Aspern Smart City Research Smart City Aspern laying the foundation for a sustainable energy system ASCR All rights reserved.
Seestadt Aspern Facts and Figures 20.000 Jobs Total size:2.4 million m² Appartements Offices, Shops Education, Research, Science 10.000 Appartements 2 2 20.000 Inhabitants 15 Years development period 2.2. Mio Gross floor area ASCR All rights reserved. Page 2
Aspern Smart City Research Total Budget (5 Years): 38 5 Infrastructure planning and erection Infrastructure operation and maintenance R & D Personnel costs Overhead costs inc. marketing 9 8 6 5 14 1 5 7 2 4 29,95 % 20,0 % 44,1 % 4,66 % 1,29 % ASCR All rights reserved. Page 3
An optimized Energy System is the foundation for sustainable Smart City Concepts Research Domains Smart ICT Data collection, integration and provisioning for business processes and system operation System optimization Smart User Optimized energy costs Extended market & consumption information Home automation Smart Homes / Buildings Own energy production Heat pumps + thermal storage Batteries Future: Flexible energy tariffs Flexibility offerings Interface to market partners Complementary requirements Smart Markets Increasing weather dependent production Increasing demand for flexibility Flexible tariffs and new business models ASCR All rights reserved. Page 4 Smart Grid as facilitator for smart energy system (Vision ) Provisioning of: Power quality and grid availability under fast changing requirements Improved load and generation forecasts Flexibility management and grid protection additional services for market partners
Smart Building Research Topics Challenges Technology & Innovation Predictive optimization Use energy at the right time Predictive Optimization Prediction of generation & consumption Predictive optimization Multi-modal optimization Simulation and model based optimization Buildings as part of a higher-level optimization Provide flexibility Standardized Interface Integration of all stakeholders into one system Provisioning of flexibility offers Overall system architecture Simplified provisioning, configuration and management over the system s life cycle Data analysis Generate new information Context-aware information system Central or de-central data analytics Data mining User behavior modeling Data correlation for various detections, e.g. predictive maintenance ASCR All rights reserved. Page 5
Interaction with Smart User Smart User Customer benefit Seamless energy system integration via an App for Smart Phones: Detailed energy consumption information Remote temperature setting Remote load switching Innovation Smart Building Detailed information about customer behavior Supports system optimization Supports the development of new pricing models and services Energy provider ASCR All rights reserved. Page 6
Smart Building and Building ICT Current status Buildings: D5b: Student hostel (300 Students) D12: 213 flats D18: School & nursery Smart User App: Version 1.0 available Roll out version 2.0 by autumn ASCR Data- & Control Center Building infrastructure and R&D environment available Building data available Building optimization: Test in laboratory Field test by autumn Interface to market implemented by spring 2017 Cost & consumption optimization 01110010110 Data exchange 01110010110 Meter Data from Wiener Netze & Wien Energie Data warehouse and data analytic environment Calculation of building KPI s Digital twins of buildings Data basis for the evaluation of new business models Virtual power plant ASCR All rights reserved. Page 7
The Smart Grid Migration Path Guideline for our R&D activities Grid data provisioning & monitoring è grid operation Data Ware House and data analytics è Back office optimization Active grid management è distributed intelligent devices Islanding Switch Energy Plus Building Provisioning of grid transparency and fault detection passive grid optimization, analysis of events and effects active grid optimization, platform for new services Co-generation plant Smart Home Data sources: Sensors, smart meters and load estimation algorithms Monitoring of faults and threshold violations Alarm generation Migration of planning process from static worst case assumptions to data, model and scenario based planning Grid and process optimization through data analytics Decentralized load & voltage management Flexibility management (interaction with buildings) Load dependent grid configuration Automated fault isolation Photovoltaic Wind power Electrical Storage I & C Smart Building Industrial Consumption Distribution grid Electric al Vehicle s ASCR All rights reserved. Page 8
Smart Grid and Grid ICT Current status Infrastructure LV grid: 12 intelligent transformer stations with R&D environment 600 smart meters and 90 grid sensors Continuous grid data provisioning Communication infrastructure: Fiber based back haul IP network provided by Wiener Netze PLC access communication Wiener Netze Control Center Meter Data Meter Data Mgmt. Meter Data Field test meters fully integrated into WN billing system Data forwarding to ASCR according to legal requirements 011100101 Grid data exchange 011100101 ASCR Data- & Control Center Grid control Center Data warehouse and data analytic environment Engineering Tools & R&D environment Grid monitoring Detection of critical grid areas Measurement data calibration Grid data export to a planning tool ASCR All rights reserved. Page 9
Holistic AND domain specific system optimization strategies as well as scalable and future-proof solutions are the key success factors Our research program reflects that mission Thank you for your attention! Bernd Richter, Alexander Schenk ASCR All rights reserved. Page 10