due to both the variability of batteries on the market and also to contamination of ferrous and non ferrous metals. Co and Li were extracted from elec-
20
trodic powder according to these main operations: leaching (by acid reducing conditions), primary purification (by precipitation of metal impurities), solvent extraction with D2EPHA (for removal of metal impurities), solvent extraction with Cyanex 272 (for separation of cobalt from nickel), cobalt recovery (by precipitation as cobalt hydroxide), evaporation and Li recovery by crystallization as lithium carbonate. Co products with 95% purity were obtained by implementation of the process including the solvent extraction stages with D2EHPA and Cyanex 272.
5:00pm - 5:30pm
Recovery of Base and Precious Metals from Waste Printed Circuit Boards and Spent Catalysts by Hydrometal-lurgical Processes
Ionela Birloaga1, Valentina Innocenzi1, Ida De Michelis1, Bernd Kopacek2, Francesco Veglio1 1Department of Industrial and Information Engineering and Economics, University of L’Aquila, L’Aquila, Italy; 2ISL-Kopacek KG, Vien-na, Austria
In this work, we summarize the undertaken research activities for the recovery of base and precious metals from waste printed circuit boards and spent industrial and automotive catalysts. All the activities have been performed to achieve easily handling hydrometallur-gical operations when is thinking to their application at industrial scale level. Moreover, the environmental and economic points of views were also important aspects to be considered in the development of such processes. Therefore, considering the fact that both wastes contain a considerable amount of valuable elements, mainly Cu, Au and Ag in WPCBs and Ce and Pt, Pd in spent catalysts, our main core is to develop sustainable processes for their recovery. Thus, within HydroWEEE Demo project, the replacing and im-proving of the already developed procedures into HydroWEEE project have been achieved using chemical processes like precipita-tion/cementation to reduce the already dissolved base and precious metals into acid solutions. This process led to increases of proce-dure economy by the replacing of electrowinning procedure with aforementioned operation. The continuous procedures optimization resulted in realization of innovative hydrometallurgical methods like counter and cross current methods for selectively leaching of Cu by Au and Ag from WPCBs. These procedures have reduced considerably the amount of chemicals to be used and, furthermore, the process economy. The developed hydrometallurgical processes for the metal recovery from FCC spent catalysts included dissolution of the materials using sulfuric acid or nitric acid, selective precipitation of rare earths as sulphates or solvent extraction using D2EHPA dissolved in n-heptane of kerosene, followed by stripping with nitric acid and finally RE precipitation as oxalates. Considering this, over 70% of REEs recovery efficiency has been achieved. The experimental tests for recovery of metals from automotive catalysts have shown that it was possible to extract both cerium and precious metals. The hypnotized process included the following steps: leaching with sulfuric acid and recovery of cerium as sulphates, the residual cake was leaching with hydrochloric acid in presence of an oxidant agent. In this way, 50% of Fe, Al and Ce have been recovered into solution. In addition, a reach solution with 60 mg/L of Pt has been achieved. Other experiments are currently in progress to quantify the yields and study the recovery process of precious metals from automotive catalysts. The overall achieved recovery from waste printed circuit boards was of 95% for Cu and 80% for Au and Ag.
5:30pm - 6:00pm
Practical Experiences Operation Stationary and Mobile Hydrometallurgical Plants
Serena Sgarioto1, Bibiana Ferrari1, Ida De Michelis2, Bernd Kopacek3 1RELIGHT S.R.L, Rho (Milan), Italy; 2ECORECYCLING S.R.L, Rome, Italy; 3SAT, Vienna, Austria
The main objective of this abstract is the presentation of a successful case study of urban mining within the European FP7 project HydroWEEE-DEMO (2012-2016). The project dealt with the recovery of rare and precious metals from electrical and electronic equipment (WEEE) including spent fluorescent lamps and cathode ray tubes (CRT). The objective of the project was to build 2 indus-trial demonstration plants (1 stationary and 1 mobile) in order to test the performance and prove the viability of the processes from an integrated point of view (technical, economical, operational, social) including the assessment of its risks and benefits to the society and the environment.
After an extensive research and testing campaign both in pilot plant and in laboratory scale, a hydrometallurgical process was devel-oped and two plants were built. The plants are running in two European SMEs for the collection and treatment of WEEE: the stationary plant, located in Relight’s site in Milan (Italy) and the mobile one in Greentronics’s site in Romania.
The stationary and mobile plants, which work in batches, can treat 600 kg/batch and 420 kg/batch of powder on one shift, respectively. Both CRTs and lamps powders are treated with the same hydrometallurgical process.
The stationary plant consists of three main reactors, one for each phase of the process, and three filter presses. Powders are sieved and big size particles of glass are removed (> 1 mm). A hopper feeds with powders the first reactor in which the leaching reaction takes place. After the first filtration, the leaching liquor is sent to the second reactor for the precipitation of rare earths elements. After a second filtration, the residual acid solution is sent into the third reactor for the purification with lime, while filter press cake is the rare earths concentrate product. In the stationary plant a high purity of the final rare earths concentrate can be achieved (more than 95%).
In the mobile plant, the equipment is placed inside two containers, thermally insulated. In this plant are present: two jacketed reactors (steel reactors); two PP reactors; two filter-presses (the first one dedicated to filter leaching suspension or wastewater after treatment with lime, the second one is dedicated to product recovery to prevent contamination); and all the utilities required in the processes. Preliminary tests, on lamp powder, showed a recovery of about 70%, with a purity greater than 75% as REs concentration.
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4.2 Participants
Fern Abrams IPC United States
Rodrigo Aguilar INVENTEC PERFORMANCE CHEMICALS France
Micheal Oluwatosin Akintunde TEM TECHNOLOGY PTY LTD South Africa
Jonas Allen Green Electronics Council United States
Hampus Korhan André Chalmers University Sweden
Karen S. Andreassen VELUX A/S Denmark
Toon (A.M.M.) Ansems TNO Netherlands
Rachel Horta Arduin Institute for Technological Research (IPT) Brazil
Pierre-Marie Assimon Eco-systèmes France
Stefan Ast Fraunhofer IZM Germany
Conny A. Bakker TU Delft Netherlands
Colton Eugene Bangs Umicore Precious Metals Refining Belgium
Yifaat Baron Oeko-Institut e.V. Germany
Mikel Barriuso Gaiker Spain
Alexander Baruschke Stena Technoworld GmbH Germany
Adrian Beard Clariant Plastics & Coatings GmbH Germany
Grischa Beier IASS Potsdam Germany
Stephan Benecke TU Berlin Germany
Enrico Benetto Luxembourg Institute of Science and Technology Luxembourg
Fredrik Benson El-Kretsen AB Sweden
Francesca Beolchini Università politecnica delle marche Italy
Rasmus Bergström Stena Technoworld AB Sweden
Françoise Berthoud CNRS France
Anton Berwald Deloitte France
Solange Blaszkowski Philips Netherlands
Christina Bocher DEKRA Assurance Services GmbH Germany
Andreas Bohnhoff European Recycling Platform (ERP) France
Jana Bolling Hewlett-Packard Enterprise Germany
Heinz Werner Böni EMPA Switzerland
Mélanie Bordignon Alstom France
María D. Bovea Universitat Jaume I Spain
Andrew Brock RIO Tronics Corp. United States
Roland Brossel Airbus Defence & Space Germany
Winfried Bulach Oeko-Institut e.V. Germany
Scott Butler European Recycling Platform (ERP) United Kingdom
Luca Campadello ECODOM Italy
Arne Campen European Recycling Platform (ERP) Germany
Keman Cantürk MetalArt Germany
Rikke Carlsen NIRAS A/S Denmark
Helena Castrén Microsoft Finland
Laura Cazacu S.C.Schaeffler Romania S.R.L Romania
Laura Iulia Cernea Huf Hülsbeck & Fürst GmbH & Co. KG Germany
Matthew Chalkley IBM Ireland
Perrine Chancerel TU Berlin Germany
22
Carole Charbuillet ARTS France
Rhys Gareth Charles Swansea University United Kingdom
Jahau Lewis Chen National Cheng Kung University Taiwan, R.O.C.
Christian Clemm TU Berlin Germany
Christine Cole Nottingham Trent University United Kingdom
Marcello Colledani Politecnico di Milano Italy
Tim Cooper Nottingham Trent University United Kingdom
Vlad Coroama KTH Royal Institute of Technology Sweden
Riccardo Corridori COCIR Belgium
Damian Coughlan University of Limerick Ireland
Hans Craen European Portable Battery Association (EPBA) Belgium
Martina Creutzfeldt MCC Germany
Daniel Patrick Cronin Pooling Partners Netherlands
Carl Johan Dalhammar Lund University Sweden
Johan Daniëls Belgian Ministry of Environment Belgium
Yannick De Bock KU Leuven Belgium
Lisa Dean EC4P Recycling Compliance United Kingdom
Stefanie Degreif Oeko-Institut e.V. Germany
Christina Deinhardt WEKA FACHMEDIEN GmbH Germany
Otmar Karl Deubzer Fraunhofer IZM Germany
Paris Dieker Blue Coat Systems, Inc. United States
Carsten Dietsche Materials Data Working Group Germany
Gergana Dimitrova Fraunhofer IZM Germany
Tom Dobs Fraunhofer IZM Germany
Peter Douglas Swansea University United Kingdom
Yves Dubois Valeo Belgium
Joost Duflou KU Leuven Belgium
Mahir Duman VideoArt Germany
Patrick Eagan University of Wisconsin-Madison United States
Anne Edelmann MCC Germany
Ivo Edlund Elektronikåtervinning i Sverige Sweden
Amaia Egia Amaia Egia Spain
Stefanie Enders 1cc GmbH Germany
Alireza Esfandyari University of Erlangen-Nuremberg/ FAPS Germany
Claudio Fernández Lurederra Research Centre Spain
Eleonora Fiore Politecnico di Torino Italy
Thomas Fischer Landbell AG für Rückhol-Systeme Germany
Colin Fitzpatrick University of Limerick Ireland
Kerstin Fleischer Greenpeace e.V. Germany Germany
Sebastiaan, FJ Flipsen TU Delft Netherlands
Maxime Furkel Lexmark Belgium
Ivonne Galleske-Hartung Fraunhofer IZM Germany
Margarida Gama thinkstep AG Germany
José Augusto Garcia CTI Renaro Archer Brazil
Andrea Gassmann Fraunhofer Projektgruppe IWKS Germany
Erin Margaret Gately Green Electronics Council United States
Pierre Gaudillat European Commission Spain
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Nouha Gazbour CEA France
Torsten Gerl iPoint Systems GmbH Germany
Jordan Girling EC4P Recycling Compliance United Kingdom
Alexander James Gnanapragasam Nottingham Trent University United Kingdom
Santiago González Ocón Eco-efficient Design Switzerland
Sven Grieger Fraunhofer ISC Germany
Hansjoerg Griese alumnus IZM Germany
Klaus Grobe ADVA Optical Networking SE Germany
Dorleta Guarde INDUMETAL RECYCLING, S.A. Spain
Martin Guldhed Stena Technoworld AB Sweden
Nicoleta Gurita TU Bergakademie Freiberg Germany
Michelle Guzman Brechu United Nations University (UNU) Germany
Rob Guzzo Apple Inc. United States
Hina Habib United Nations University (UNU) Germany
Christian Hagelüken Umicore Germany
Christoph Hagios AURUBIS AG Germany
Dan Halman MAI - WEEE Recycling Israel Israel
Karima Hamouda TU Berlin Germany
Carol Handwerker Purdue University United States
Minako Hara NTT Japan
Matthias Harsch LCS Life Cycle Simulation GmbH Germany
Hidetaka Hayashi Shibaura Institute of Technology Japan
Megann Head Steelcase United States
Marie Helms Rasmussen VELUX A/S Denmark
Youngchai Heo Samsung Electronics South Korea
Elisabeth Herbeck Die Wiener Volkshochschulen GmbH Austria
Maria Hernandez Sony Europe Belgium
Lucía Herreras WEEE Forum Belgium
Kathrin Hesse TH Köln Germany
Daniel Hinchliffe Gesellschaft für Internationale Zusammenarbeit (GIZ) Germany
Eva Susanne Hink 1cc GmbH Germany
Ralph Hintemann Borderstep Germany
Roland Hischier EMPA Switzerland
William F. Hoffman III UL Environment United States
Florian Hofmann Fraunhofer IZM Germany
Christian Hohaus Fraunhofer IML Germany
Ole Hölck Fraunhofer IZM Germany
Lance HongWei Huang National Taipei University of Technology Taiwan, R.O.C.
Saskia Huber Fraunhofer IZM Germany
Matthias Huisken iFixit Germany
Jaco Huisman United Nations University (UNU) Germany
Noelle Humenick IEEE Standards Association United States
Valeria Ibáñez-Forés Universitat Jaume I Spain
Valentina Innocenzi University of L'Aquila Italy
Dirk Israel MetalArt Germany
Brian Ivory Intel Ireland
Johannes Jaeschke Fraunhofer IZM Germany
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Walter Jager ECD Compliance Canada
Anastasia Janzen Fraunhofer IZM Germany
Michael Johnson University of Limerick Ireland
Youngdo Jung Korea Environmental Industry & Technology Institute (KEITI)
South Korea
Stephen Kaboggoza Azam Media Uganda Limited Uganda
Sascha Kappel BSH Home Appliances Germany
Jessica Kazuch Fraunhofer IZM Germany
Deepali Sinha Khetriwal Sofies India
Alexander H. King The Ames Laboratory United States
Yusuke Kishita The University of Tokyo Japan
Joachim Kleylein-Feuerstein Fraunhofer-Projektgruppe Regenerative Produktion Germany
Karin Klitgaard The Confederation of Danish Industry Denmark
Inge Knapen Close the Gap International Belgium
Thomas Knopp Panasonic Europe Ltd. Germany
Hideki Kobayashi Osaka University Japan
Yoshinori Kobayashi Toshiba of Europe Limited United Kingdom
Lars Koch Sony Europe Belgium
Rainer J. Koehnlechner Hamos GmbH Germany
Oyeshola Kofoworola Fraunhofer IZM Germany
Bernd Kopacek SAT Austria
Jan-Philip Kopka Fraunhofer Institute for Material Flow and Logitsics IML Germany
Sabine Krattiger Immark AG Switzerland
Michael Krüger TU Berlin Germany
Iza Kruszewska Greenpeace United Kingdom
Hiroshi Kubo Chiba Institute of Technology Japan
Ruediger Kuehr United Nations University (UNU) Germany
Fanny Lambert University of Liège Belgium
Klaus-Dieter Lang Fraunhofer IZM Germany
Christoph Lange Deutsche Telekom Germany
Xavier Lantoinette RECYLUM France
Kun Mo Lee Ajou University South Korea
Chih-An Lee Greenpeace Taiwan, R.O.C.
Hyejin Lee Samsung Electronics South Korea
Pascal Leroy WEEE Forum Belgium
Romain Letenneur WEEELOGIC France
Sheng-Lung Lin Chaoyang University of Technology Taiwan, R.O.C.
Jason Dean Linnell National Center for Electronics Recycling United States
Maria Ljunggren Söderman Chalmers University of Technology Sweden
Amund Nordli Loevik EMPA Switzerland
Tiina-Kaisa Lohi Nokia Finland
Cordula Loistl OSRAM (LEDVANCE) Germany
Astrid Lorenzen FairLötet e.V. Germany
Mario Loritz Robert Bosch GmbH Germany
Ian david Lovell Teleplan International United Kingdom
Elisa Luthard MCC Germany
En Ma Shanghai Polytechnic University China
Federico Magalini United Nations University (UNU) Germany
25
Jens Malmodin Ericsson Sweden
Boris Manev Epson Europe B.V. Netherlands
Nikolaus Marbach Ecovation GmbH Germany
Thomas Marinelli Philips Lighting NV Netherlands
Julian Christoph Maruschke LCS Life Cycle Simulation GmbH Germany
Max Marwede TU Berlin Germany
Max Marwede TU Berlin Germany
Fabrice Mathieux European Commission Italy
Mitsutaka Matsumoto AIST Japan
Larisa Maya-Drysdale Viegand Maagøe Denmark
Kate McMahon University of Limerick Ireland
Christina Meskers Umicore Precious Metals Refining Belgium
Ana Cristina Mestre Nottingham Trent University United Kingdom
Jörg Metze f50 Germany
Andreas Middendorf Fraunhofer IZM Germany
Nozomu Mishima Akita University Japan
Martin Möller Oeko-Institut e.V. Germany
Eike Möller University of Freiburg Germany
Ricardo Andres Montero Bermudez Yachay Public Company Ecuador
Laure Morice Recylum France
Klaus Mörtl EPCOS AG Germany
Klaus Johannes Mueller Infineon Technologies Germany
Peter Klaus Hermann Müller Hewlett-Packard GmbH Germany
Tomomi Nagao NTT Japan
Tsubasa Naito Akita university Japan
Satoko Nasu Chiba University Graduate School of Engineering Japan
Georg Niedermeier OSRAM GmbH Germany
Tanya Nimalasuriya Océ Technologies B.V. Netherlands
Nils F. Nissen Fraunhofer IZM Germany
Andreas Nolte Aurubis AG Germany
Julia L.K. Nußholz Lund University Sweden
Veronica O'Hanlon British Telecom (BT) United Kingdom
Guido Odendahl German Environment Agency Germany
Ines Oehme German Environment Agency Germany
Masahiro Oguchi National Institute for Environmental Studies Japan
Akihiro Oikawa Akita University Japan
Irina Oswald Apple GmbH Germany
Warren Jim Zachary Owili Greenleaf Services Limited Kenya
Rainer Pamminger Technische Universität Wien Austria
Elin Johanna Paulander Elektronikåtervinning i Sverige Sweden
Luise Pawlak Fraunhofer IZM Germany
James Pearson EC4P Recycling Compliance United Kingdom
Jef Peeters KU Leuven - University of Leuven Belgium
Victoria Pérez Belis Universitat Jaume I Spain
Olivier Philippot Greenspector France
Daniela Pigosso Technical University of Denmark Denmark
Marcos Batista Cotovia Pimentel FACTI Brazil
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Andrius Plepys Lund University Sweden
Miloš Polák RETELA, s.r.o. Czech Republic
Davide Polverini European Commission Belgium
Daisy Poon Cisco Systems, Inc. United States
Flora Astrid Poppelaars Delft University of Technology Netherlands
Sebastian Porombka University of Paderborn Germany
Siddharth Prakash Oeko-Institut e.V. Germany
Charles Michel Proian Lexmark International EMEA France
Marina Proske Fraunhofer IZM Germany
Malkiel Rahamim MAI - WEEE Recycling Israel Israel
Mette Rames Viegand Maagøe Denmark
Elsa María Raverdy Glocalize SAS France
Max Regenfelder ReUse e.V. Germany
Antonia Sophie Reichwein OvGU Magdeburg Germany
Georg Reinecke MCC Germany
Woj Reinhardt MCC Germany
Eliette Restrepo EMPA Switzerland
Nikolai Richter Fraunhofer IZM Germany
Jessika Richter IIIEE/ Lund University Sweden
Ernst Richter Leiterplatten-Layout Germany
Michael Riess VDE Testing and Certification Institute Germany
Wayne E. Rifer Green Electronics Council United States
Brian Riise MBA Polymers Inc. Austria
Thomas Ritter Fraunhofer IZM Germany
Michael Rothe Fraunhofer IZM Germany
Vera Susanne Rotter Technische Universität Berlin Germany
Sarah Rottner JAO gGmbH Germany
Elizabeth Rueda Bitkom Servicegesellschaft mbH Germany
Charissa Rujanavech Apple Germany
Johann Russinger Siemens Healthcare GmbH Germany
Atsushi Sakurai NIPPON TELEGRAPH AND TELEPHONE CORPORA-TION
Japan
Knut Sander Ökopol GmbH Germany
Manfred Santen Greenpeace e.V. Germany
Nuno Santos HP Netherlands
Ebipuado Sapre-obi Niger delta University Nigeria
Andreas Schiffleitner iPoint-systems / KERP Austria
Karsten Schischke Fraunhofer IZM Germany
Mathias Schluep World Resources Forum Association Switzerland
Martin Schlummer Fraunhofer IVV Germany
Knut Schmidt Maquet GmbH Germany
Alexander M. Schmoldt Murata Electronics Europe Netherlands
Martin Schneider-Ramelow Fraunhofer IZM Germany
Julie M. Schoenung University of California-Irvine United States
Carla Schulte-Fischedick MÖRRR Germany
Maik Schulze MIKA-Fotografie Germany
Frederic Sehr TU Berlin Germany
Peter Semionyk Fraunhofer IZM Germany
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Serena Sgarioto RELIGHT Italy
Amnon Sharoor MAI - WEEE RECYCLING COOPERATION ISRAEL Israel
John Shegerian Electronic Recyclers International United States
Hamed Shirani Bidabadi Fraunhofer IZM Germany
Hans-Paul Siderius Netherlands Enterprise Agency Netherlands
Julie Sinistore WSP | Parsons Brinckerhoff United States
Janusz Sitek Tele and Radio Research Institute Poland
Chris Slijkhuis Müller-Guttenbrunn GmbH Austria
Lauri Smalén Nokia Finland
Eelco Smit Philips International BV Netherlands
Solveig Solveig TechProtect GmbH Germany
Uffe Sønderhousen NIRAS A/S Denmark
John Spear epi Consulting United Kingdom
Michael Spielmann Quantis GmbH & Co.KG Germany
Markus Spitzbart Die Wiener Volkshochschulen GmbH Austria
Lida Stengs EERA Netherlands
Howard Stimpson EC4P United Kingdom
Lutz Stobbe Fraunhofer IZM Germany
Stefan Straube TU Berlin Germany
Steven Studinski MetalArt Germany
Markus Stutz Dell Germany
Mårten Sundin El-Kretsen Sweden
Johanna Sydow Germanwatch Germany
Ingrid Tams Groupe SEB France
Adrian Tan essensus France
Josef Tapper Elektronikåtervinning i Sverige Sweden
Paolo Tecchio Joint Research Centre - European Commission Italy
Ramon Teixido HP Inc Spain
Atsushi Terazono National Institute for Environmental Studies Japan
Jean-Pierre Theret Dassault Systèmes France
Esther Thiébaud EMPA Switzerland
Ervin Tihanyi Inter-Metal Recycling Kft. Hungary
Paolo Tosoratti European Commission Belgium
Tina Trinks Fairphone BV Netherlands
Albert Tsang Google Inc. United States
Jordan Leslye Tse Facebook United States
Aidan Turnbull BOMcheck United Kingdom
Yasushi Umeda The University of Tokyo Japan
Sonia Valdivia World Resources Forum Switzerland
Kurt Van der Herten IBM Belgium
Marius van Dijk Fraunhofer IZM Germany
Thomas Van Nieuwenhuyse Eco-systèmes France
Jan Van Rompay Lumileds Germany
Saija Vatanen VTT Finland
Marc Vautier Orange France
Francesco Veglio' University of L'Aquila Italy
Scott Venhaus Arrow Electronics, Inc United States
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Nadja von Gries Wuppertal Institute Germany
Malcolm Waddell WRAP United Kingdom
Claudia Wagenfuehr Tridapalli
Steelcase Germany
Eduard Wagner TU Berlin Germany
Swetlana Wagner Fraunhofer IVV Germany
Bob Watling BOMcheck United Kingdom
Christian Wegener Siemens AG Germany
Hans Wendschlag Hewlett-Packard Inc. Sweden
Katherine Ann Whalen Lund University Sweden
Kyle Wiens iFixit United States
Christof Windeck Heise Medien Germany
Janis Winzer Fraunhofer IZM Germany
Arjen Wittekoek Coolrec BV Netherlands
Zhen Wu Siemens Healthcare GmbH Germany
Wilhelm Wutzler Fraunhofer IZM Germany
Ryo Yokoyama TDK Corporation Japan
Hannes Zedel Fraunhofer IZM Germany
Simon Zeeb Fraunhofer IZM Germany
Tanja Zick Fraunhofer IZM Germany
Norbert Zonneveld EERA Netherlands
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