Passive and Active Distribution Networks ESI...Dr.Tosak Thasananutariya Metropolitan Electricity Authority Passive and Active Distribution Networks Tosak Thasananutariya, Ph.D. Metropolitan
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Dr.Tosak Thasananutariya Metropolitan Electricity Authority
Passive and Active Passive and Active Distribution NetworksDistribution Networks
Tosak Thasananutariya, Ph.D.Metropolitan Electricity Authority (MEA)November 26, 2008
TosakTosak ThasananutariyaThasananutariya, Ph.D., Ph.D.Metropolitan Electricity Authority (MEA)Metropolitan Electricity Authority (MEA)November 26, 2008November 26, 2008
ESI Conference 2008, 26ESI Conference 2008, 26--27 November 200827 November 2008
Dr.Tosak Thasananutariya Metropolitan Electricity Authority
ESI Conference 2008ESI Conference 2008ESI Conference 2008, 26ESI Conference 2008, 26--27 November 200827 November 2008
““อุตสาหกรรมไฟฟาในทศวรรษหนาอุตสาหกรรมไฟฟาในทศวรรษหนา””
““ESIESI inin thethe FutureFuture””
Dr.Tosak Thasananutariya Metropolitan Electricity Authority
OutlineOutline
•• Classic electricity paradigmClassic electricity paradigm•• DG electricity paradigmDG electricity paradigm•• Evolution of distribution systemEvolution of distribution system•• Active distribution networkActive distribution network•• MicrogridMicrogrid ((µµGrid)Grid)
ESI Conference 2008, 26ESI Conference 2008, 26--27 November 200827 November 2008
Dr.Tosak Thasananutariya Metropolitan Electricity Authority
Classic electricity paradigmClassic electricity paradigmESI Conference 2008, 26ESI Conference 2008, 26--27 November 200827 November 2008
Dr.Tosak Thasananutariya Metropolitan Electricity Authority
Passive distribution networkPassive distribution networkESI Conference 2008, 26ESI Conference 2008, 26--27 November 200827 November 2008
Transmission
G GGeneration
Distribution
Traditional one way supply system
Supply
Demand
Dr.Tosak Thasananutariya Metropolitan Electricity Authority
Distributed generation electricity paradigmDistributed generation electricity paradigmESI Conference 2008, 26ESI Conference 2008, 26--27 November 200827 November 2008
Dr.Tosak Thasananutariya Metropolitan Electricity Authority
Central vs. DGCentral vs. DGESI Conference 2008, 26ESI Conference 2008, 26--27 November 200827 November 2008
Dr.Tosak Thasananutariya Metropolitan Electricity Authority
Driving forceDriving force
•• Governmental policyGovernmental policy•• Global warming and climate changeGlobal warming and climate change•• Energy efficient utilizationEnergy efficient utilization•• Electricity and heat loads Electricity and heat loads •• Reliability and power qualityReliability and power quality•• Emerging technologiesEmerging technologies
ESI Conference 2008, 26ESI Conference 2008, 26--27 November 200827 November 2008
Dr.Tosak Thasananutariya Metropolitan Electricity Authority
Government policyGovernment policyESI Conference 2008, 26ESI Conference 2008, 26--27 November 200827 November 2008
Cleaner & renewable sources of electricity generation
Dr.Tosak Thasananutariya Metropolitan Electricity Authority
Government policy (cont.)Government policy (cont.)
•• By 2025, Obama would like By 2025, Obama would like 25% of U.S. electricity to be 25% of U.S. electricity to be generated from clean, generated from clean, renewable sources including renewable sources including wind, solar and geothermal wind, solar and geothermal with a Renewable Portfolio with a Renewable Portfolio Standard (RPS).Standard (RPS).
•• Obama calls for $150 billion Obama calls for $150 billion to be invested over 10 years to be invested over 10 years in clean energy and in clean energy and infrastructureinfrastructure to support it.to support it.
ESI Conference 2008, 26ESI Conference 2008, 26--27 November 200827 November 2008
Dr.Tosak Thasananutariya Metropolitan Electricity Authority
RE target in ThailandRE target in ThailandESI Conference 2008, 26ESI Conference 2008, 26--27 November 200827 November 2008
Dr.Tosak Thasananutariya Metropolitan Electricity Authority
Global warming & climate changeGlobal warming & climate changeESI Conference 2008, 26ESI Conference 2008, 26--27 November 200827 November 2008
Dr.Tosak Thasananutariya Metropolitan Electricity Authority
Energy efficient utilizationEnergy efficient utilizationESI Conference 2008, 26ESI Conference 2008, 26--27 November 200827 November 2008
Dr.Tosak Thasananutariya Metropolitan Electricity Authority
Electricity and heat loadsElectricity and heat loadsESI Conference 2008, 26ESI Conference 2008, 26--27 November 200827 November 2008
Dr.Tosak Thasananutariya Metropolitan Electricity Authority
ReliabilityReliabilityESI Conference 2008, 26ESI Conference 2008, 26--27 November 200827 November 2008
North America power blackout
Dr.Tosak Thasananutariya Metropolitan Electricity Authority
Power Quality: PQPower Quality: PQESI Conference 2008, 26ESI Conference 2008, 26--27 November 200827 November 2008
Dr.Tosak Thasananutariya Metropolitan Electricity Authority
Cost of poor power qualityCost of poor power qualityESI Conference 2008, 26ESI Conference 2008, 26--27 November 200827 November 2008
Dr.Tosak Thasananutariya Metropolitan Electricity Authority
Present and future architecture of electric power systemPresent and future architecture of electric power system
ESI Conference 2008, 26ESI Conference 2008, 26--27 November 200827 November 2008
Dr.Tosak Thasananutariya Metropolitan Electricity Authority
Evolution of distribution systemEvolution of distribution system•• The more DG devices penetrate the distribution The more DG devices penetrate the distribution
networks, the more these systems are expected to networks, the more these systems are expected to evolve towards transmissionevolve towards transmission--like architectureslike architectures
ESI Conference 2008, 26ESI Conference 2008, 26--27 November 200827 November 2008
Dr.Tosak Thasananutariya Metropolitan Electricity Authority
Evolution of distribution system (cont.)Evolution of distribution system (cont.)
•• Unlike transmission grids, the distribution Unlike transmission grids, the distribution networks have generally not been designed to networks have generally not been designed to operate in the presence of power injectionsoperate in the presence of power injections
•• Indeed, the distribution networks have been Indeed, the distribution networks have been developed with radial structures (especially at developed with radial structures (especially at low and medium voltage level) or with low and medium voltage level) or with meshed structures and radial operation meshed structures and radial operation (mostly at medium and high voltage level)(mostly at medium and high voltage level)
ESI Conference 2008, 26ESI Conference 2008, 26--27 November 200827 November 2008
Dr.Tosak Thasananutariya Metropolitan Electricity Authority
Evolution of distribution system (cont.)Evolution of distribution system (cont.)•• With an increasing DG penetration the situation is With an increasing DG penetration the situation is
changing and resulting in possible bichanging and resulting in possible bi--directional power directional power flows (flows (uniuni--directional power flows without DG)directional power flows without DG)
ESI Conference 2008, 26ESI Conference 2008, 26--27 November 200827 November 2008
Dr.Tosak Thasananutariya Metropolitan Electricity Authority
Active distribution networkActive distribution networkESI Conference 2008, 26ESI Conference 2008, 26--27 November 200827 November 2008
Traditional one way supply system
Supply
Demand
Transmission
G GGeneration
DistributionGG
Bidirectional supply system
Generation
Dr.Tosak Thasananutariya Metropolitan Electricity Authority
Active distribution network (cont.)Active distribution network (cont.)•• The evolution shall be accompanied byThe evolution shall be accompanied by
an appropriate upgrade of the protection an appropriate upgrade of the protection schemesschemesintroduction, at different stages, of new soft introduction, at different stages, of new soft (ICT) and hard (power electronics(ICT) and hard (power electronics--based based devices) technologies for a more flexible devices) technologies for a more flexible system controlsystem control
ESI Conference 2008, 26ESI Conference 2008, 26--27 November 200827 November 2008
Dr.Tosak Thasananutariya Metropolitan Electricity Authority
Configuration of traditional & active distribution gridsConfiguration of traditional & active distribution grids
ESI Conference 2008, 26ESI Conference 2008, 26--27 November 200827 November 2008
An example of the evolution of distribution architecture, from the traditional one towards the active distribution scheme
Dr.Tosak Thasananutariya Metropolitan Electricity Authority
Basic scheme of distribution grid evolution processBasic scheme of distribution grid evolution processESI Conference 2008, 26ESI Conference 2008, 26--27 November 200827 November 2008
Dr.Tosak Thasananutariya Metropolitan Electricity Authority
PEAPEA--SCADA/EMS/DMSSCADA/EMS/DMSESI Conference 2008, 26ESI Conference 2008, 26--27 November 200827 November 2008
Dr.Tosak Thasananutariya Metropolitan Electricity Authority
MicrogridsMicrogrids•• MicrogridsMicrogrids comprise low voltage distribution comprise low voltage distribution
systems with distributed energy sources, storage systems with distributed energy sources, storage devices and controllable loads, operated connected devices and controllable loads, operated connected to the main power network or islanded, in a to the main power network or islanded, in a controlled, coordinated waycontrolled, coordinated way
ESI Conference 2008, 26ESI Conference 2008, 26--27 November 200827 November 2008
Dr.Tosak Thasananutariya Metropolitan Electricity Authority
MicrogridMicrogrid architecturearchitectureESI Conference 2008, 26ESI Conference 2008, 26--27 November 200827 November 2008
DMS
MC – Micro Source ControllerLC – Load Controller MGCC – MicroGrid Center Controller
Dr.Tosak Thasananutariya Metropolitan Electricity Authority
MicrogridMicrogrid:: Hachinohe projectHachinohe project•• This project will produce electricity from This project will produce electricity from
100% renewable energy resources such as 100% renewable energy resources such as photovoltaic solar panels (PV) and wind photovoltaic solar panels (PV) and wind turbines (WT), gas engines utilizing methane turbines (WT), gas engines utilizing methane gas from a sewage treatment facility, and a gas from a sewage treatment facility, and a storage batterystorage battery
•• The maximum total capacity of energy The maximum total capacity of energy generated by the gas engine, PV and wind generated by the gas engine, PV and wind turbines will total 710 kWturbines will total 710 kW
ESI Conference 2008, 26ESI Conference 2008, 26--27 November 200827 November 2008
Dr.Tosak Thasananutariya Metropolitan Electricity Authority
MicrogridMicrogrid: : HachinoheHachinohe project (cont.)project (cont.)ESI Conference 2008, 26ESI Conference 2008, 26--27 November 200827 November 2008
Dr.Tosak Thasananutariya Metropolitan Electricity Authority
Distributed power generation solutionsDistributed power generation solutionsESI Conference 2008, 26ESI Conference 2008, 26--27 November 200827 November 2008
Thank youThank youThank you
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