Hierarchical Control of a Low Voltage DC Microgrid with Coordinated Power Management Strategies

IF 1.5 0 ENGINEERING, MULTIDISCIPLINARY Engineering, Technology & Applied Science Research Pub Date : 2022-02-12 DOI:10.48084/etasr.4625

S. Muchande, S. Thale

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引用次数: 3

Abstract

A microgrid consists of a cluster of renewable energy sources, energy storage elements, and loads. One of the main objectives of a microgrid is to provide reliable and high-quality power to the loads. Under normal operating conditions, this is achieved through suitable Power Management Strategy (PMS). However, under emergency conditions, such as the failure of any source, overloads, or faults, the PMS may not be able to retain the microgrid in operating conditions. Any emergency condition may demand a significant change in control and coordination between various subsystems of the microgrid to survive and continue the operation. This feature makes a microgrid "a fault resilient" system as visualized in its objectives. This paper proposes a novel Coordinated Power Management (CPM) strategy based on three-layer hierarchical control for an autonomous Low Voltage DC (LVDC) microgrid. The proposed CPM strategy ensures the continuation of the microgrid operation under normal and emergency conditions. An emergency control layer is established to extend the microgrid operation during an emergency condition. The performance of the proposed control scheme is validated through simulation and experimental results.

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基于协调电源管理策略的低压直流微电网分级控制

微电网由一组可再生能源、储能元件和负载组成。微电网的主要目标之一是为负载提供可靠和高质量的电力。在正常工作条件下，这是通过合适的电源管理策略(PMS)实现的。然而，在紧急情况下，如任何电源故障、过载或故障，PMS可能无法使微电网保持运行状态。任何紧急情况都可能要求微电网各子系统之间的控制和协调发生重大变化，以生存并继续运行。这一特点使微电网成为其目标中可视化的“故障弹性”系统。针对自主低压直流(LVDC)微电网，提出了一种基于三层分层控制的新型协同电源管理(CPM)策略。拟议的CPM战略确保微电网在正常和紧急情况下继续运行。建立应急控制层，扩展微电网在紧急情况下的运行。仿真和实验结果验证了所提控制方案的性能。

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