Autorenporträt
Prof. Tanay Sidki Uyar Çankırı/TURKEY, August 19, 1953 Robert Academy Istanbul Turkey 1967–1971 Boğaziçi University Faculty of Engineering, Department of Electrical Engineering, Istanbul Turkey 1971–1976 Boğaziçi University Faculty of Engineering, Nuclear Engineering Department, Istanbul Turkey 1976–1980 PhD: Yıldız Technical University Mechanical Engineering Department, Istanbul Turkey 1990 Senior Research Scientist, TUBITAK Marmara Scientific and Industrial Research Institute of Energy Systems Research Department , Gebze Kocaeli Turkey December 1981-May 1992,September 1993-February 1994 Assistant Prof. Dr. Kocaeli University, Faculty of Technical Engineering, Department of Electrical Engineering, İzmit Kocaeli Turkey Associate Prof. Dr. Marmara University Faculty of Engineering, Department of Mechanical Engineering, 2000- Prof., Marmara University Faculty of Engineering, Department of Mechanical Engineering, Istanbul Turkey, Head Energy Section, 2009- Visiting Professor of Mechanical Engineering, CERL, UOIT, Oshawa, ON, Canada, 2015-2016 Membership of Professional Organizations: Vice President, WWEA (World Wind Energy Association) Vice President, EUROSOLAR (European Association for Renewable Energies) Vice President, WBA (World Bioenergy Association) Member, Committee of Chairpersons, WCRE (World Council for Renewable Energy) Ambassador, Global Campaign on 100 % Renewable Energy President, EUROSOLAR Turkey (Renewable Energy Association of Turkey) President, BİYODER (Bioenergy Association of Turkey) Chairman, (BSNN) Black Sea NGO Network President, KADOS (Kadikoyu Friends of Science, Culture and Art Association) Coordinator, TÜRÇEP (Environmental NGOs Platform of Turkey) Coordinator, TEP (Clean Energy Platform of Turkey) Founding Member, TUREB (Turkish Wind Energy Association) Founding Member, GÜNDER (Solar Energy Society of Turkey)
Schlagwörter
zero carbon cities, energy transition, smart grid technology, renewable energy storage, IRENEC conference, energy proceedings, energy decision makers, energy efficiency