| Autore: |
Bak-Jensen Birgitte
|
| Titolo: |
Integration of Renewables in Power Systems by Multi-Energy System Interaction
|
| Pubblicazione: |
Basel, Switzerland, : MDPI - Multidisciplinary Digital Publishing Institute, 2021 |
| Descrizione fisica: |
1 online resource (358 p.) |
| Soggetto topico: |
History of engineering and technology |
| Soggetto non controllato: |
CO2 emissions |
| |
combined heat and power system |
| |
commercial buildings |
| |
damping torque |
| |
day-ahead thermal generation scheduling |
| |
DC grid |
| |
dissemination |
| |
distributed energy systems |
| |
double-layer optimal scheduling |
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dynamic market |
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economic environmental dispatch |
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eigenvalue analysis |
| |
electric boiler |
| |
emission abatement strategies |
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energy flexibility |
| |
energy system analysis |
| |
enhance total transfer capability |
| |
estimation of thermal demand |
| |
flexibility optimization |
| |
flexibility quantification |
| |
flexibility scheduling |
| |
flexible demand |
| |
gas distribution |
| |
grid expansion planning |
| |
heat pumps |
| |
HVAC systems |
| |
hybrid electricity-natural gas energy systems |
| |
hydrogen |
| |
integrated demand response |
| |
integrated energy park |
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integrated energy system |
| |
integrated energy systems |
| |
isolated bidirectional DC-DC converter |
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Levenberg-Marquardt method |
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load-profiles |
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local energy management systems |
| |
low-carbon |
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medium- and long-term |
| |
modeling |
| |
multi energy system |
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multi-energy system |
| |
multi-energy systems |
| |
multi-objective optimization |
| |
multiport converter |
| |
Nash equilibrium |
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network operation |
| |
non-cooperative game |
| |
optimization scheduling |
| |
park partition |
| |
photovoltaic generation |
| |
power grid |
| |
power system economics |
| |
power to gas (P2G) |
| |
power-to-heat |
| |
random fluctuations of renewable energy |
| |
reactive power control method |
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reduce curtailed wind power |
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renewable energy generation |
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renewable energy policy |
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renewable energy subsidies |
| |
residential buildings |
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rolling time-horizon |
| |
scenario method |
| |
self-sufficiency |
| |
sensitivity between TSTTC and reactive power |
| |
small-signal model |
| |
smart energy system |
| |
solar PV |
| |
system dynamics |
| |
temperature dynamics of the urban heat network |
| |
temporal dependence |
| |
thermal storage |
| |
triple active bridge |
| |
trust region method |
| |
TSTTC of transmission lines |
| |
ultralow-frequency oscillation |
| |
urban integrated heat and power system |
| |
user decision |
| |
whole system modelling |
| |
wind power uncertainty |
| Persona (resp. second.): |
PillaiJayakrishnan Radhakrishna |
| |
Bak-JensenBirgitte |
| Sommario/riassunto: |
This book focuses on the interaction between different energy vectors, that is, between electrical, thermal, gas, and transportation systems, with the purpose of optimizing the planning and operation of future energy systems. More and more renewable energy is integrated into the electrical system, and to optimize its usage and ensure that its full production can be hosted and utilized, the power system has to be controlled in a more flexible manner. In order not to overload the electrical distribution grids, the new large loads have to be controlled using demand response, perchance through a hierarchical control set-up where some controls are dependent on price signals from the spot and balancing markets. In addition, by performing local real-time control and coordination based on local voltage or system frequency measurements, the grid hosting limits are not violated. |
| Titolo autorizzato: |
Integration of Renewables in Power Systems by Multi-Energy System Interaction |
|
| Formato: |
Materiale a stampa  |
| Livello bibliografico |
Monografia |
| Lingua di pubblicazione: |
Inglese |
| Record Nr.: | 9910557313203321 |
|
| Lo trovi qui: | Univ. Federico II |
| Opac: |
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