Individual information
Ebrahim ROKROK | ||
Titre | Doctorant | |
Equipe | Réseaux | |
Adresse | Ecole Centrale de Lille Cité Scientifique BP 48 - 59651 VILLENEUVE-D'ASCQ | |
Téléphone | +33 (0)6-67-87-33-92 | |
ebrahim.rokrok@centralelille.fr | ||
Publications |
International Journals |
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[1] Integration of a Storage Device to the DC Bus of a Grid-Forming Controlled HVDC Interconnection Electric Power System Research, Vol. 212, 11/2022 ROKROK Ebrahim, QORIA Taoufik, BRUYERE Antoine, FRANCOIS Bruno, GUILLAUD Xavier |
[2] Transient Stability Assessment and Enhancement of Grid-Forming Converters Embedding Current Reference Saturation as Current Limiting Strategy IEEE Trans. on Power System, Vol. 37, N°. 1, 03/2022 ROKROK Ebrahim, QORIA Taoufik, BRUYERE Antoine, FRANCOIS Bruno, GUILLAUD Xavier |
[3] A PLL-Free Grid-Forming Control with Decoupled Functionalities for High-Power Transmission System Applications IEEE Access, 10/2020 QORIA Taoufik, ROKROK Ebrahim, BRUYERE Antoine, FRANCOIS Bruno, GUILLAUD Xavier |
[4] Classification of Droop-Based Grid-Forming Control Schemes: Application in Forced Commutated Converter-Based HVDC Systems Electric Power Systems Research (EPSR), 08/2020 ROKROK Ebrahim, QORIA Taoufik, BRUYERE Antoine, FRANCOIS Bruno, GUILLAUD Xavier |
International Conferences and Symposiums |
[1] Impact of grid-forming control on the internal energy of a modular multi-level converter EPE2020, 09/2020, Abstract ZHANG Haibo, ROKROK Ebrahim, QORIA Taoufik, BRUYERE Antoine, FRANCOIS Bruno, BELHAOUANE Moez, GUILLAUD Xavier |
This paper presents a comparative analysis of the dynamic behavior of a Modular Multi-level Converter (MMC) with grid-forming control either with or without controlling the MMC internal energy. It has been demonstrated that the internal energy of the MMC in low-level control interacts with the high-level control, which is performed by a grid-forming scheme. In case of controlling the internal energy of the MMC, this interaction is mitigated. Moreover, it has been shown that the dynamic behavior of a grid-forming controlled MMC with internal energy control is identical to an equivalent 2-level Voltage Source Converter (VSC). |
[2] Classification of Droop-Based Grid-Forming Control Schemes: Application in Forced Commutated Converter-Based HVDC Systems PSCC 2020, 06/2020 ROKROK Ebrahim, QORIA Taoufik, BRUYERE Antoine, FRANCOIS Bruno, GUILLAUD Xavier |
[3] Effect of Using PLL-Based Grid-Forming Control on Active Power Dynamics Under Various SCR IECON'2019-IEEE, 10/2019, Abstract ROKROK Ebrahim, QORIA Taoufik, BRUYERE Antoine, FRANCOIS Bruno, GUILLAUD Xavier |
This paper investigates the effect of using phaselocked loop (PLL) on the performance of a grid-forming
controlled converter. Usually, a grid-forming controlled
converter operates without dedicated PLL. It is shown that in
this case, the active power dominant dynamics are highly
dependent to the grid short circuit ratio (SCR). In case of using
PLL, the obtained results illustrate that the SCR has a negligible
effect on the dynamic behavior of the system. Moreover, the
power converter will not participate to the frequency regulation
anymore; therefore, the converter response time can be adjusted
independently to the choice of the droop control gain, which is
not possible without PLL. A simple equivalent model is
presented which gives a physical explanation of these features. |
PhD Thesis |
[1] Grid-forming control strategies of power electronic converters in transmission grids: application to HVDC link Thèse, 07/2022, URL, Abstract ROKROK Ebrahim |
The rapid development of converter-based devices such as converter-interfaced renewable generations and high-voltage direct-current (HVDC) transmission links is causing a profound change into the very physics of the power system. In this scenario, the power generation is shifted from the pollutant synchronous generators based on nuclear or fossil fuels to converter-based renewable resources. The modeling, control, and stability of the power converters are now one of the focuses of attention for researchers. Today, power converters have the main function of injecting power into the utility grid, while relying on synchronous machines that ensure all system needs (e.g., ancillary services, provision of inertia and reliable power reserves). This operation mode of power converters is called "Grid-following". Grid-following converters have several limitations, such as: inability to operate in a standalone mode, stability issues under weak grids and faulty conditions and also, negative side effect on the system inertia. To tackle these challenges, the grid-forming control as an alternative has shown its appropriate performance that could make this kind of control a promising solution to respond to the system needs and to allow a stable and safe operation of power system with high penetration rate of power electronic converters.
In this thesis, a fundamental description of grid-forming control with a simplified quasi-static modeling approach aiming to regulate the converter active power by a voltage source behavior is presented. From the description, several variants of gridforming strategies are identified that represent some differences in terms of active power dynamic behavior, inertia emulation capability and system frequency support. Hence, the presented grid-forming variants are then classified according to their capabilities/functionalities. From the small-signal stability and robustness point of view, the studied grid-forming controls, which are implemented to a 2-level VSC at first, show their ability to operate under very weak grid conditions. Moreover, the ancillary services such as inertial response and frequency support are appropriately provided to the AC grid.
The questions of the grid-forming converters protection against overcurrent and their post-fault synchronization while considering the current limitation are investigated and a new method is proposed to enhance the transient stability of the system. All the obtained results are then extended to a modular multi-level converter (MMC) topology successfully.
The use of a grid forming control in an HVDC converter is interesting for the grid to which it is connected due to the inertial effect that can be induced. Therefore, the final part of this thesis evaluates the dynamic performance of an HVDC link interconnecting two AC grids and highlights the proper strategy and requirements for inertia provision. |
Le L2EP recrute
Dernières actualités
- Soutenance de Thèse, Wei CHEN, 29 Nov. 2024
- Séminaire, Pr. Hajime IGARASHI (Hokkaido University, Japan), 28 Nov. 2024
- Séminaire, Dr. Nathan WILLIAMS, Nov. 25, 2024
- Soutenance de Thèse, Ghazala SHAFIQUE, 21 Nov. 2024
- Soutenance de thèse, Yahya LAMRANI, 30 Octobre 2024
- Séminaire JCJC, 25 octobre 2024
- Soutenance de thèse, Othmane MARBOUH, 23 octobre 2024
- Visite du HCERES, 16 et 17 Octobre 2024
- Séminaire, Dr. Alessandro Formisano, Sept. 23, 2024
- Réunion d’information: Valorisation des résultats de recherche / SATT Nord, 18 Sept. 2024