Smart House Smart Grid Smart Houses interacting with Smart

Smart. House/Smart. Grid Smart Houses interacting with Smart Grids to achieve next generation energy efficiency and sustainability The SH/SG Team ADDRESS Workshop - Paris - June 9 th

The Emerging Internet of Energy Hardware is getting cheaper, smaller and networked • Diverse high-precision data can flow to enterprises Io. T In te r ne to f. T hi ng s • es ic rv of Se Io. S In te rn et Software is built by composing collaborative services • Distributed cross-layer service mash-ups • gy r ne f. E te In r o et n ICT is empowering traditional business relationships • Internet of Energy is an emerging domain for Io. T+Io. S • Io. E © The SH/SG team 2010 / Page 2

In-House Connectivity Enterprise-to-House Connectivity Enterprise integration In-house connectivity Interfa ces to wards … © The SH/SG team 2010 / Page 3

SH/SG Interfaces © The SH/SG team 2010 / Page 4

SHSG Project Partners Research Industry Energy Research Centre of the Netherlands Fraunhofer Institute for Wind energy and energy system technology Institute of Communication and Computer Systems Public Power Corporation (PPC) S. A. © The SH/SG team 2010 / Page 5

Smart. House/Smart. Grid ICT Architecture Design Features Decentralized decision-making n Local decisions taken at the local level n Uniform communications based on volumes and prices n Fast and scalable negotiation technologies Time scales Day-ahead, intra-day, balancing, fast emergency reactions n IWES: BEMI, ECN: Power. Matcher, NTUA-ICCS: Magic n Bi-directional communication down to single devices Responsive loads n Distributed generation n Storage n Portals for consumption feedback and user interaction Smart metering and detailed billing © The SH/SG team 2010 / Page 6

Response of Demand Distr. Generation: Move in Two dimensions Decisions on local issues made locally Decisions on local issues made centrally Price reaction Top-down switching One-way Communications 7 Market integration Two-way Communications © The SH/SG team 2010 / Page 7

Trial A: ICT Architecture Testing 1, 000 homes 10, 000 homes per concentrator 99 x(100 x 100) homes 25 homes 100 meters/homes 98 x 100 homes © The SH/SG team 2010 / Page 8

Trial A Smart Meter Subsystem © The SH/SG team 2010 / Page 9

Trial B: Mannheim Degree of Complexity 2. Field Test: „Flexible E-Tariffs & Automated E-Management (SH/SG – Project) 3. Field Tests „Intelligent Energy Grid“ (approach to balancing LV grid segments) > 1. 000 participants (Mo. Ma) >100 participants 1. Field Test „Innovative Metering“ >20 participants 2009 2010 2011 © The SH/SG team 2010 / Page 10

Trial B Functionality and Communication © The SH/SG team 2010 / Page 11

Trial C: Black Start / Island Mode House 1 House 2 House 3 House 4 House 6 House 5 Main House 7 House 8 Generator PV House 9 House 11 House 10 © The SH/SG team 2010 / Page 12

Work in Meltemi © The SH/SG team 2010 / Page 13

Results Available & Expected Deliverables available: n High-Level System Requirements n In-Home Architecture, Interfaces and Algorithms Deliverables expected (Second half of 2010 & Early 2011): n Final Architecture Lessons-Learned from all Three Field Tests n Mass Application Case Studies & Roadmap n More Information: n www. smarthouse-smartgrid. eu © SAP 2009 / Seite 14 © The SH/SG team 2010 / Page 14

Side step to concrete results: Active Distribution with Electric Vehicles. © SAP 2009 / Seite 15 © The SH/SG team 2010 / Page 15

Thank you! © The SH/SG team 2010 / Page 16