Methods and Concepts for Designing and Validating Smart Grid Systems
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| Autore: |
Burt Graeme
|
| Titolo: |
Methods and Concepts for Designing and Validating Smart Grid Systems
|
| Pubblicazione: | MDPI - Multidisciplinary Digital Publishing Institute, 2019 |
| Descrizione fisica: | 1 online resource (408 p.) |
| Soggetto topico: | History of engineering and technology |
| Soggetto non controllato: | 4G Long Term Evolution-LTE |
| accuracy | |
| active distribution network | |
| adaptive control | |
| Architecture | |
| average consensus | |
| battery energy storage system (BESS) | |
| cascading procurement | |
| cell | |
| centralised control | |
| co-simulation | |
| co-simulation-based assessment methods | |
| conceptual structuration | |
| connectathon | |
| coupling method | |
| cyber physical co-simulation | |
| cyber-physical energy system | |
| data mining | |
| DC link | |
| decentralised energy system | |
| demand response | |
| design | |
| Development | |
| development and implementation methods for smart grid technologies | |
| device-to-device communication | |
| distributed control | |
| distribution grid | |
| distribution phasor measurement units | |
| droop control | |
| elastic demand bids | |
| electricity distribution | |
| Enterprise Architecture Management | |
| experimentation | |
| fault management | |
| frequency containment control (FCC) | |
| fuzzy logic | |
| gazelle | |
| hardware-in-the-loop | |
| hardware-in-the-Loop | |
| Hardware-in-the-Loop | |
| high-availability seamless redundancy (HSR) | |
| IEC 62559 | |
| IHE | |
| information and communication technology | |
| integration profiles | |
| interface algorithm (IA) | |
| interoperability | |
| investment | |
| islanded operation | |
| laboratory testbed | |
| linear decision rules | |
| linear/switching amplifier | |
| locational marginal prices | |
| market design | |
| market design elements | |
| micro combined heat and power (micro-CHP) | |
| micro-synchrophasors | |
| microgrid | |
| Model-Based Software Engineering | |
| modelling and simulation of smart grid systems | |
| multi-agent system | |
| network outage | |
| network reconfiguration | |
| operational range of PHIL | |
| optimal reserve allocation | |
| peer-to-peer | |
| PHIL (power hardware in the loop) | |
| plug-in electric vehicle | |
| PMU | |
| power frequency characteristic | |
| Power Hardware-in-the-Loop (PHIL) | |
| power loss allocation | |
| Power-Hardware-in-the-Loop | |
| pricing scheme | |
| procurement scheme | |
| Quasi-Dynamic Power-Hardware-in-the-Loop | |
| real-time balancing market | |
| real-time simulation | |
| real-time simulation and hardware-in-the-loop experiments | |
| remuneration scheme | |
| renewable energy sources | |
| resilience | |
| robust optimization | |
| seamless communications | |
| SGAM | |
| shiftable loads | |
| simulation initialization | |
| smart energy systems | |
| smart grid | |
| Smart Grid | |
| Smart Grid Architecture Model | |
| smart grids | |
| smart grids control strategies | |
| Software-in-the-Loop | |
| solar photovoltaics (PV) | |
| stability | |
| substation automation system (SAS) | |
| synchronization | |
| synchronized measurements | |
| synchronous power system | |
| synchrophasors | |
| System-of-Systems | |
| testing | |
| time delay | |
| time synchronization | |
| TOGAF | |
| traffic reduction technique | |
| underground cabling | |
| use cases | |
| Validation | |
| validation and testing | |
| validation techniques for innovative smart grid solutions | |
| voltage control | |
| web of cells | |
| Web-of-Cells | |
| wind power | |
| Persona (resp. second.): | RohjansSebastian |
| StrasserThomas | |
| Sommario/riassunto: | Energy efficiency and low-carbon technologies are key contributors to curtailing the emission of greenhouse gases that continue to cause global warming. The efforts to reduce greenhouse gas emissions also strongly affect electrical power systems. Renewable sources, storage systems, and flexible loads provide new system controls, but power system operators and utilities have to deal with their fluctuating nature, limited storage capabilities, and typically higher infrastructure complexity with a growing number of heterogeneous components. In addition to the technological change of new components, the liberalization of energy markets and new regulatory rules bring contextual change that necessitates the restructuring of the design and operation of future energy systems. Sophisticated component design methods, intelligent information and communication architectures, automation and control concepts, new and advanced markets, as well as proper standards are necessary in order to manage the higher complexity of such intelligent power systems that form smart grids. Due to the considerably higher complexity of such cyber-physical energy systems, constituting the power system, automation, protection, information and communication technology (ICT), and system services, it is expected that the design and validation of smart-grid configurations will play a major role in future technology and system developments. However, an integrated approach for the design and evaluation of smart-grid configurations incorporating these diverse constituent parts remains evasive. The currently available validation approaches focus mainly on component-oriented methods. In order to guarantee a sustainable, affordable, and secure supply of electricity through the transition to a future smart grid with considerably higher complexity and innovation, new design, validation, and testing methods appropriate for cyber-physical systems are required. Therefore, this book summarizes recent research results and developments related to the design and validation of smart grid systems. |
| Titolo autorizzato: | Methods and Concepts for Designing and Validating Smart Grid Systems |
| ISBN: | 3-03921-649-X |
| Formato: | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione: | Inglese |
| Record Nr.: | 9910367743203321 |
| Lo trovi qui: | Univ. Federico II |
| Opac: | Controlla la disponibilità qui |