Ionel Vechiu scite author profile

This paper aims at enhancing the resilience of a photovoltaic-based microgrid equipped with battery storage, supplying a typical commercial building. When extreme weather conditions such as hurricane, tsunami and similar events occur, leading to islanding of the microgrid from the main power grid, it is not expected that the microgrid would be taken out of service for a long time. At the same time, it is not cost effective to make the electrical system to be absolutely reliable to provide service for the customers. The main contribution of this paper lies in its ability to determine the optimal point between the operational cost and grid resilience. In other words, this work proposes an optimal management system of battery energy storage in a way to enhance the resilience of the proposed microgrid while maintaining its operational cost at a minimum level. The optimization is achieved by solving a linear optimization programming problem while the Conditional Value at Risk (CVaR) is incorporated in the objective function. The CVaR is used to account for the uncertainty in the intermittent PV system generated power and that in the electricity price. Simulation analyses are carried out in MATLAB to evaluate the performance of the proposed method. Results reveal that the commercial building microgrid resilience is improved remarkably at a slight increase in the operational cost.

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Transient Operation of a Four-Leg Inverter for Autonomous Applications With Unbalanced Load

Vechiu

Curea

Camblong

2010

IEEE Trans. Power Electron.

165

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In this paper, the transient operation of a four-leg inverter equipped with an innovative control strategy under unbalanced load conditions is investigated. The inverter is proposed for transformerless hybrid power system applications, in order to provide simultaneous supply of three-phase and single-phase ac loads with balanced voltage and constant frequency. The four-leg inverter is controlled to ensure balanced voltage by means of a control strategy based on the decomposition of the supply three-phase voltage and current into instantaneous positive, negative, and homopolar sequence components using phasor representation. These three sequences are controlled independently in their own reference frames as dc signals. The implementation derived for the controller design is also described. The transient operation performance of the proposed control strategy has been tested in simulations with an average model and experimentally using a laboratory prototype.Index Terms-Current control, dc-ac power conversion, hybrid power integration, inverters, power quality, symmetrical components, unbalance, voltage control.

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Comparison of three topologies and controls of a hybrid energy storage system for microgrids

Etxeberria¹,

Vechiu²,

Camblong³

et al. 2012

Energy Conversion and Management

153

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Hybrid Energy Storage Systems for renewable Energy Sources Integration in microgrids: A review

et al. 2010

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Control of four leg inverter for hybrid power system applications with unbalanced load

Vechiu

Camblong

Tapia

et al. 2007

Energy Conversion and Management

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Ionel Vechiu

CVaR-based energy management scheme for optimal resilience and operational cost in commercial building microgrids

Transient Operation of a Four-Leg Inverter for Autonomous Applications With Unbalanced Load

Comparison of three topologies and controls of a hybrid energy storage system for microgrids

Hybrid Energy Storage Systems for renewable Energy Sources Integration in microgrids: A review

Control of four leg inverter for hybrid power system applications with unbalanced load

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