Multiobjective optimal power flow for static voltage stability margin improvement

Kyomugisha, Rebeccah; Muriithi, Christopher Maina; Edimu, Milton

doi:10.1016/j.heliyon.2021.e08631

Cited by 18 publications

(10 citation statements)

References 41 publications

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“…On the other hand, feature extraction aims to map raw input features into a lower-dimensional space that is more informative. Principal component analysis (PCA) [ 116 , 122 ] and linear discriminant analysis [ 95 ] are the two familiar linear feature extraction techniques, and kernel PCA, Gaussian process latent variable model and deep learning approaches [ 30 ] are non-linear feature extraction approaches.…”

Section: Methods Of Power System Security Assessmentmentioning

confidence: 99%

“…The actions included in the toolbox consist of generation re-dispatching, and change in transformer tap position, topology of substations, and set point values of HVDC lines or phase shift transformers. At the generation region, security can be improved by re-dispatching the generators so as to relieve the overloaded lines [ 116 ] and/or mitigate voltage violations [ 74 ]. Security constrained optimal power flow (SCOPF) is carried out to ensure the static security of the power system while operating at optimal economic and technical conditions.…”

Section: Security Improvement Techniquesmentioning

confidence: 99%

See 1 more Smart Citation

Techniques of power system static security assessment and improvement: A literature survey

Hailu¹,

Nyakoe²,

Muriithi³

2023

Heliyon

Self Cite

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Section: Methods Of Power System Security Assessmentmentioning

confidence: 99%

Section: Security Improvement Techniquesmentioning

confidence: 99%

Techniques of power system static security assessment and improvement: A literature survey

Hailu¹,

Nyakoe²,

Muriithi³

2023

Heliyon

Self Cite

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“…Therefore, they are inappropriate for real-time voltage stability assessment. Moreover, Jacobian matrix basedindices increase the running time of the optimization problem, especially in a large power system [36][37][38]65]. Hence, these indices require more computation effort, and the cost of calculation will be very high.…”

Section: Voltage Stability Indices (Vsis) and Their Limitationsmentioning

confidence: 99%

“…Currently, many studies focus on incorporating the line voltage stability indices (LVSIs) in the traditional optimal power flow problems for multi-objective optimization (MOOP) [58][59][60][61][62][63][64][65], and aim to select a high-performance index of LVSIs to improve system stability [60]. Also, [60] concludes that the voltage stability indices have applicability in planning voltage stability improvement for a grid that integrates renewable energy sources (RES).…”

Section: Introductionmentioning

confidence: 99%

A novel collapse prediction index for voltage stability analysis and contingency ranking in power systems

Mokred

Wang

Chen

2023

Prot Control Mod Power Syst

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Voltage instability is a serious phenomenon that can occur in a power system because of critical or stressed conditions. To prevent voltage collapse caused by such instability, accurate voltage collapse prediction is necessary for power system planning and operation. This paper proposes a novel collapse prediction index (NCPI) to assess the voltage stability conditions of the power system and the critical conditions of lines. The effectiveness and applicability of the proposed index are investigated on the IEEE 30-bus and IEEE 118-bus systems and compared with the well-known existing indices (Lmn, FVSI, LQP, NLSI, and VSLI) under several power system operations to validate its practicability and versatility. The study also presents the sensitivity assumptions of existing indices and analyzes their impact on voltage collapse prediction. The application results under intensive case studies prove that the proposed index NCPI adapts to several operating power conditions. The results show the superiority of the proposed index in accurately estimating the maximum load-ability and predicting the critical lines, weak buses, and weak areas in medium and large networks during various power load operations and contingencies. A line interruption or generation unit outage in a power system can also lead to voltage collapse, and this is a contingency in the power system. Line and generation unit outage contingencies are examined to identify the lines and generators that significantly impact system stability in the event of an outage. The contingencies are also ranked to identify the most severe outages that significantly cause voltage collapse because of the outage of line or generator.

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“…Three Rao algorithms are shown in [7] to handle OPF issues in three typical test systems while taking into account technical and economical goal functions. The voltage collapse proximity index (VCPI) is used in [8] as part of a multi-objective optimization strategy to enhance static voltage stability in normal, emergency, and stressful operation scenarios. The multi-case research findings are ranked using a preference selection index approach to determine the optimal operational solution.…”

Section: Introductionmentioning

confidence: 99%

Improved Skill Optimization Algorithm Based Optimal Power Flow Considering Open-Access Trading of Wind Farms and Electric Vehicle Fleets

2024

IJIES

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The paradigm shift towards sustainable energy sources has propelled research into enhancing the efficiency and reliability of power systems. This study introduces an advanced methodology for optimal power flow (OPF) by integrating the skill optimization algorithm (SOA) with considerations for open-access trading of wind farms and the integration of electric vehicle (EV) fleets. In order to improve exploration features of SOA, opposition-based learning (OBL) is used for diversifying the population. The proposed ISOA-based OPF model addresses the optimization of power flow in a multi-objective framework, aiming to minimize generation cost and minimize transmission loss while accommodating the open access trading between wind farms and EV fleet demands. The incorporation of open-access trading enables the effective utilization of surplus wind energy among interconnected power systems, fostering grid resilience and sustainable benefits. Simulation results on standard IEEE 30-bus and 57-bus test systems validate the efficacy of the proposed approach, showcasing improved system performance, reduced cost and power losses, and enhanced utilization of renewable resources in modern power grids. In the IEEE 30-bus, fuel costs are $803.13/hr standard and $935.2408/hr with extra trading. In the IEEE 57-bus, costs are $37589.34/hr standard and $37628.8/hr with additional trading. These results align with benchmarks, showcasing the method's efficacy in intricate problem-solving.

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Multiobjective optimal power flow for static voltage stability margin improvement

Cited by 18 publications

References 41 publications

Techniques of power system static security assessment and improvement: A literature survey

Techniques of power system static security assessment and improvement: A literature survey

A novel collapse prediction index for voltage stability analysis and contingency ranking in power systems

Improved Skill Optimization Algorithm Based Optimal Power Flow Considering Open-Access Trading of Wind Farms and Electric Vehicle Fleets

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