Unified Fast Decoupled Load Flow in a Parallel Distributed Computation Framework
This research proposes a parallel and distributed computation approach for the fast decoupled load flow (FDLF) analysis applicable to both transmission and distribution networks of large electrical power systems. In this approach, the overall repetitive FDLF computations are performed by the respect...
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| Published in: | Electric power components and systems Vol. 48; no. 1-2; pp. 128 - 137 |
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| Main Author: | |
| Format: | Journal Article |
| Language: | English |
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Philadelphia
Taylor & Francis
20.01.2020
Taylor & Francis Ltd |
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| ISSN: | 1532-5008, 1532-5016 |
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| Abstract | This research proposes a parallel and distributed computation approach for the fast decoupled load flow (FDLF) analysis applicable to both transmission and distribution networks of large electrical power systems. In this approach, the overall repetitive FDLF computations are performed by the respective control centers identified for each sub-system, the sub-systems being formed by partitioning the system through a network tearing procedure splitting the identified buses. The data of each subsystem are stored at their own control centers and hence the subsystems are solved using message passing distributed memory architecture. The computations performed by the control centers in various sub-systems are coordinated from a regional control center. The investigations on IEEE 118 bus standard test system indicate that the proposed approach provides faster solution than the conventional approach, without affecting the solution accuracy. The effectiveness of the proposed technique over the conventional approach become more visible when it is applied for the load flow analysis of large scale systems spread over a wide geographical area. |
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| AbstractList | This research proposes a parallel and distributed computation approach for the fast decoupled load flow (FDLF) analysis applicable to both transmission and distribution networks of large electrical power systems. In this approach, the overall repetitive FDLF computations are performed by the respective control centers identified for each sub-system, the sub-systems being formed by partitioning the system through a network tearing procedure splitting the identified buses. The data of each subsystem are stored at their own control centers and hence the subsystems are solved using message passing distributed memory architecture. The computations performed by the control centers in various sub-systems are coordinated from a regional control center. The investigations on IEEE 118 bus standard test system indicate that the proposed approach provides faster solution than the conventional approach, without affecting the solution accuracy. The effectiveness of the proposed technique over the conventional approach become more visible when it is applied for the load flow analysis of large scale systems spread over a wide geographical area. |
| Author | Sreerama, Kumar R. |
| Author_xml | – sequence: 1 givenname: Kumar R. surname: Sreerama fullname: Sreerama, Kumar R. email: dr.r.sreeramkumar@gmail.com organization: Department of Electrical and Computer Engineering, King Abdulaziz University |
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| Cites_doi | 10.1016/S0142-0615(01)00061-8 10.1109/TPAS.1967.291823 10.1016/j.ijepes.2015.03.020 10.1109/T-PAS.1976.32218 10.1109/59.192930 10.1109/TPAS.1974.293985 |
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| Copyright | 2020 Taylor & Francis Group, LLC 2020 2020 Taylor & Francis Group, LLC |
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| SubjectTerms | Computation Computer architecture Control centres Control systems distributed computing Distributed memory distributed system Electric power systems fast decoupled load flow load flow Message passing network tearing parallel algorithm power system power system computations, bus splitting power system steady state analysis Stress concentration Subsystems |
| Title | Unified Fast Decoupled Load Flow in a Parallel Distributed Computation Framework |
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