SMART CITY SIBIU –PILOT PROJECT CONTENT 1. 2. 3. 4. 5. 6. SMART CITY, element of SMART GRIDS City of SIBIU - Statistics Optimising Energy Systems Pilot Project - Financing Pilot Project implementation - Calendar Developers’ Consortium 2 1. SMART CITY - element of SMART GRIDS 1.1. European Strategy • 2020 - Confirmation of three 20% targets • 2030 - The Power Sector reduces its carbon footprint between 54 to 68% • 2050 - A Roadmap for moving to a competitive low carbon economy - Reducing GHG emissions by 80-95% - A fully decarbonised Power Sector 3 1.2.SMART System of TOMOROW Local Admin School s Hospitals Services T&G 4 1.3. SMART CITY • Frindliness towards the environment • Use of information and communication technologies as tools of smart management • Ultimate goal of sustainable development • Improves the quality of life and local economy,trough moving towards a low carbon future 5 1.3 SMART CITY /2/ • SMART CITIES integrates in an innovative urban paradigm energy efficiency,by promoting both enviromental and economic sustainability.In a SMART CITY infrastructres,service and technologies together with the public and private sector contribute in saving energy and reducing CO2 emissions. • SMART GRIDS are key to the development of SMART CITIES 6 1.4. CONCEPT of CITY SMARTNESS City as a coordinator: “integrated approach” Third level city smartness Second level city smartness First level city smatness City as a policy maker: “governing the private urban actors” City as a public actor: “leading by example” Self-managing actions Managing actions of private actors Managing coordinative action 7 2.CITY of SIBIU -Statistics POPULATION : 149 000 Electricity Consumption: 6768MWh CHP PLANTS: 2 Administrativ buildings,schools,HP,>500qm: 95 8 3.OPTIMISING ENERGY SYSTEMS 3.1.Smart Grids technologies in Smart Cities • Electronic meters • Network automation • Efficient public lighting • Electric mobility • Integration of renewable energy resources • Energy storage systems • Devices increasing consumer consumption awareness 9 3. OPTIMISING ENERGY SYSTEMS/2/ 3.2.Building Stock Opportunities • Thermal upgrade of the envelope of existing buildings • Upgrade of lighting in buildings • Solar thermal for DHW • Efficient boilers and chillers • Heat pumps • Passive buildings • Smart metering 10 3. OPTIMISING ENERGY SYSTEMS/3/ 3.3 Transportation and Mobility Opportunities • Lowering mobility needs • Shift from individual to collective transport • Soft modes of transportation • Integration of EV in the urban environment 11 3. OPTIMISING ENERGY SYSTEMS/4/ 3.4.City management Opportunities • Upgrade of street and traffic lighting • CHP with district heating and cooling • Electric production from RES in the urban environment • Development of SMART GRIDS • ICT 12 3. OPTIMISING ENERGY SYSTEMS/5/ 3.5. ENERGY MANAGEMENT STRUCTURE Renewable resourses Buildings CITY ENERGY MANAGEMENT CENTER Energy Storage Efficient public lighting Electric vehicle 13 4. PILOT PROJECT FINANCING 4.1. EU-Financing DG-INFSO-Research OBJECTVE 6.5 Optimising Energy Systems in Smart Cities • Decision support and management and control systems for energy-efficient neighbourhoods • Validation phase in real- live environments in least two cities • Call openung:16.07.12 closing 27.11 .12 • Budget: 40 MEuro 14 4. PILOT PROJECT FINANCING/2/ 4.2. Cofinancing Opportunities • Local Authorities • Central Authorities • Loans 15 5. PILOT PROJECT IMPLEMENTATION CALENDAR 2012 Fesability Study 2013 DG-INFSO Evaluation 2013 Project Design 2014-2015 Implementation Developers' Consortium 16 6. DEVELOPERS’ CONSORTIUM Sibiu Municipality Romanian Energy Center Tractebel Engineering Emon Electric ECRO ….. 17 THANK YOU! office@crenerg.org www.crenerg.org 18