Project Summary - Version June 2021
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Project Summary The project has received funding from the European Union’s Horizon 2020 research and innovation program under grant agreement No 773406 Presentation of OSMOSE project Version June 2021 1
OSMOSE PROJECT A project about flexibility Flexibility is understood as a power system's ability to cope with variability and uncertainty in demand, generation and grid, over different timescales. NEW FLEXIBILITY NEEDS NEW FLEXIBILITY SOURCES Presentation of OSMOSE project 2
OSMOSE PROJECT The consortium ✓ H2020 EU funded ✓ 27M€ budget ✓ 33 partners ✓ Leaders: RTE, REE, TERNA, ELES, CEA, TUB ✓ Jan 2018 – Apr 2022 Presentation of OSMOSE project 3
OSMOSE PROJECT Objectives and WPs 4 Demonstrators ✓Foster the participation of new flexibility providers ✓Demonstrate new flexibility services and multi- Simulations of long-term scenarios services capabilities ✓Identify future needs and sources of flexibility ✓Develop new tools and methods for flexibility Grid forming by multi-services WP3 assessment hybrid storage WP1 Optimal mix of flexibilities Multi-services by different WP4 storage and FACTS devices WP2 Market designs and regulations Multi-services by coordinated WP5 grid devices, large demand- WP7 Scaling-up and replication response and RES WP6 Near real-time cross-border energy market 4 Presentation of OSMOSE project 4
OSMOSE PROJECT WP1: Optimal Mix of Flexibilities SCENARIOS Neglected Climate Current Goals Accelerated DEFINITION Actions Achieved Transformation OBJECTIVES ✓ Quantify the needs of flexibility Multi-sectoral investment trajectories in different long-term scenarios SIMULATIONS Tool: AnyMOD.jl ✓ Define the best sources of Hourly dispatch of the electrical system flexibility in the scenarios Tool: Antares ✓ Create advanced tools and methodologies to analyze Local sizing Reserves Stability flexibility and siting Tool: MORA Tool: DIgSILENT Tool: DESPLAN Presentation of OSMOSE project 5
OSMOSE PROJECT WP1: Status ✓3 Scenarios developed (see Deliverable 1.1) ✓Methodologies for time series generation SCENARIOS Neglected climate Current Goals ✓AnyMOD.jl tool available open-source to better take Accelerated Achieved into account sector coupling DEFINITION actions Transformation ✓Methodology for flexibility assessment Multi-sectoral investment trajectories ✓All scenarios simulated SIMULATIONS Tool : anyMod- Genesys ✓ Large perturbation angle and frequency stability, Small Hourly dispatch of the electrical system perturbation angle stability and voltage stability Tool : Antares assessed for critical cases for the Sicilian system in 2030 and 2050 scenarios ✓Flexibility options available proved to be effective Local sizing and Reserves Stability ✓Impact of short-term RES uncertainty on cross-border sitting Tool : MORA Tool : DIgSILENT provision reserves assessed for the scenarios “Current Tool : DESPLAN Goals Achieved” 2030 and 2050, and respective flexibility needs calculated Presentation of OSMOSE project 6
OSMOSE PROJECT WP2: market designs & regulations SIMULATIONS OBJECTIVES ✓ Explore and propose some market-based solutions for the development of an optimal mix of flexibility sources in Europe ✓ Create advanced tools and methodologies for *RT : Real Time ; DA : Day Ahead; ID : intra Day market design analysis orange is for CEGrid-JMM model from UDE, and blue is for the PROMETHEUS-ATLAS model from RTE Presentation of OSMOSE project 7
OSMOSE PROJECT WP2: status SIMULATIONS ✓Methodology for error forecast ✓Methodology to model the interface between TSOs and DSOs. ✓Analysis of KPIs for possible electricity markets targeting optimized flexibilities ✓First zonal market simulations produced, providing spot market prices. ✓First analysis allowing to quantify difference in forecast errors at zonal *RT : Real Time ; DA : Day Ahead; ID : intra Day and nodal scale. orange is for CEGrid-JMM model from UDE, and blue is for the PROMETHEUS-ATLAS model from RTE ✓Webinar on the first findings from WP2 market simulations. Presentation of OSMOSE project 8
OSMOSE PROJECT WP3 Demo: Grid forming by multi-service hybrid storage DEVICES OBJECTIVES ✓ Test the robustness and effectiveness of Supercapacitors 1MW-10s 720 kVA/560 kWh LOT grid forming control in two real 0.5MVA-60min Li-ion battery battery RTE substation 25 kWh LOT battery environments EPFL Campus ✓ Assess multi-services compatibility ✓ Define DC power and energy SERVICES Grid forming management strategies Fast frequency control, FCR, aFRR ✓ Test the portability of the control Congestion management* strategies over different hardware *These services are not at the core of the demo, only their compatibility with grid forming will be assessed platforms Presentation of OSMOSE project 10
OSMOSE PROJECT WP3 Demo: Status ✓ KPI defined to assess grid forming ✓ Demonstration and simulations validating the KPI of DEVICES grid-forming control compared to grid following ✓ Successful implementation of grid forming in two « off the shelf » storage devices ➢ Multi-services algorithm developped, now to be tested in the EPFL demo Supercapacitors 1MW-10s 720 kVA/560 kWh LOT 0.5MVA-60min Li-ion battery battery RTE substation 25 kWh LOT battery Installation on EPFL campus EPFL Campus SERVICES Grid forming Published Fast frequency control, FCR, aFRR Congestion management* *These services are not at the core of the demo, only their compatibility with grid forming will be assessed Presentation of OSMOSE project 11
OSMOSE PROJECT WP4 Demo: Multiple services provided by coordinated control of storage and FACTS DEVICES OBJECTIVES Master control ✓ Define a Master Control to coordinate STATCOM (12 Mvar) Different batteries Ultracapacitors (0.8MW) PV and wind turbine different flexibility solutions Li-Ion batteries (2MW/0.5MWh) Controllable load CENER 20 kV grid-connected facilities Micro grid in CENER lab ✓ Design a new hybrid and modular storage solution offering multi-services Emulation of inertia, Fast Fault Current SERVICES Injection, Power oscillation Damping ✓ Develop a lithium-ion battery connected Frequency regulation at high voltage in DC (≥ 1 kV) Setpoint tracking, Management of renewable energy variability, program management Congestion Management, Voltage Control Presentation of OSMOSE project 12
OSMOSE PROJECT WP4 Demo: Status DEVICES Master control CENER facilities STATCOM (12 Mvar) Different batteries (Sangüesa - Navarra) Ultracapacitors (0.8MW) PV and wind turbine Li-Ion batteries (2MW/0.5MWh) Controllable load CENER 20 kV grid-connected facilities Micro grid in CENER lab ✓ SAFT battery ready to be integrated in the Hybrid Flexible Device. Emulation of inertia, Fast Fault Current ✓ Containerization and wiring of all power SERVICES Injection, Power oscillation Damping module components in the container close Frequency regulation to completion (July 2021) Setpoint tracking, Management of renewable ✓ On field installation works are planned for energy variability, program management August-September 2021. Congestion Management, Voltage Control Presentation of OSMOSE project 13
OSMOSE PROJECT WP5 Demo: Multiple services provided by grid devices, large DR and RES coordinated in a smart management system DEVICES OBJECTIVES ✓ Demonstrate the provision of FRR and AVC 9 industrial 2 wind farms - 33 MW 7x150kV lines by single or aggregated industrial loads consummers +1 battery (2 MW - 2 Dynamic Thermal ~120 MW of flexibility MWh) Ratings ✓ Demonstrate the provision of Synthetic Inertia TERNA and AVC by wind farms ✓ Test innovative DTR Frequency Automatic SERVICES Restoration Reserve Voltage Control ✓ Develop an Energy Management system to and Automatic and Synthetic Voltage Control Inertia coordinate congestion management by DTR, RES and industrial loads Congestion management with an Energy Management System Presentation of OSMOSE project 14
OSMOSE PROJECT WP5 Demo: status ✓ 5 Industrial load sites have been upgraded successfully : 88MW for congestion DEVICES management, 5.5MVar for voltage control and 0.4MW for aFRR will be available for the demo. ✓ First local tests on Automatic Voltage Control on 2 wind farms - 33 MW the two wind power plants were successfully 9 industrial 7x150kV lines consummers +1 battery (2 MW - 2 conducted. Dynamic Thermal Pietragalla site with BESS & MWh) ~120 MW of flexibility Ratings ✓ A Synthetic Inertia control device has been wind turbines TERNA developed by Enel Green Power and installed on its Pietragalla plant premise. Frequency Automatic ✓ D5.4 released. It explains all relevant activities SERVICES Restoration Reserve Voltage Control Installation of and technical information related to the and Automatic and Synthetic Dynamic Thermal Rating Voltage Control Inertia development and implementation of the software solutions needed to carry out the first Congestion management with an Energy Management use case of WP5 demonstrator. System Presentation of OSMOSE project 15
OSMOSE PROJECT WP6 Demo: Near real-time cross-border energy market DEVICES OBJECTIVES ✓ Design a market which takes advantage of the flexibility near real-time Soverzene plant Santa Massenza DEM, TES and High voltage grid 20MW plant SENG plants TERNA & ELES ✓ Develop the software and platforms for participating 70MW 135MW ENEL participating participating bids creation, selection and activation HDE HSE ✓ Demonstrate the effectiveness and SERVICES Near real-time energy cross border market security of this market taking into account grid constraints Presentation of OSMOSE project 16
OSMOSE PROJECT WP6 Demo: Status Lake Santa Massenza (Santa Massenza plant) DEVICES ✓ Video on WP6 demonstrator concepts! ✓ EN4M software, FEB creation and OPT tools have been installed and tested individually on ELES business environment. Soverzene plant Santa Massenza DEM, TES and High voltage grid TERNA & ELES ✓ Conclusive tests of the bidding generators were 20MW plant SENG plants participating 70MW 135MW run from the flexibility provider’s side. ENEL participating participating HDE HSE SERVICES Near real-time energy cross border market taking into account grid constraints Simplified diagram of WP6 demo Presentation of OSMOSE project 17
OSMOSE PROJECT WP7: Scaling up and replication BATTERY ENERGY STORAGE SYSTEM: TSO-DSO FLEXIBILITIES INTEROPERABILITY DESIGN & CONTROL AND SHARED COORDINATION DATABASE Objectives: Objectives: Objectives: ✓ Refine IEC61850 interoperability ✓ Provide an optimization ✓ Develop methods and tools for BESS framework framework taking into account design & control for a decrease of different time scales for voltage Levelised Cost ✓ Demonstrate the engineering process control on the DSO grid in of IEC61850 ENTSOE profile with coordination with the TSO different specifications tools ✓ Creation of a shared database with ✓ Demonstrate the tool and its advanced data analytics for Energy ✓ Demonstrate IEC61850 benefits in a demo in real-time Storage Systems in operation interoperability framework with simulation products from different manufacturers Presentation of OSMOSE project 18
OSMOSE PROJECT WP7: Scaling up and replication BATTERY ENERGY STORAGE SYSTEM: TSO-DSO FLEXIBILITIES INTEROPERABILITY DESIGN & CONTROL AND SHARED COORDINATION DATABASE Deliverable Optimal sizing Objectives: D7.1 Objectives: Objectives: method: D7.5 ✓ Refine IEC61850 interoperability ✓ Provide an optimization ✓ Develop methods and tools for BESS framework framework taking into account design & control for a decrease of different time scales for voltage Levelised Cost ✓ Demonstrate the engineering process control on the DSO grid in of IEC61850 ENTSOE profile with coordination with the TSO different specifications tools First tests ✓ Creation of a shared database with done ✓ Demonstrate the tool and its advanced data analytics for Energy ✓ Demonstrate IEC61850 benefits in a demo in real-time Storage Systems in operation interoperability framework with simulation products from different manufacturers First tests of ✓ Database developed & tested Webinar ✓ Integration of on-fields BESS Flexibility Scheduler Presentation of OSMOSE project software ongoing data from WP3-WP4 demo 19
Thank you! https://www.osmose-h2020.eu/ @Osmose_H2020 osmose-h2020 Presentation of OSMOSE project 20
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