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Optimization unit for real-time applications in unbalanced smart distribution networks

[Display omitted] •This work proposes a new generalized formulation for the optimal power flow.•The proposed formulation is suitable for real-time energy management systems.•Unlike previous research, the proposed formulation tackles practical unbalanced systems.•Detailed analysis with simulation res...

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Published in:	Journal of advanced research 2019-11, Vol.20, p.51-60
Main Authors:	Shaaban, M.F., Ahmed, M.H., Salama, M.M.A., Rahimi-Kian, Ashkan
Format:	Article
Language:	English
Subjects:	Distribution systems Energy management systems Jacobian matrix Optimal power flow Original Smart Grids Unbalanced systems
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creator	Shaaban, M.F. Ahmed, M.H. Salama, M.M.A. Rahimi-Kian, Ashkan
description	[Display omitted] •This work proposes a new generalized formulation for the optimal power flow.•The proposed formulation is suitable for real-time energy management systems.•Unlike previous research, the proposed formulation tackles practical unbalanced systems.•Detailed analysis with simulation results of the proposed formulation are provided.•The proposed approach is characterized by scalability and low computational time. This paper presents a new generic approach for developing a Jacobian matrix for use with the optimization unit in real-time energy management systems (EMS) for unbalanced smart distribution systems. The proposed formulation can replace approximated calculations for real-time optimal power flow in an optimization unit while providing greater accuracy and requiring less computational time, which is critical for real-time EMS. The effectiveness and robustness of the proposed approach have been tested through simulations with different distribution networks. The simulation results demonstrate a significant reduction in the computational time with the new proposed formulation. Moreover, the results demonstrate the scalability of the proposed approach as the reduction in the computational time is more significant for large practical systems. The proposed approach is characterized by evaluating the scalability and low computational time; thus, it can be used by grid operators in real-time energy management applications for large-scale practical distribution systems.
doi_str_mv	10.1016/j.jare.2019.04.001
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This paper presents a new generic approach for developing a Jacobian matrix for use with the optimization unit in real-time energy management systems (EMS) for unbalanced smart distribution systems. The proposed formulation can replace approximated calculations for real-time optimal power flow in an optimization unit while providing greater accuracy and requiring less computational time, which is critical for real-time EMS. The effectiveness and robustness of the proposed approach have been tested through simulations with different distribution networks. The simulation results demonstrate a significant reduction in the computational time with the new proposed formulation. Moreover, the results demonstrate the scalability of the proposed approach as the reduction in the computational time is more significant for large practical systems. 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This paper presents a new generic approach for developing a Jacobian matrix for use with the optimization unit in real-time energy management systems (EMS) for unbalanced smart distribution systems. The proposed formulation can replace approximated calculations for real-time optimal power flow in an optimization unit while providing greater accuracy and requiring less computational time, which is critical for real-time EMS. The effectiveness and robustness of the proposed approach have been tested through simulations with different distribution networks. The simulation results demonstrate a significant reduction in the computational time with the new proposed formulation. Moreover, the results demonstrate the scalability of the proposed approach as the reduction in the computational time is more significant for large practical systems. 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This paper presents a new generic approach for developing a Jacobian matrix for use with the optimization unit in real-time energy management systems (EMS) for unbalanced smart distribution systems. The proposed formulation can replace approximated calculations for real-time optimal power flow in an optimization unit while providing greater accuracy and requiring less computational time, which is critical for real-time EMS. The effectiveness and robustness of the proposed approach have been tested through simulations with different distribution networks. The simulation results demonstrate a significant reduction in the computational time with the new proposed formulation. Moreover, the results demonstrate the scalability of the proposed approach as the reduction in the computational time is more significant for large practical systems. 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subjects	Distribution systems Energy management systems Jacobian matrix Optimal power flow Original Smart Grids Unbalanced systems
title	Optimization unit for real-time applications in unbalanced smart distribution networks
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