[HTML][HTML] Port-Hamiltonian framework in power systems domain: A survey
Many nonlinear physical phenomena, including various power systems, can be modeled,
analyzed, and controlled using the framework of port-Hamiltonian systems. Moreover, this …
analyzed, and controlled using the framework of port-Hamiltonian systems. Moreover, this …
Control of grid forming inverter based on robust IDA-PBC for power quality enhancement
This paper deal with power quality issues in weak voltage isolated micro-grids, where the
power export is managed through an inverter connected via an LC filter to feed the local …
power export is managed through an inverter connected via an LC filter to feed the local …
Modeling and control of multiphase interleaved fuel-cell boost converter based on Hamiltonian control theory for transportation applications
This article presents a multiphase interleaved boost converter supplied by a fuel-cell
(FC)/reformer power source for highly dynamic transportation applications. A control theory …
(FC)/reformer power source for highly dynamic transportation applications. A control theory …
Nonlinear voltage control for three-phase dc-ac converters in hybrid systems: An application of the pi-pbc method
In this paper, a proportional-integral passivity-based controller (PI-PBC) is proposed to
regulate the amplitude and frequency of the three-phase output voltage in a direct-current …
regulate the amplitude and frequency of the three-phase output voltage in a direct-current …
Adaptive control of fuel cell converter based on a new hamiltonian energy function for stabilizing the DC bus in DC microgrid applications
DC microgrid applications include electric vehicle systems, shipboard power systems, and
More Electric Aircraft (MEA), which produce power at a low voltage level. Rapid …
More Electric Aircraft (MEA), which produce power at a low voltage level. Rapid …
Design modeling, and control of multi-stage SMES integrated with PV system
EA Gouda, A Abd-Alaziz, M El-Saadawi - Journal of Energy Storage, 2020 - Elsevier
Abstract Superconducting Magnetic Energy Storage (SMES) is an electrical storage device.
It stores the available energy in the form of electromagnetic fields. The features of SMES …
It stores the available energy in the form of electromagnetic fields. The features of SMES …
Stabilization of MT-HVDC grids via passivity-based control and convex optimization
This paper presents a model for stabilizing multi-terminal high voltage direct-current (MT-
HVDC) networks with constant power terminals (CPTs) interfaced with power electronic …
HVDC) networks with constant power terminals (CPTs) interfaced with power electronic …
Control of a SMES for mitigating subsynchronous oscillations in power systems: A PBC-PI approach
This paper proposes a methodology to control the active and reactive power of a
superconducting magnetic energy storage (SMES) system to alleviate subsynchronous …
superconducting magnetic energy storage (SMES) system to alleviate subsynchronous …
Passivity-based PI control of a SMES system to support power in electrical grids: A bilinear approach
W Gil-González, OD Montoya - Journal of Energy Storage, 2018 - Elsevier
A bilinear proportional-integral (PI) controller based on passivity-based formulations for
integrating superconducting magnetic energy storage (SMES) devices to power ac …
integrating superconducting magnetic energy storage (SMES) devices to power ac …
Direct power control of electrical energy storage systems: A passivity-based PI approach
This paper proposes a direct power control for electrical energy storage systems (EESS) in
ac microgrids. This strategy allows managing instantaneous active and reactive power …
ac microgrids. This strategy allows managing instantaneous active and reactive power …