European Perspective on Microgrid Resilience · Shift from centralized to distributed control of...
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European Perspective on Microgrid Resilience
Nikos Hatziargyriou,National Technical University of Athens,
Chair of Hellenic DSO, Greece
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TOWARDS EUROPEAN MEGAGRIDfacilitating decarbonisation of EU energy system
• EU renewable energy directive‒ Allows member states with lower renewable generation potential or higher costs to
fulfill their renewables targets in /with other member states‒ Provides incentives for investments in renewable power generation at most resourceful
locations‒ Facilitates a cost effective development of renewable energy generation
• EU wide deployment of RESInter-regional transmission change from minor trading & reserve-sharing role to a substantial energy exchange by :
Supporting cost effective integration of RESA factor of three increase in inter-regional transmission capacity
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Shift from the Member State centric to a EU wide approach to decarbonisation (benefits exceeding €200bn by 2030)
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The EU Megagrid (supergrid)4
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EU MEGAGRID
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Integrates offshore renewable generation (offshore wind - marine - tidal energy) Enables the exploitation of counter-cyclicality
among primary RES Enables system to benefit from diversity in
demand & supply across Europe Allows sharing of short & long-term reserves
across european system (local level volatility reduces across dispersed areas).
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SOLAR & WIND are seasonally complementary
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Goran Strbac, et al, IEEE Power & Energy Magazine, May/June 2015
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Application of Smartgrid technologies and
Microgrids
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ENHANCING THE COST EFFECTIVENESS & RESILIENCE
Obstacles to overcome
• RES will displace energy produced by conventional plant but not the conventional generation capacity
• The utilization of generation capacity will reduce (from 55% to 35% 2025)
• The incorporation of the heat & transport sectors into electricity system will lead to a significant increase in peak demand disproportionately higher than the increase in energy
• The massive increases in power transfers across the EU regions will reduce system resilience by escalating the exposure of the system to large disturbances (vulnerability – blackouts)
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Goran Strbac, et al, IEEE Power & Energy Magazine, May/June 2015
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Enhancing the Asset Utilisation
The system resilience & security need to be provided through more sophisticated control
that incorporates advanced technologies (supported by appropriate communication & information technologies)
– Network technologies advanced measurement & network sensors, advanced power electronics technologies, various novel control & protection schemes– Demand-side response (DSR)through utilising the inherent demand-side flexibility, particularly demand associated with heat and transport. Demand-side response can be used for real-time system management, while ensuring that the intended service quality is not adversely affected– Energy storage technologiesto support demand-supply balancing /control of network flows & hence increase utilisation of electricity infrastructure assets– Enhancing the flexibility of distributed and backup generationcan be used to facilitate more secure & cost-effective real-time demand-supply balance and control of network flows, hence enhancing the resilience of the local supply & the ability of the system to absorb intermittent generation and the regional level.
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Goran Strbac, et al, IEEE Power & Energy Magazine, May/June 2015
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INTEGRATION OF MEGAGRIDS & MICROGRIDS to facilitate cost effective & resilient evolution Delivering resilience and security of supply from redundancy in assets to more intelligent operation.
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Goran Strbac, et al, IEEE Power & Energy Magazine, May/June 2015
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MICROGRIDS can
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DISCONNECT from the traditional grid OPERATE autonomously HELP mitigate grid disturbances SERVE as a grid resource for faster system
response and recovery HENCE strengthen grid resilience
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MicroGrid - Basic Architecture
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Two basic problems need to be addressed in MicroGrid’s operation
a) Voltage control - Frequency b) Load-generation balance
Control is the distinguishing feature of Microgrids
Microgrids Control: hierarchical, distributed
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Microgrids Primary Control
u
u
0 1-1 QQ N
-4%u
0
∆
f
f 0
0 1-1
-1%
PPN
f∆
Frequency droop Voltage droop
- Droops for synchronising inverters with frequency and voltage- Frequency and voltage of the inverter is set according to active andreactive power
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Centralized & Decentralized Secondary Control
The main distinction is where decisions are taken Centralized Control implies that a Central Processing
Unit collects all the measurement and decides next actions.
Decentralized Control implies that advanced controllers are installed at each node forming a distributed control system.
Choice of approach depends on DG ownership, scale, ‘plug and play’, etc.
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Shift from centralized to distributed control of MicroGrids
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Shift from centralized to distributed control of MicrogridsNew opportunities for enhancing cost effectiveness and security performance of future microgrids, with the objective deliver a truly integrated
• self-controlling, • self-optimising, • self-protecting electricity and • self-healing networks.
Control needs to meet dynamically changing objectives while the network topology, network conditions and control infrastructure, are also changing. The key driver for real-time control is to improve supply resilience and quality of service to end consumers.
Using Multiagent systems: autonomous control process is assumed by each local intelligent controller IC, namely MCs and LCs.
The MAS theory describes the coordination algorithms, the communication between the agents and the organization of the whole system.
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Multi Agent Systems
partial representation of the environment
autonomy
possesses skills
Reactive
Memory
Environment Perception
High level communication
Cognitive or
Intelligent
Physical entity that acts in the environment or a virtual one
Partial representation of the environment
Agents communicate – cooperate with each other
Agents have a certain level of autonomy
The agents have a behaviour and tends to satisfy objectives using its resources, skills and services
Typical example an ant colony
Typical example the human society
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The Kythnos Microgrid
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Advanced Sunny Island inverters, to deal with islanded mode control Intelligent Load Controllers
Settlement of 12 housesGeneration: 5 PV units connected via standard grid-tied inverters. A 9 kVA diesel genset (for back-up).Storage: Battery (60 Volt, 52 kWh) through 3 bi-directional inverters operating in parallel. Flexible Loads: 1-2 kW irrigation pumps in each house
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The Kythnos System House
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System House
Batteries
Wi-Fi
PV
Diesel
Step 1: The agents identify the status of the environment
Step 2: The agents negotiate on how the share the available energy
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Intelligent Load Controllers
In each house an ILC is installed:
• Windows CE 5.0• Intel XscaleTM PXA255 • 64MB of RAM• 32MB FLASH Memory • Java VM• Jade LEAP
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The shedding procedures start later
In this case the frequency if almost 52Hz. This is an indication that the batteries are full and the PV inverters via the droop curves limit their production.
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The Meltemi holiday camp in Greece with DGs & Intelligent Load Controllers has been used for
implementing MAS technologies
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House 3
House 1
House 2
House 5
House 4House 6
House 8Main House 7
Generator
House 9
House 10House 11
PV
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Load Controller
© SAP 2009 / Seite 26
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Field Test Schematic
LAN
Load ControllerLoad Controller
Load ControllerPCJade Platform
Monitor & Control Equipment
PVDiesel
Monitor Equipment
MGCC ESCo
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Actual Network Architecture
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CONCLUSIONS
The EU Megagrid is foreseen in order to exploit thevery large resource of Solar Energy in Southern Europe& of Wind Power in Northern Europe
Microgrids with enhanced control capabilities canintegrate & coordinate local distributed resourcesenhancing the resilience of the EU Megagrid &providing local supply restoration capabilities
Shift to distributed control enhances further theMicrogrids resilience
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