Power Converter of Electric Machines, Renewable Energy Systems, and Transportation
Dannier, Adolfo
Power Converter of Electric Machines, Renewable Energy Systems, and Transportation - Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2021 - 1 electronic resource (218 p.)
Open Access
Power converters and electric machines represent essential components in all fields of electrical engineering. In fact, we are heading towards a future where energy will be more and more electrical: electrical vehicles, electrical motors, renewables, storage systems are now widespread. The ongoing energy transition poses new challenges for interfacing and integrating different power systems. The constraints of space, weight, reliability, performance, and autonomy for the electric system have increased the attention of scientific research in order to find more and more appropriate technological solutions. In this context, power converters and electric machines assume a key role in enabling higher performance of electrical power conversion. Consequently, the design and control of power converters and electric machines shall be developed accordingly to the requirements of the specific application, thus leading to more specialized solutions, with the aim of enhancing the reliability, fault tolerance, and flexibility of the next generation power systems.
Creative Commons
English
books978-3-0365-1171-9 9783036511702 9783036511719
10.3390/books978-3-0365-1171-9 doi
Technology: general issues
Energy industries & utilities
power systems for renewable energy fault-tolerant photovoltaic inverter islanding detection energy storage system DC/AC converter voltage-source multilevel inverter PV systems neutral point clamped inverter flying capacitor inverter cascaded inverter renewable energy systems ultra-fast chargers input-series input-parallel output-series output-parallel multimodule converter cross feedback output current sharing reflex charging digital twin doubly-fed induction generator, electrical machines finite elements method monitoring real-time wound rotor induction machine subsynchronous control interaction super-twisting sliding mode variable-gain doubly fed induction generator photovoltaic system grid sliding mode control synergetic control fractional-order control converter–machine association direct drive machine Permanent Magnet Vernier Machine synchronous generator wind energy system for domestic applications renewable energy adaptive fuzzy feedback linearization photovoltaic (PV) grid inverter voltage source inverter (VSI) doubly-fed induction generator wind power system sensorless control full order observer field oriented control grid connected system lithium batteries los minimization Modular Multilevel Converters optimization methods
Power Converter of Electric Machines, Renewable Energy Systems, and Transportation - Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2021 - 1 electronic resource (218 p.)
Open Access
Power converters and electric machines represent essential components in all fields of electrical engineering. In fact, we are heading towards a future where energy will be more and more electrical: electrical vehicles, electrical motors, renewables, storage systems are now widespread. The ongoing energy transition poses new challenges for interfacing and integrating different power systems. The constraints of space, weight, reliability, performance, and autonomy for the electric system have increased the attention of scientific research in order to find more and more appropriate technological solutions. In this context, power converters and electric machines assume a key role in enabling higher performance of electrical power conversion. Consequently, the design and control of power converters and electric machines shall be developed accordingly to the requirements of the specific application, thus leading to more specialized solutions, with the aim of enhancing the reliability, fault tolerance, and flexibility of the next generation power systems.
Creative Commons
English
books978-3-0365-1171-9 9783036511702 9783036511719
10.3390/books978-3-0365-1171-9 doi
Technology: general issues
Energy industries & utilities
power systems for renewable energy fault-tolerant photovoltaic inverter islanding detection energy storage system DC/AC converter voltage-source multilevel inverter PV systems neutral point clamped inverter flying capacitor inverter cascaded inverter renewable energy systems ultra-fast chargers input-series input-parallel output-series output-parallel multimodule converter cross feedback output current sharing reflex charging digital twin doubly-fed induction generator, electrical machines finite elements method monitoring real-time wound rotor induction machine subsynchronous control interaction super-twisting sliding mode variable-gain doubly fed induction generator photovoltaic system grid sliding mode control synergetic control fractional-order control converter–machine association direct drive machine Permanent Magnet Vernier Machine synchronous generator wind energy system for domestic applications renewable energy adaptive fuzzy feedback linearization photovoltaic (PV) grid inverter voltage source inverter (VSI) doubly-fed induction generator wind power system sensorless control full order observer field oriented control grid connected system lithium batteries los minimization Modular Multilevel Converters optimization methods