Emerging Converter Topologies and Control for Grid Connected Photovoltaic Systems
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| Autore: |
Vinnikov Dmitri
|
| Titolo: |
Emerging Converter Topologies and Control for Grid Connected Photovoltaic Systems
|
| Pubblicazione: | Basel, Switzerland, : MDPI - Multidisciplinary Digital Publishing Institute, 2021 |
| Descrizione fisica: | 1 online resource (364 p.) |
| Soggetto topico: | History of engineering and technology |
| Soggetto non controllato: | 1500 V photovoltaic (PV) |
| active power | |
| active power up-regulation | |
| adaptive droop control | |
| bidirectional switch | |
| bridge-linked (BL) | |
| buck-boost | |
| burst control | |
| capability curves | |
| cascade multilevel converters | |
| cascaded H-bridge | |
| center-cross-tied (CCT) | |
| consensus algorithm | |
| control system | |
| conversion efficiency | |
| converter topologies | |
| coordinated control | |
| cost-oriented design | |
| DC electric spring | |
| DC microgrid | |
| DC-AC converters | |
| DC-DC converter | |
| differential power processing (DPP) | |
| distributed cooperative control | |
| distributed renewable energy source | |
| double-frequency ripple | |
| droop control | |
| dual inverter | |
| efficiency | |
| Electric spring | |
| energy storage | |
| energy yield | |
| ESS sizing | |
| filter | |
| frequency response (FR) | |
| full bridge inverter | |
| full-bridge inverter | |
| grid codes | |
| grid integration | |
| grid-connected photovoltaic systems | |
| grid-tied PV plant | |
| hierarchical control | |
| leakage current | |
| maximum power-point tracking | |
| microgrid | |
| microinverter | |
| mismatch | |
| modular multilevel converter | |
| modulation | |
| module level | |
| multiple maximas | |
| multistring converters | |
| neutral-point-clamped inverter | |
| NPC topology | |
| open-end winding transformer | |
| partial shading | |
| PFC | |
| photovoltaic | |
| photovoltaic (PV) | |
| photovoltaic (PV) arrays | |
| photovoltaic application | |
| photovoltaic inverter | |
| photovoltaic power system | |
| power clipping | |
| power decoupling control | |
| power reserve control (PRC) | |
| PV applications | |
| PV generators | |
| PV inverters | |
| PV microinverters | |
| PV systems | |
| quasi-z-source | |
| quasi-Z-source inverter | |
| reactive power | |
| reliability | |
| renewable energy | |
| Renewable energy | |
| residential systems | |
| ripple vector cancellation | |
| series resonance converter | |
| series-parallel (SP) | |
| shoot-through duty cycle | |
| single stage micro-inverter | |
| single-stage | |
| solar energy | |
| switch-mode rectifier | |
| switching modulation strategy | |
| T-type converters | |
| tapped inductor | |
| three-level inverter | |
| three-phase rectifier | |
| total-cross-tied (TCT) | |
| transformerless inverter | |
| two-level inverter | |
| variable dc-link voltage | |
| variable frequency control | |
| virtual synchronous generator (VSG) | |
| wide range converter | |
| ZCS | |
| ZVS | |
| Persona (resp. second.): | KouroSamir |
| YangYongheng | |
| VinnikovDmitri | |
| Sommario/riassunto: | Continuous cost reduction of photovoltaic (PV) systems and the rise of power auctions resulted in the establishment of PV power not only as a green energy source but also as a cost-effective solution to the electricity generation market. Various commercial solutions for grid-connected PV systems are available at any power level, ranging from multi-megawatt utility-scale solar farms to sub-kilowatt residential PV installations. Compared to utility-scale systems, the feasibility of small-scale residential PV installations is still limited by existing technologies that have not yet properly address issues like operation in weak grids, opaque and partial shading, etc. New market drivers such as warranty improvement to match the PV module lifespan, operation voltage range extension for application flexibility, and embedded energy storage for load shifting have again put small-scale PV systems in the spotlight. This Special Issue collects the latest developments in the field of power electronic converter topologies, control, design, and optimization for better energy yield, power conversion efficiency, reliability, and longer lifetime of the small-scale PV systems. This Special Issue will serve as a reference and update for academics, researchers, and practicing engineers to inspire new research and developments that pave the way for next-generation PV systems for residential and small commercial applications. |
| Titolo autorizzato: | Emerging Converter Topologies and Control for Grid Connected Photovoltaic Systems |
| Formato: | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione: | Inglese |
| Record Nr.: | 9910557117603321 |
| Lo trovi qui: | Univ. Federico II |
| Opac: | Controlla la disponibilità qui |