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Planning and Financing Strategy for Clustered Multi-Carrier Microgrids

Mahdi Azimian, Reza Habibifar, Vahid Amir, Elham Shirazi, Mohammad Sadegh Javadi, Ali Esmaeel Nezhad, Soheil Mohseni

2023IEEE Access21 citationsDOIOpen Access PDF

Abstract

This paper discusses the optimal deployment of a cluster consisting of connected AC-coupled, low voltage (48 V) multi-carrier microgrids within an integrated framework. The utilization of this integrated framework proves to be an effective approach for enhancing the reliability, resiliency, and operational quality of the clustered multi-carrier microgrids. Furthermore, it enables improved utilization of distributed energy resources in both grid-connected and stand-alone scenarios. In order to address local objectives, this paper presents a hybrid approach to determine the optimal integration and size of distributed energy resources in autonomous multi-carrier microgrids. Additionally, the proposed model identifies the ideal demand response intensity for each multi-carrier microgrid, which can result in energy savings and financial profits by modifying energy demands during peak hours. The primary objective is to minimize the development cost of clustered multi-carrier microgrids while ensuring a desired level of local reliability and online reserve. To address the planning problem of the proposed integrated parallel multi-carrier microgrid network, a mixed-integer programming model is formulated. Numerical results obtained from a three-microgrid system demonstrate the effectiveness of the proposed integrated planning model, validating the economic viability of the expansion project from various financial perspectives. Finally, a practical financing strategy is proposed to facilitate the successful implementation and deployment of parallel multi-carrier microgrids, thereby contributing to the achievement of sustainable development goals. The study examines the role of governments in facilitating capital investments for clustered multi-carrier microgrid projects, aligning with sustainable development goals. It proposes a feasible financing strategy through settled billing tax rates ranging from 4% to 26% for multi-carrier microgrid customers over ten years. This strategy can assist policymakers in formulating supportive policy programs to effectively implement and promote multi-carrier microgrids in diverse premises.

Topics & Concepts

MicrogridComputer scienceDistributed generationSoftware deploymentGridReliability (semiconductor)Integer programmingDistributed computingReliability engineeringEnvironmental economicsRenewable energyEngineeringPower (physics)GeometryAlgorithmMathematicsArtificial intelligenceControl (management)Quantum mechanicsOperating systemPhysicsElectrical engineeringEconomicsMicrogrid Control and OptimizationSmart Grid Energy ManagementHybrid Renewable Energy Systems