Multi-Objective Optimization Scheduling of Active Distribution Network Considering Large-Scale Electric Vehicles Based on NSGAII-NDAX Algorithm

Chen, Jingwen; Mao, Lei; Liu, Yaoxian; Wang, Jinfeng; Sun, Xiaochen

doi:10.1109/access.2023.3312573

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Cited by 7 publications

References 25 publications

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Electrical vehicles impact on unbalanced distribution networks considering different loads and energy prices

Sadat,

Mohammadnezhad Shourkaei,

Soleymani

2024

Heliyon

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Electrical vehicles impact on unbalanced distribution networks considering different loads and energy prices

Sadat,

Mohammadnezhad Shourkaei,

Soleymani

2024

Heliyon

View full text Add to dashboard Cite

Analysis of vehicle-to-grid economy based on sustainable development grounded in game theory

Wu,

Sun,

et al. 2025

Sustainable Energy Technologies and Assessments

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Study on two‐stage optimal scheduling of DC distribution networks considering flexible load response

Chen,

Yang,

Jiang

et al. 2024

IET Electric Power Appl

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Due to the aim of developing sustainable energy systems, promoting the large‐scale accommodation of distributed renewable energy sources (DRESs) and flexible loads in DC distribution networks (DCDNs) is significant. The uncertainty of DRESs and the insufficient use of flexible loads pose a considerable challenge to the economical and safe operation of DCDNs. To address the challenge, this paper puts forward a two‐stage optimal scheduling model for the DCDNs considering flexible load response. The proposed model realises joint economic optimisation and reactive power optimisation, which is solved by the hybrid NSGAII‐MOPSO algorithm and the CPLEX. The performance of the proposed model in the modified Institute of Electrical and Electronics Engineers 33‐node system with the DCDNs is validated under different scenarios. The hybrid NSGAII‐MOPSO performs better in obtaining the Pareto front than the NSGA‐II and MOPSO individually. Compared to the traditional scheduling model, the proposed model can realise the power coordination of the flexible loads and energy storage systems to reduce the negative impact of uncertainty of DRESs while decreasing operating costs and carbon emissions by 3.94% and 36.4%. In addition, the proposed model can alleviate the network losses and ensure the node voltage for the DCDNs. Hence, the efficiency of the proposed model has been confirmed.

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Multi-Objective Optimization Scheduling of Active Distribution Network Considering Large-Scale Electric Vehicles Based on NSGAII-NDAX Algorithm

Cited by 7 publications

References 25 publications

Electrical vehicles impact on unbalanced distribution networks considering different loads and energy prices

Electrical vehicles impact on unbalanced distribution networks considering different loads and energy prices

Analysis of vehicle-to-grid economy based on sustainable development grounded in game theory

Study on two‐stage optimal scheduling of DC distribution networks considering flexible load response

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