b'FAST TRACK FROM TOPICAL SUBJECTS TO SESSIONSInnovativeFlexibility tools and DSO/ Microgrids, citizensEnergy transition, sectorResiliency,Digital and sustainableTSO interface energy communities, localcoupling, e-mobility andreliability and the impacttransformation, components,markets and smart cities of climate change artificial intelligence, asset management P2P trading digital twins, blockchain and cybersecuritySESSION 1:New materials, including Components and sensors for Components for microgrids, Components for e-mobilityCondition assessment, Digital tools and systems NETWORKrecycled and bio-sourced voltage control and powerincluding sensors, storage Components for large citiesageing models for network components COMPONENTSModelling, testing flow management devices, renewable energy(high ampacity cables, su-Diagnostics of network maintenance Evolution of standards and Components for theintegration and powerperconductivity, fault currentcomponents, on-line Data analytics and AI for functional specifications connection of distributedelectronics, components limiters.) monitoring asset management Safety aspects, ergonomics generation for disconnection andCompact and modular High reliability solutions Components incorporatingInnovative solution for Power electronics basedreconnection with main grid substationsComponents for morelocal intelligence andmaintenance, life extensioncomponentsEco design, life cycle analysis resilient networks, includingcommunication capabilitiesand upgradeability including Storage devicesReduction of losses prevention of the impact of Communication3D printingManagement of hazardousclimate change components and Smart secondary substation substances infrastructure, including 5G Components for DC andLimitation of visual and Components for smart AC/DC hybrid networks noise impact metering systemsSESSION 2:New measurements PQ requirements for Challenges related toPQ issues related to storage Strategies to include PQ Strategies for handling large POWERtechniques and indices inadvanced distributionmicrogrids, including systems, distributed energymanagement in networkamounts of PQ dataQUALITY ANDparticular for flicker andautomation schemes DC grids resources and loads (e.g. planning and operationData mining and datadistortion (DC to 500 kHz)Ride through solutions using Voltage and frequencyelectric vehicle charging, Voltage dip immunity andanalytics for PQ related ELECTROMAGNETIC Challenges related to thenew concepts (e.g. syntheticstability as well as PQ inlighting devices) ride through capability ofdata, including theCOMPATIBILITY application of new gridinertia)islanded microgridsChallenges related to futuregrid-interactive invertersapplication of AI techniquescomponentsPQ management at the Aspects of PQ regulationgrids with very high share ofand convertersNovel methods for PQ dataIntegration of PQ interface between DSO andand benchmarking power electronicsLightning and switchingvisualisationfunctionalities into TSO, e.g. coordination of Interactions related toovervoltages and related Efficient design andsecondary equipment planning levels and emissionwindfarms, PV farms, HVDCprotection implementation of PQImmunity issues related tolimits and FACTSmonitoring campaignssmart meters and smart Standards for PQ dataNeeds for the revision of electronic devices format and data interchange PQ standards and EMCNew mitigation techniquesconcepts driven by energy for magnetic fields transition and climate (shielding, active changecompensation) Impact of PQ on lifetimeof equipmentSESSION 3:Maintenance strategies and Organisation strategies and Operation of industry gridsPlanning of operation Embedded crisisData demand, management OPERATION,condition assessment schemes to integrate DER, Organisation schemes,regarding flexibility frommanagement together and secure transfer CONTROL AND SCADA Systems regardedflexible loads and VPP SCADA solutions andsector coupling and electricwith authorities and civil Artificial Intelligence in as an asset, with a limited SCADA functions andcontrol strategies for newvehicles protection organisation SCADAPROTECTION lifecycle due to new schemes and TSO/DSOrequirements as energy SCADA systemsSolutions of resiliency for Enhanced automation, work requirements and interface for use flexibilitycommunities, P2P etc. developments for sectorsconverging communicationforce management and developing standards as annew protection schemes and Automation and self-healingcoupling energy systemsand power systems augmented reality issue asset management voltage control distribution grids Voltage control by managing SCADA and localRemote access and ITRefurbishment strategiesIT-Security and resilience Practical experience offlexibility from sector cou- automation concepts forsecurity for protection systemsaspects for access andislanding pling and electric vehicles large outages, blackoutCommunication standards, to implement innovativeexchange of informationProtection for grids hosting Managing flexible loadsand crisis scenarios protocols for metering, schemes and functions a lot of decentralised as part of new protection Cyberattackscenarios,protection and SCADA generation units andschemes preventions and defence Multivendor solutions microgrids security and interoperabilitySESSION 4:New DER assets and Coordinating and managing Commercial arrangements Optimisation of DER across Technical reliability and InnovativeDISTRIBUTED ENERGYtechnologies including DER and active customerfor delivering flexibility fromenergy systems includingperformance of Demandtelecommunications, data RESOURCESenergy storage, demandactivities across the DER and active customerstransport, gas and heat Response and control solutions for side management andTSO-DSO interfaceOptimisation of DER across The connection and use of Contribution of DG to DER (e.g. IoT, web of cells) AND EFFICIENTcontrol solutionsManaging high volumes ofenergy systems includingEnergy Storage Systems network and system securityLarger scale DERUTILISATION Innovative DER assetDER including clustering oftransport, gas and heatManagement and operation Integration and control ofintegration data analytics OF ELECTRICITY monitoring technology andlow carbon technologiesThe role of distributionof V2G services energy storage and effect onand intelligence fornetwork state estimation Management of power flow,networks in delivering lowdemand profiles distribution networkapproaches voltage, fault level carbon, sustainable energy Active control of DER formanagement Technical findings from and stability supplies whole system optimisation Development of control trials relating to stability, Benefits of energyDC Network Trials and security algorithms and philosophiesprotection and systemstorage and relatedNetwork islanding andInteroperability andreliability control approaches resynchronisation development of standards Impacts on network assets Managing new energycapabilitiesDER data protocols and from high DER penetrationprofiles and harnessing Reducing network losses profiles for planning and and operation flexibility of different DER The role of energy efficiency TSO/DSO coordinationand customer typesLV Network requirements and challengesSESSION 5:Managing differential ageing Operational scheduling: Impact on networkLife-cycle efficiencyUse of HILP events in Infrastructural synergies at PLANNINGin complex installations from one-shot planningarchitecture and systemevaluations at system level planning planning levelOF POWER DC distribution to programmed adaptivedevelopment of services Methodologies forTrade-offs betweenUse of real-time informationMulti-annual operationalbehaviour offered by microgrids andaccounting cumulated optimisation according toin planningDISTRIBUTIONexperience of AssetDSO as system dispatcher.local energy communities benefits of everyday reliability vs resiliency issuesData analytics for planningSYSTEMS Management system Theory, User cases and Models and tools fordistribution activitiesNew distribution schemes Customer segmentation Smart grid and ageing ofExperience including microgrids and E-mobility impact on for increasing resiliencyImpact of peer-to-peer distribution infrastructureDSO as neutral data hub local energy communities indistribution facilitiesNew service providers (e.g.transactions in planning Artificial intelligence in asset Cost benefit analysis applieddevelopment studiesImpact of smart cities onaggregators, consumers/Artificial intelligence in management to innovation and smart Microgrids and local energydistribution planning producers, smart districts,planningsolutions communities to provide Integrated planning of smart buildings, etc.)Planning techniques withIntegrated TSO/DSO security of supply beyondmulti-energy/multi-servicesassessment and benchmark flexibility and system planning with the flexibilitythe parameters associated(e.g. electricity, heat, cold, Impact of novel distributionservices from DERsand system services with the DSO and gas, transportation,development on resiliency from DERsPlanning criteria forwater, waste, etc.) and reliability electrification in low load density areasSESSION 6:Business steering through TSO/DSO cooperation and Engaging the customerLocal energy optimisationHow DSOs supportUsage of smart meter DSO CUSTOMERS,risk management information exchangeNew market concepts,(electric, heating, cooling, ) sustainability informationREGULATION AND Balance investment timing Implementing networkregulation and rolesCoping with electrification of Adapting to increased Information platforms and vs risk codesDifferent solutions for localtransport, Power-to-X climate risk data hubsBUSINESS MODELSUse of risk standards toEstimating and enablingmarkets and integrating Implementing Smart CitiesAccess to data, exchange/improve business flexibility potential marketsExperience from sharing of data in respect performance and business Demand prognosisImplementing Citizen implementing Clean of GDPR and by privacy continuity e.g. ISO22301Experience with demandEnergy Communities (CEC) Energy Package by designand ISO31000 responseOff-grid; a real alternative?Analytics & AI case studies Implementing ISO55000 New tariff structuresAdded value throughand ISO2700x a.o. additional data sources likeQuality regulation GIS, weather, statistical etc.benchmarkABBREVIATIONS EMC: ElectroMagnetic Compatibility IoT: Internet of ThingsEMF: Electric and Magnetic Fields LV: Low VoltageAC: Alternating Current EV: Electric Vehicle P2P: Peer to PeerAI: Artificial Intelligence FACTS: Flexible Alternating Current Transmission System PQ: Power Quality / Quality of Supply SystemDC: Direct Current GDPR: General Data Protection Regulation SCADA: Supervisory Control and Data AcquisitionDER: Distributed Energy Resource GIS: Geographic Information System TSO: Transmission System OperatorDG: Distributed Generation HILP: High Impact, Low Probability V2G: Vehicle to GridDSO: Distribution System Operator HVDC: High Voltage, Direct Current VPP: Virtual Power Plants cired2021.org'