Real proven solutions to enable active demand and distributed generation flexible integration, through a fully controllable LOW Voltage and medium voltage distribution grid Project general presentation The UPGRID Consortium This project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 646.531
Partners and Key figures Call/Topic : LCE 7–2014: Distribution grid and retail market Duration: 01/01/2015 – 31/12/2017 (36 months) Total PM: 1.639 Budget: 15,7 M€ (11,9 M€ EU grant) Project coordinator: Iberdrola Distribución Eléctrica, S.A.U. Partners: 19 from 7 EU countries (ES, PT, PL, SE, UK, FR, NO) 2
Motivation UPGRID proposes an open, standardised and integral improvement of the LV grid Social and Environmental restrictions that inhibit Poor observability grid development of LV grid Aging Local Accumulation of infrastructure Distributed Generation Risks and difficulties in managing the distribution network 3
EEGI Contribution Monitoring and control of LV network (D7) Smart metering data utilization (D10) EEGI Network management methodologies for network operation (D9) Novel approaches for market design (D13) A total of 38 different sub-functionalities aligned with EEGI have been defined in UPGRID to be tested in the project 4
Expected Results Observability and control of LV grid • Achieve sound LV network representation • Functional specification of LV dispatch • Deployment of tools to support LV operation of field crews • Improvement in Operations and Maintenance of LV grid • Improvement of QoS to consumers Extensive use of AMI infrastructure • Integration and processing of meter events in the OMS • Deployment of multiservice PRIME subnetwork • Development of LV grid remote control operation over Smart Metering PRIME infrastructure 5
Expected Results Enhance the role of DSOs to facilitate an open market for services • Evaluation of incentive and market framework in demo regions • Identification of investment alternatives for UPGRID innovative concepts • Assessment of optimal business models for market participants Participation of consumers, distributed generation and energy storage in network management • Improvement of consumer capacity building web-based systems • Development of interactive communication campaigns • Societal research on the socio-economic impact of SG solutions on the demo regions 6
Structure of the Project WP7. Market & business framework WP1. Scope and boundaries of project demonstrations WP2. Innovative distribution grid applications and functions WP3 WP4 WP5 WP6 Demonstration Demonstration Demonstration Demonstration in real user in real user in real user in real user environment environment environment environment (Spain) (Portugal) (Sweden) (Poland) WP9. User engagement, WP8. Monitoring & Impact societal research assessment of project and demonstrations dissemination of project results WP10. Management 7
Structure and timing of the Project 2015 2016 2017 Jn Fb Mr Ap My Jn Jl Ag Sp Oc Nv Dc Jn Fb Mr Ap My Jn Jl Ag Sp Oc Nv Dc Jn Fb Mr Ap My Jn Jl Ag Sp Oc Nv Dc Year 1 Year 2 Year 3 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 Scope of demos • High-level specs. • Non-tech. barriers • Standards and KPIs Specification and use cases definition for distribution grid functionalities • Improved supervision and management of MV/LV grid • Services provided by DSO to retail market • CIM as a reference model of the project Performance of demos in real user environment • Bilbao, Spain (Iberdrola) • Åmål, Dalsland-Sweden (Vattenfall) • Parque das Naçioes, Lisbon-Portugal (EDP) • Gydnia, Poland (Energa Operator) Evaluation of market and business framework • Identification of market barriers • Business modeling • Incentive framework for investments Impact assessment of project demos • KPIs analysis • Life-cycle estimation • Performance monitoring • CBA and System wide benefits User engagement, societal research and dissemination • Segmentation of stakeholders groups and interaction plan • Societal research 8 • Interactive communication campaigns • Dissemination and networking
Spanish Demo Deployment of tools to operate the LV network: LV Dispatching Located in the city of Bilbao , North of Spain Monitoring and control of LV Network: Deploy Multiservice (metering and telecontrol) and o Manageable PRIME subnetworks Network Characteristics Smart meter events analysis for grid operation o 1.075 Secondary Substations (SSs) o Empowering Consumers by providing information, perception More than 3.500 LV lines supervised o and control More than 190.000 consumers o Urban area o Demo developed leveraging on project 9
Portuguese Demo Monitoring and control of LV Network Improve LV visibility using the SM infrastructure (home, o EV charging points & DER) Integration and processing of events and alarms (from o SMs and DTCs) in the OMS (LV level) Demo located in Parque das Naçoes, Lisbon Combined use of AMI and Home Energy Management Systems – Demand Management Mobile Device deployment to support field teams with remote information from LV Network Characteristics 2 Substations / 144 SSs o 12.618 Residential consumers (LV) o 17 EV Charging Stations o LV network mostly underground o Urban area o 10
Swedish Demo Åmål Monitoring and control of LV Network System development focus for MV & LV Smart Grid o functionalities LV regulation using a smart transformer (new o transformer to achieve a stable voltage violation to support future DER) Outage management based on data coming from AMI o Demo located in Åmål (Dalsland), South of and SS devices Sweden (West side) Deployment of equipment in SS and MV feeders to o achieve a supplier independent solution for further deployment Network Characteristics 2 MV lines o 51 SSs o 528 consumers o LV lines (mostly overhead) o Rural area o 11
Polish Demo Monitoring and control of LV Network Improve LV visibility using the AMI infrastructure o Deployment of tools to operate LV network Improve MV control and monitoring Demo located in an area close to the city centre of Gdynia, North of Poland Network Characteristics 55 SSs o About 14.700 consumers o 38 km MV lines / 107 km LV lines o Overhead and underground LV network o 12
WP1: objectives and outcomes Task 1.1 Technical specification Task 1.2 Identification of non-technical local incentives and barriers of project demonstrations Report on non-technical local incentives and D1.2 D1.1 Report on technical specifications barriers Report on standards and potential D1.3 Report on common KPIs D1.4 synergies Task 1.4 Definition of common Task 1.3 Applicable standards KPIs to monitor the performance of the demos and potential synergies 13
WP1: KPI methodology 14
WP2 objectives and outcomes PORTUGUESE SWEDISH POLISH SPANISH DEMO DEMO DEMO DEMO Substantially increase the share of micro-generation and SERVICES PROVIDED BY DESIGN OF A NEUTRAL MARKET DSOs TO THE RETAIL renewable generation within ACCESS PLATFORM the local grid MARKET SMART ANALYTICS OF INDIVIDUAL LOAD CURVES FOR DISTRIBUTION Maximizing interoperability, AND RETAIL BUSINESS replicability and up-scalability at European level DESIGN OF SERVICE FOR DEMAND SIDE MANAGEMENT Active involvement of Consumers, Aggregators, ESCOs MANAGEMENT OF MV/LV GRID IMPROVED SUPERVISION AND ENHANCED OUTAGE MANAGEMENT in the demonstration of ADR in AND SUPPORT FOR THE MAINTENANCE real world environment in CREWS commercial operation LOAD AND GENERATION FORECASTING Enabling an open market for services deployment FAULT LOCATION TOOLS EVENTS/ ALARMS SUPERVISION AND DER MANAGEMENT IN LV NETWORK Active participation of “Prosumers” and new players in MV AND LV STATE ESTIMATION Energy Markets CIM AS THE REFERENCE DATA MODEL OF THE PROJECT 15 Technical innovation
Progress and next steps (Nov’15) 2015 2016 2017 Jn Fb Mr Ap My Jn Jl Ag Sp Oc Nv Dc Jn Fb Mr Ap My Jn Jl Ag Sp Oc Nv Dc Jn Fb Mr Ap My Jn Jl Ag Sp Oc Nv Dc Year 1 Year 2 Year 3 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 Scope of demos • High-level specs. • Non-tech. barriers • Standards and KPIs Specification and use cases definition for distribution grid D1.1. Report on technical specifications functionalities D1.2. Report on non-technical local incentives and barriers Finished D1.3. Report on standards and potential synergies • Improved supervision and management of MV/LV grid • Services provided by DSO to retail market D1.4. Report on common KPIs • CIM as a reference model of the project Performance of demos in real user environment • Bilbao, Spain (Iberdrola) • Åmål, Dalsland-Sweden (Vattenfall) • Parque das Naçioes, Lisbon-Portugal (EDP) • Gydnia, Poland (Energa Operator) Evaluation of market and business framework • Identification of market barriers • Business modeling • Incentive framework for investments Impact assessment of project demos • KPIs analysis • Life-cycle estimation • Performance monitoring • CBA and System wide benefits User engagement, societal research and dissemination • Segmentation of stakeholders groups and interaction plan • Societal research 16 • Interactive communication campaigns • Dissemination and networking
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