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TY  - BOOK
ID  - 61157112
TI  - Microgrids
PY  - 2020
SN  - 3039218697 3039218689
PB  - MDPI - Multidisciplinary Digital Publishing Institute
DB  - UniCat
KW  - energy management system
KW  - buck-boost converter
KW  - generic object oriented substation event (GOOSE) communication
KW  - stochastic optimization
KW  - optimal dispatch
KW  - decision tree
KW  - coordinated control
KW  - optimization
KW  - congestion problems
KW  - distributed optimization
KW  - IEC 61850 Standard
KW  - distributed energy resources (DERs)
KW  - technical and economic optimization
KW  - reliability evaluation
KW  - power quality disturbances
KW  - renewable
KW  - DC microgrid
KW  - HESS
KW  - ruleless EV
KW  - extension theory
KW  - network planning
KW  - integrated electrical and thermal grids
KW  - reliability
KW  - photovoltaic feasibility
KW  - flexibility
KW  - microgrid test facility
KW  - microgrid
KW  - multiresolution
KW  - small-scale standalone microgrid
KW  - IEC 61850
KW  - direct search method (DSM)
KW  - maximum electrical efficiency
KW  - load frequency control (LFC)
KW  - droop control
KW  - flexible generation
KW  - grid independence
KW  - frequency control
KW  - particle swarm optimization
KW  - battery storage
KW  - microgrid stability controller (MSC)
KW  - doubly fed induction machine
KW  - coordinative optimization of energy
KW  - power distribution
KW  - hierarchical control scheme
KW  - grounding
KW  - operation
KW  - electric energy market
KW  - nonlinear programming
KW  - cost and life
KW  - total sliding-mode control
KW  - distributed energy resource
KW  - vehicle information system
KW  - peak-cut
KW  - smoothing wind power
KW  - genetic algorithm
KW  - medium-voltage networks
KW  - vehicle-to-grid
KW  - devices scheduling
KW  - microgrids
KW  - energy storage
KW  - electric vehicle
KW  - energy efficiency
KW  - active filter
KW  - embedded system
KW  - multivariable generalized predictive control (MGPC)
KW  - load power sharing
KW  - flywheel energy storage (FES)
KW  - renewable sources
KW  - telecommunication power management
KW  - micro-grid
KW  - smart inverter
KW  - distributed generation
KW  - storage systems
KW  - electric vehicle (EV)
KW  - microgrid (MG)
KW  - mesh configuration
KW  - residential users
KW  - renewable energy source
KW  - radial configuration
KW  - S-transform
KW  - optimal power flow
KW  - solid oxide fuel cell
KW  - vehicle-to-grid (V2G)
KW  - communication delay
KW  - current harmonic reduction
KW  - smart grids
KW  - inrush current
KW  - flexible and configurable architecture
KW  - optimal capacity
KW  - ESS effective rate
KW  - smart grid
KW  - multi-agent
KW  - distributed energy resources
KW  - regular EV
KW  - peak-shift
KW  - datacenter
KW  - deterministic optimization
KW  - plug and play
KW  - chaos synchronization detection
KW  - residential power systems
KW  - power quality
KW  - combined power generation system
KW  - DC distribution
KW  - isolated grid
KW  - coordinated control strategy
KW  - DC architectures
KW  - predictive control
KW  - demand-side management
KW  - distributed generation (DG)
KW  - curtailment
UR  - https://www.unicat.be/uniCat?func=search&query=sysid:61157112
AB  - Electrical power systems are evolving at the generation, transmission, and distribution levels. At distribution level, small generating and storage units—the so-called distributed energy sources (DERs)—are being installed close to consumption sites. The expansion of DERs is empowering renewable energy source integration and, as a consequence, new actors are appearing in electrical systems. Among them, the prosumer is a game-changer; the fruit of the behavior transformation of the consumer who has not only the ability to consume power but also to produce it. Microgrids can be understood as DER installations that have the capability of both grid-connected and grid-isolated operation. During the last decades, there has been a significant deployment of microgrids (e.g., in countries like the United States, Switzerland, and Denmark) and a consequent increase in renewable energy generation. This is contributing to the decarbonization of electrical power systems. However, the variability and intermittency of renewable sources introduce uncertainty, which implies a more complex operation and control. Taking into account that existing and future planned microgrids are being/going to be interconnected to the current electrical network, challenges in terms of design, operation, and control at power system level need to be addressed, considering existing regulations.
ER  -