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6 roberto jjii_empower_architecture

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Empower H2020 Sumposium: "Local energy markets; dream or facta"

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6 roberto jjii_empower_architecture

  1. 1. CITCEA-UPC, Roberto Villafáfila-Robles X INTERNATIONAL CONFERENCE ON ENERGY INNOVATION "Local energy markets – dream or facta" Symposium ARCHITECTURE Barcelona, January 26th 2017 Roberto Villafáfila-Robles (CITCEA-UPC)
  2. 2. • Objectives • EMPOWER architecture • Overall EMPOWER architecture Content
  3. 3. • Local Smart Grids Architecture aims to define relationships between the different agents: – Mapping technically business models and local market. – Design of communication and physical connections of the prosumers to the control and market cloud – Design of software architecture of the control and market clouds Objectives
  4. 4. EMPOWER architecture
  5. 5. Why? • Traditional business EMPOWER architecture LC SMLC LCSM SM µGCLCSM LCSM CP SMBC + + + + SESP ARENA GRID SESP CLOUD LC: Local controller SM: Smart Meter CP: Charging point µGC: Microgrid controller BC: Battery controller SM Power System Infrastructure Communication platform SM EV EV EV EV Household with flexible EV charger Storage capability Passive householdHousehold with flexible thermal load Flexible or passive generators Flexible industries Flexible charging stations (V2G capable) UTILITY GRID € kW kWh
  6. 6. Why? • Allowing deployment of a Smart Energy Service Provider (SESP) platform for negotiation and trading of energy in a community. • Potential participants: consumers, producers, prosumers, community storage units, distribution system operators (DSO). EMPOWER architecture LC SMLC LCSM SM µGCLCSM LCSM CP SMBC + + + + SESP ARENA GRID SESP CLOUD LC: Local controller SM: Smart Meter CP: Charging point µGC: Microgrid controller BC: Battery controller SM Power System Infrastructure Communication platform SM EV EV EV EV Household with flexible EV charger Storage capability Passive householdHousehold with flexible thermal load Flexible or passive generators Flexible industries Flexible charging stations (V2G capable) kWh € UTILITY GRID € € € € kWh kWh kWh
  7. 7. How – to define the relationships between the different participants? – to specify the control, the market and the communications interactions? EMPOWER architecture
  8. 8. EMPOWER architecture How? • SGAM (Smart Grid Architecture Model) – Three-dimensional model
  9. 9. Application of SGAM to EMPOWER EMPOWER architecture Communications system Market cloud technical architecture Control cloud technical architecture
  10. 10. Communication and physical connections COMPONENT LAYER f Market e Enterprise d Operation c Station b Field a Process Zones Domains 3 Distribution 2 DER 1 Customer premises LVMV ++ ++ EV EV EV EV EV EV + EV MLCM SCADA + HMI Market cloud DER unit controller MDMS (DSO) Metering cloud Control cloud DMS (DSO) COMPONENT LAYER f Market e Enterprise d Operation c Station b Field a Process Zones Domains 3 Distribution 2 DER 1 Customer LVMV ++ ++ EV EV EV EV EV EV + EV MLCM SCADA + HMI Market cloud DER unit controller MDMS (DSO) Metering cloud Control cloud DMS (DSO) Handle command SCADA Send command Execute generation command Handle command Send command Function layer example: Execute generation command No cooperation with DSO SGAM component layer f Market e Enterprise d Operation c Station b Field a Process Zones Domains 3 Distribution 2 DER 1 Customer premises LVMV ++ ++ EV EV EV EV EV EV + EV MLCM SCADA + HMI Market cloud DER unit controller MDMS (DSO)Metering cloud Control cloud DMS (DSO) Generation & consumption data f Market e Enterprise d Operation c Station b Field a Process Zones Domains 3 Distribution 2 DER 1 Customer premises LVMV ++ ++ EV EV EV EV EV EV + EV MLCM SCADA + HMI Market cloud DER unit controller MDMS (DSO) Metering cloud Control cloud DMS (DSO) Web services IEC 61968-100 H L AA A Web services IEC 61968-100 HG Web services IEC 61968-100 H Webservices IEC61968-100 G SGAM generic information layer SGAM generic communication layer
  11. 11. Market technical architecture
  12. 12. Caching (Redis Cache) Streaming Analytics Batch SQL (SQL Database) NoSQL Document (Document DB) NoSQL Key-value (Blob Storage, Table Storage) Publish- subscribe Messaging Optimisation Services DR / SR Services Workflow Services Balancing Services Forecasting Services Queue s Trading Floor Services CommunicationPlatform Device Control Services Communication Platform (Web API) Settlement Services Negotiation Services Mitigation Services Messaging Buy & Sell Services Communication Platform (Web API) Topic Queues Flexibility Services Service Bus QueueLogic AppsIoT Hub Command & Control Workflow Messaging To external information providers To field devices Household DER To client interfaces IT SESP
  13. 13. Overall EMPOWER architecture
  14. 14. Overall EMPOWER architecture Field devices SESP Platform Clients External Information Providers EV EV EV EV EV EV ++ ++ + EV Household/Prosumer Generation EVCS Storage CONTROLLABLE LOAD METER LOCAL CONTROLLER DER UNIT CONTROLLER
  15. 15. Caching (Redis Cache) Streaming Analytics Batch SQL (SQL Database) NoSQL Document (Document DB) NoSQL Key-value (Blob Storage, Table Storage) Publish- subscribe Messaging Optimisation Services DR / SR Services Workflow Services Balancing Services Forecasting Services Queue s Trading Floor Services CommunicationPlatform Device Control Services Communication Platform (Web API) Settlement Services Negotiation Services Mitigation Services Messaging Buy & Sell Services Communication Platform (Web API) Topic Queues Flexibility Services Service Bus QueueLogic AppsIoT Hub Command & Control Workflow Messaging To external information providers Weather forecast Wholesale market offers/bids & results Setpoints/Grid constraints from DSO (Meter value from DSO) To field devices ±P/ ±Q setpoint kWh demanded /generated On/Off signals kWh demanded /generated Household DER To client interfaces App/Web E-mail Contracts Local market results LogicApp/IoTHub Event Hub/ LogicApp/ IoTHub Overall EMPOWER architecture
  16. 16. • Link with component layer: Local controller – Loads: • Boiler • Thermostat • Lighting • Plugs • Domestic appliances Overall EMPOWER architecture – Power Electronics: • Generation • Storage • EV charging stations
  17. 17. This project has received funding from the European Union’s Horizon 2020 Research and Innovation programme under Grant Agreement No 646476. local Electricity retail Markets for Prosumer smart grid pOWER services

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