Allocation of centrally switched fault current limiters enabled by 5G in transmission system
The allocation of fault current limiters (FCLs) is increasingly challenging in transmission systems these days. Specifically, the utilized deterministic expected short-circuit fault (SCF) scenarios are prone to cause over-configuration of FCLs. Moreover, the well-established local switching framewor...
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sg-ntu-dr.10356-1607382022-08-02T02:15:57Z Allocation of centrally switched fault current limiters enabled by 5G in transmission system Guo, Libang Ye, Chengjin Ding, Yi Wang, Peng School of Electrical and Electronic Engineering Engineering::Electrical and electronic engineering Centralized Switch Framework Bi-Level Model The allocation of fault current limiters (FCLs) is increasingly challenging in transmission systems these days. Specifically, the utilized deterministic expected short-circuit fault (SCF) scenarios are prone to cause over-configuration of FCLs. Moreover, the well-established local switching framework (LSF) renders inappropriate FCL switching and may further harm the system safe operation. Aiming at the above deficiencies, a novel 5G-based centralized switch FCL (CSF) framework as well as a method to allocate such flexible FCLs optimally is proposed in this paper. In the proposed CSF, the FCLs are switched by a FCL dispatching (FD) model considering system security constraints of both fault current and voltage sags. By exploiting the fast communication capability of 5G network as well as an off-line fault scanning strategy, the FD model is enabled to give online FCL switching schemes to meet the fast requirement of power system protection. Moreover, considering the probabilistic characteristic of SCFs, a bi-level FCL allocation model is established, in which the upper-level model sites and sizes FCLs considering the installation and expected switching costs while the lower-level model determines the optimal switched FCLs under each specific SCF scenario. Finally, numerical results are provided to verify the proposed allocation model, including its defending effect against SCFs in terms of fault current limiting, voltage sags relieving, as well as its cost-effectiveness. This work was supported in part by the China NSFC under Grant 51807173. 2022-08-02T02:15:57Z 2022-08-02T02:15:57Z 2021 Journal Article Guo, L., Ye, C., Ding, Y. & Wang, P. (2021). Allocation of centrally switched fault current limiters enabled by 5G in transmission system. IEEE Transactions On Power Delivery, 36(5), 3231-3241. https://dx.doi.org/10.1109/TPWRD.2020.3037193 0885-8977 https://hdl.handle.net/10356/160738 10.1109/TPWRD.2020.3037193 2-s2.0-85096874835 5 36 3231 3241 en IEEE Transactions on Power Delivery © 2020 IEEE. All rights reserved. |
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Engineering::Electrical and electronic engineering Centralized Switch Framework Bi-Level Model Guo, Libang Ye, Chengjin Ding, Yi Wang, Peng Allocation of centrally switched fault current limiters enabled by 5G in transmission system |
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The allocation of fault current limiters (FCLs) is increasingly challenging in transmission systems these days. Specifically, the utilized deterministic expected short-circuit fault (SCF) scenarios are prone to cause over-configuration of FCLs. Moreover, the well-established local switching framework (LSF) renders inappropriate FCL switching and may further harm the system safe operation. Aiming at the above deficiencies, a novel 5G-based centralized switch FCL (CSF) framework as well as a method to allocate such flexible FCLs optimally is proposed in this paper. In the proposed CSF, the FCLs are switched by a FCL dispatching (FD) model considering system security constraints of both fault current and voltage sags. By exploiting the fast communication capability of 5G network as well as an off-line fault scanning strategy, the FD model is enabled to give online FCL switching schemes to meet the fast requirement of power system protection. Moreover, considering the probabilistic characteristic of SCFs, a bi-level FCL allocation model is established, in which the upper-level model sites and sizes FCLs considering the installation and expected switching costs while the lower-level model determines the optimal switched FCLs under each specific SCF scenario. Finally, numerical results are provided to verify the proposed allocation model, including its defending effect against SCFs in terms of fault current limiting, voltage sags relieving, as well as its cost-effectiveness. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Guo, Libang Ye, Chengjin Ding, Yi Wang, Peng |
| format |
Article |
| author |
Guo, Libang Ye, Chengjin Ding, Yi Wang, Peng |
| author_sort |
Guo, Libang |
| title |
Allocation of centrally switched fault current limiters enabled by 5G in transmission system |
| title_short |
Allocation of centrally switched fault current limiters enabled by 5G in transmission system |
| title_full |
Allocation of centrally switched fault current limiters enabled by 5G in transmission system |
| title_fullStr |
Allocation of centrally switched fault current limiters enabled by 5G in transmission system |
| title_full_unstemmed |
Allocation of centrally switched fault current limiters enabled by 5G in transmission system |
| title_sort |
allocation of centrally switched fault current limiters enabled by 5g in transmission system |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/160738 |
| _version_ |
1743119532897075200 |