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Work Group 1 Workshop Brussels, July 28 2011. Agenda. Photonics contribution to energy efficiency Meeting DG Energy, Cabinet Oettinger 22nd June 2011. Who we are: The European Technology Platform Photonics21. Objective: Define a common Photonics strategy for Europe
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Photonics contribution to energy efficiency Meeting DG Energy, Cabinet Oettinger 22nd June 2011
Who we are: The European Technology Platform Photonics21 Objective: • Define a common Photonics strategy for Europe • Better transform knowledge into leading-edge products Membership: • More than 1700 members located in EU-27 • Balanced membership composition (industry-science) • SMEs represent the majority of the industrial members Executive Board
Walk the talk - Photonics‘ impact on EUs Future • Meeting with Commissioner Günther Oettinger, Commissioner of DG Energy • Role of photonics for Energy Efficiency • Faster market introduction • 2-3 concrete proposals for energy efficiency demonstration projects • Visit of President José Manuel Barroso at Photonics21 Member Trumpf in Germany • Importance of cutting-edge technology for Europe’s growth and competitiveness (e.g. PV) • Role of highly innovative Photonics21 and SME’s • Meeting with Commissioner Neelie Kroes • Photonics21 vision for the Common Strategic Framework • Demonstration projects e.g. in the field of energy efficiency • Offer from Neelie Kroes to make a proposal for a PPP between Photonics21 and the EC „Photo: TRUMPF GmbH + Co. KG"
Lighting: Facts & Figures • Europe is leading in Lighting • over 150 000 people employed in Europe • € 20 bn turnover of the European lighting industry • 40% European world market share in lamps • 35% Market share of European companies of global fixture market • > 1000 companiesin SME-dominated luminaire business NOW: European Lighting industry faces a paradigm shift to SSL 58 billion € 2007 global lighting market (taken from the Ph21 research agenda)
Solid State Lighting Realisation of SSL solutions brings multiple benefits Ecological: energy saving; reaching global sustainability targets > 60% of electricity for lighting can be saved annually* no hazardous materials Economical: new chances for profitable growth and more jobs CAGR 30% in next 5 years these jobs are in danger if shift is too slow Societal: greater visual comfort by higher functionality and quality higher safety energy saving saves money * Results for 2030 of the Ad-hoc Advisory Group „ICT for Energy Efficiency“, 2008
Large scale SSL: action to accelerate market acceptance Lead: Osram, Philips Lighting Broad range of lighting applications Reliable economic and ecologic data can be obtained by large scale demonstrators New business models to overcome the initial investment hurdle Understand the refurbishment of existing infrastructure Both improved energy efficiency AND better light quality To Complete airport (landing strips, taxi ways, gates, shops, restaurants, check-in zone, parking lots, …) 50,000 m2 all LED office buildings (open plan, conference rooms, hallways, restaurant, coffee corners, lobby, façade, parking area …) All public spaces in 200,000 people city (roads, streets, pedestrian areas, town hall, libraries, schools, city squares, monuments, museums, …) From 20 downlights in Arlanda airport 2,000 m2 LED office 50 street poles
Network of sensors Development of an open wireless network (data and power): a radical breakthrough in sensor based applications, e.g. smart energy, video surveillance and other security and safety application, where installation is more expensive than the technology Project supported by the development of high performance smart photonic sensors Several levels of the value chain have to be considered in an open way: Sensor level Equipment level where an open architecture has to be considered. Architecture and standards will have to cope with computation capability, communication and energy management: low level of electrical consumption, energy storage and scavengers Application software that can be deployed on the network
ICT Large Scale Project digit@l vill@ge
Economic importance of the EU telecom sector • In 2008 ICT sector represented: • 4.9 % of GDP (€545 billion) • 3 % of total employment (6.1 million employees) • accounted for 25 % of overall business expenditure in R&D and employed 32.4 % of all business sector researchers • 7 of the 10 largest telecoms operators in the world are from Europe • Major manufacturers in communications based in Europe: • Global figures of Alcatel-Lucent, Ericsson and Nokia (including nsn) • Total R&D: 10.1 billion € in 2009 • Total sales: 76.3 billion € in 2009 • Total employees: 287900 Sources: [1] European Commission: The 2010 report on R&D in ICT in the European Union. Joint Research Centre, Institute for Prospective Technological Studies, 2010. http://ipts.jrc.ec.europa.eu/publications/pub.cfm?id=3239 [2] European Commission: Monitoring industrial research: the 2010 EU industrial R&D investment SCOREBOARD. Joint Research Centre. DG Research, 2010. http://iri.jrc.ec.europa.eu/research/docs/2010/SB2010_final_report.pdf
ICT - digit@l vill@ge • Why? • Broadband connectivity to be established as the “fourth utility” by 2020: • European ICT companies still maintain global leadership and generate sizeable employment • Only a different way of living can ensure sizeable power and emission reduction • More facilities at home – SmartHome and SmartCity- to address societal challenges • New way of living needs new products & applications: opportunity for e2e sector from academia to SMEs What? • Digital Village is a test bed to trial technologies/products, solutions and new business/living models in real environment before EU global deployment • Enabler for new services and applications: ultra high-definition & 3D video, tele-working, gaming, m2m, e-Mobility, e-Government, e-Health, e-Energy and b2b
ICT - digit@l vill@ge • How? • Proposed Embodiment: • Build 5 to 7 “Digital Villages” across Europe • 30/50,000 households for each cluster • Mix of most advanced wireline/wireless access technologies (e.g. 10G PON, WDM PON, LTE, 4G Radio) • Access rates at state of the art and faster than 1Gps, performance to be kept updated • Advanced connectivity among Digital Villages and content delivery nodes • Academia: test bed for advanced technologies. Equipment and component vendors: showcase advanced technologies and interoperability.ISPs: test most advanced technologies and business models. SMEs and entrepreneurs: test bed for large scale testing and interoperability. Overall: data for regulatory aspects.
ICT digit@l vill@ge: core team • Equipment vendors: • Adva Optical • AlcatelLucent • Ericsson • nsn • Component vendors: • Oclaro • ISPs: • DT • France Telecom - Orange • TI • International bodies: • EISEE • EPIC • EU • Research Institutes: • Henrich Hertz Institute – Berlin • SMEs: • A number of SMEs mainly involved with energy e.g. Cube Optics
Energy Management Asset Management Off-shore wind turbines Building Automation Electric cars Electric cars Solar plants digit@l vill@ge – enabling the Smart Grids Communication Network Transmission: HVDC / FACTS • Grid-friendly • Consumption • Micro-generation Central Power plant Micro-grids Office parks Substation Automation Storage CHP Micro- turbines Fuel cells Virtual Power Plants (VPP) Industrial plant Home Network Energy Server Wind turbines Smart MeteringNetwork of sensors HVDC: High Voltage Direct Current FACTS: Flexible AC Transmission Systems
EV Charging Micro-gen & storage Demand response Visualization Data Acquisition Common Core IP digit@l vill@ge – what ICT can do Infrastructure and services for SmartGrids and SmartBuildings Enabling Capabilities APPLIED AREAS Grid Connectivity Smart Building